NABL 102NABL NATIONAL ACCREDITATION BOARD FOR TESTING AND CALIBRATION LABORATORIES SPECIFIC CRITERIA for BIOLOGICAL TESTING LABORATORIES ISSUE NO : 03 ISSUE DATE: 27.06.2012 AMENDMENT NO : 00 AMENDMENT DATE: -- AMENDMENT SHEET Sl Page No. Clause Date of Amendment No. Amendment made Reasons Signature QO Signature Director 1 2 3 4 5 6 7 8 9 10 National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.06.2012 Amend No: 00 Amend Date: -- Page No: 1 of 52 CONTENTS S. No. Title Page No. Amendment Sheet 1 Contents 2 1. Introduction and Scope of Document 3 2. Personnel 4 3. Accommodation and Environment 6 4. Test Methods and Method Validation 14 5. Equipment - Maintenance, Calibration and Performance 21 6. Sampling 35 7. Sample Handling 37 8. Disposal of Contaminated Waste 39 9. Assuring Quality of Test Results 40 10. Reporting the Results 44 Appendix – A Classes of Tests in Biological Discipline 47 Appendix – B Glossary of Terms 55 Appendix – C Method Validation 58 Appendix – D Reference Culture Maintenance, Subculture and Storage 60 Appendix – E Bio-safety Levels 63 Appendix – F Uncertainty of Measurement 65 References 70 Composition of the Technical Committee 72 National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.06.2012 Amend No: 00 Amend Date: -- Page No: 2 of 52 1.5.2012 Amend No: 00 Amend Date: -- Page No: 3 of 52 . General Requirements for the competence of testing and calibration laboratories (ISO/IEC 17025:2005). For the purpose of covering the activities pertaining to grant of accreditation. 1. This document describes specific requirements that a biological testing laboratory has to meet. However other emerging areas of biological testing like molecular biology. 1.2. 1. 1. this document has tried to provide a better insight in the understanding of this concept. biochemistry and cell culture etc has given more emphasis in this revised document.06. in addition to the requirements of ISO/IEC 17025: 2005. accommodation and environment. The general criteria for laboratory accreditation are laid down in the international standard. toxicology. medical devices. This criteria document provides extra information and interpretation on classes of test. personnel. Laboratories seeking accreditation must meet all of these requirements. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Based upon assessors and laboratories feedback received with regard to not having a consensus and definitive methodology for measurement uncertainty in biological testing pertaining to quantitative measurements. under the heading of Classes of Tests in Biological Discipline. being applicable to biological testing laboratories engaged in the testing of food. In addition to this document there is one supplementary criteria document named as NABL-114 Guidelines for Food Testing Laboratories. GMO testing. The way of identifying these activities for the purpose of accreditation is perhaps a convenient means of expressing an accredited laboratory capability National Accreditation Board for Testing and Calibration Laboratories Doc. As majority of accredited biological testing laboratories are primarily involved in bacteriological testing this document does have a bias towards these types of laboratories.3.7.1. Introduction and Scope of Document 1. 1. equipments. a group wise list of biological tests for which NABL offers accreditation is given in Annexure A.6. veterinary science. reference materials/cultures and other aspects of laboratory management practices which are considered to be minimum standards for biological testing laboratories being accredited against NABL Laboratory Accreditation Program.4.1. Biological testing laboratories carrying out testing of pathogens shall have a qualified microbiologist (graduate/post graduate in Microbiology with the above-mentioned experience) as the authorized signatory. 2. or working under adequate supervision. (b) Postgraduate/higher degree in the relevant field or equivalent with a minimum of two years supervisory level experience in the relevant scope of accreditation. Staff should have a minimum of 1 year of work experience in similar area covered by the scope of accreditation as proven by demonstrated competence on records.06. shall have a formal certified training on ISO/IEC 17025:2005. Personnel (ISO/IEC 17025 clause 5. 2.3 The laboratory management shall ensure that all personnel have received adequate training for ensuring competency for the performance of assigned task. In addition. National Accreditation Board for Testing and Calibration Laboratories Doc.2012 Amend No: 00 Amend Date: -- Page No: 4 of 52 . Further the person designated as Quality Manager. The competence of authorized signatory will be assessed during the assessment before being approved by NABL. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. all the staff of the laboratory shall have a general awareness about the requirements embodied in ISO/IEC 17025:2005. Freshers can be put under training with adequate supervision. Personnel may only perform tests on samples if they are either recognized as competent to do so. Alternative qualifications in biological sciences may meet requirements where staff has relevant experience relating to the laboratory's scope of accreditation.2 Authorized signatory should fulfill either of the following requirements : (a) Graduates in the relevant field or equivalent with five years experience in similar area out of which at least two years experience should be at supervisory level.1 The minimum qualification for the technical staff in a biological testing laboratory shall be graduate in biology/ microbiology/fisheries/food science/food technology/ Pharmaceutical Sciences/biotechnology/ molecular biology/biochemistry/toxicology/veterinary science.2) The staff in the accredited laboratories must be competent and experienced in the relevant technical area covered by their scope of accreditation.2. 2. 2.06. The critical interval between performances of non-routine tests should be established and documented by the laboratory. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. it may be more appropriate to relate competence to a particular technique or instrument. Where a method or technique is not in regular use.2012 Amend No: 00 Amend Date: -- Page No: 5 of 52 . verification of personnel performance is necessary before the testing is undertaken. serological kits or microbial identification kits.5 In addition to test methods.e.2.4 Technical competence of the personnel shall be monitored objectively with provision for retraining where necessary. in some cases. AOAC). FDA. National Accreditation Board for Testing and Calibration Laboratories Doc. for example use of approved biochemical (i. 1 Irrespective of the kind of tests being performed in the laboratory. 3. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. ventilation.3. Accommodation and Environment (ISO/IEC 17025 Clause 5. 3. recording of test data and report preparation etc. It is generally considered as a good practice to have separate areas for: • Sample receipt and sample storage • Media preparation and Sterilization • Sample preparation • Aseptic operations • Incubation • Storage of reference cultures/Reference materials • Decontamination and washing • Sterility testing • Animal House National Accreditation Board for Testing and Calibration Laboratories Doc. 3. there must be adequate space and storage facilities for carrying out the tests.3 Laboratory testing areas should have appropriate lighting.4 The layout of laboratory should be arranged in such a way so that the risks of cross contamination can be reduced. The extent to which these environmental factors apply will vary according to the type and precision of the testing. adequate bench space.3) The requirements of accommodation and environmental conditions for biological testing vary widely depending on the nature of the testing involved by the laboratory.2 Storage facilities of the laboratories must be sufficient enough to allow the sample retention and if required segregation of samples for designated periods and provide conditions that maintain sample integrity. 3.2012 Amend No: 00 Amend Date: -- Page No: 6 of 52 . control of temperature and humidity. and freedom from dust and fumes. This can be achieved by carrying out the test procedures in a sequential manner using appropriate precautions to ensure test and sample integrity and by segregating the activities by time or space in conjunction with regulatory requirements.06. Risk of cross contamination or mix ups must be avoided at each test stage activities as it may interfere or compromise the integrity of the data. Protective clothing should be removed before leaving for non-laboratory areas. Based on trends/anomalies observed during the monitoring programme corrective action shall be taken and recorded. gowns designated for lab use must be worn while working in the lab. grinding. centrifuges.2 Protective lab coat. equipped with bio-safety cabinets and is supervised by a qualified microbiologist. air sampler and surface swabbing etc. tips. Dedicated pipettes.3. These include pipetting. they shall be operated within a safety cabinet of a class commensurate with the risk level of the microorganism handled.06.1 Properly maintained biological safety cabinet and other appropriate personal protective equipment shall be used whenever: (i) Any infectious aerosol is likely to be produced while performing the test. When working with samples containing microorganisms transmissible by the respiratory route or when the work produces a significant risk from aerosol production.6. infected tissues etc. 3. National Accreditation Board for Testing and Calibration Laboratories Doc. sonicating or opening and transferring vials containing infectious materials.6 Laboratory located in facilities where Products or ingredients are manufactured shall not conduct test for pathogens unless the laboratory is physically separated with limited access. shall take all precautions to avoid cross contamination.7 Laboratories shall have an appropriate environmental monitoring programme with respect to the type of tests being carried out. 3. mask etc. Records shall be maintained for it. 3. Eye and face protection (goggles. Gloves must be worn to protect hands from exposure to hazardous materials. used in a test methodology. etc. Disposable glove shall not be reused. For example.6. and harvesting infected tissues from animals or eggs. Eye and face protection should be used in rooms containing infected animals 3. centrifuging. air borne/surface contamination can be monitored through exposure plates.2012 Amend No: 00 Amend Date: -- Page No: 7 of 52 . a biological safety cabinet of Class II shall be used. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.5 Laboratories. blending.) should be used for anticipated splashes when microorganisms handled outside BSC. tubes etc should be located in each work area. inoculating animals. For procedures that involve the handling of pathogens and reference stock cultures. (ii) Concentrated infectious agents such as enriched cultures of pathogenic microorganisms. Gloves shall be disposed off with other contaminated waste after use. Most of the microbes encountered in a non-clinical testing laboratory belong to Risk Group 2 microorganisms. mixing. etc. maintenance and recording of constant temperature is essential 3. room for PCR instruments and a room for post-PCR analysis (gel electrophoresis).filters and air-exchange systems and supervision by a qualified microbiologist.2012 Amend No: 00 Amend Date: -- Page No: 8 of 52 . cleaning of work surfaces and other relevant activities. Even minor degrees of cross contamination may result in erroneous results by nucleic acid amplification. Procedure and precaution taken in avoiding the cross contamination shall be documented. changing laboratory clothing and gloves. isolation of DNA. 3. addition of isolated DNA. decontamination of equipment between samples during PCR analysis. if any. Variation in the environmental temperature can cause large differences in pipetting accuracy. the laboratory should be organized to ensure unidirectional transfer of samples. Thus.06. evaluation of the effects. on the test results and corrective actions taken shall be maintained. reaction reagents. pipette sets. PCR reaction set-up. separate laboratories (or at least separate chambers) must be made for each phase of the detection process. deionized or reagent water.9. Nucleic acid samples should be kept in designated refrigerated compartments after the sample preparation. Environmental contamination by microorganisms can be controlled by appropriate air. To fulfill this criterion. Such procedures shall include washing of lab ware. They shall not be kept at areas National Accreditation Board for Testing and Calibration Laboratories Doc. 3.. Some parts of the procedures are temperature-sensitive. including sample storage.9 Additional Requirements for GMO Testing Laboratories There shall be effective separation of the PCR testing area from neighboring laboratory areas to minimize the spread of contamination from nucleic acids and or nucleases (both DNase and RNase). A separate room shall be used for PCR testing in a laboratory. especially where small volumes have to be measured. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Preventive actions such as decontamination with UV radiation.1 Reagents. generation of distilled. consumables and equipment shall be located at appropriate designated areas to serve their specific purposes. Prevention of all type of contamination is very essential. Records of such situations. using separate laboratory ware. for each laboratory. ensure that no contamination is transferred between different stages of the detection procedure. causing differences in final concentrations of compounds in PCR. sample homogenization. To avoid contamination.8 The laboratory shall have pest control programme /schedule. The environmental conditions must also enable correct performance of the tests.Acceptable backgrounds should be assigned and there shall be a documented procedure for dealing with situations in which these limits are exceeded. The laboratories should address the following issues to provide adequate and appropriate accommodation and environment for housing. economical and safe operation in animal management for biological research and testing. The animals required for pyrogen test for drugs should be supplied as per the test norms of national pharmacopoeia.2 Test System/Animal Facilities 3. environmental. micro organisms etc for in-vitro testing are often used for toxicological testing. designed.1 Facilities for Test Systems Toxicological testing constitute an important part of biological testing for determining the nonclinical safety of a wide variety of industrial. plants. Sample extracts and d. Physically separate areas shall be provided for the following: a. etc for in-vivo testing and cell cultures. agricultural and consumer products. probes. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. 3. A veterinary doctor shall periodically check up the animals. fish and insects. GMO Positive control/plasmid/vector c. 3. pharmaceutical.1 A well planned. maintenance and assure their health/viability and suitability through out the period of study. taq polymerase.2012 Amend No: 00 Amend Date: -- Page No: 9 of 52 .10. constructed and maintained animal facility is required for efficient. The movement of nucleic acid samples or specimens should be as far as possible be unidirectional i. The size of animal facility depends on the scope of institutional activity and the types of National Accreditation Board for Testing and Calibration Laboratories Doc.10.e. Kits. The whole environment of animal house should always be kept hygienic. from pre-amplification to post-amplification areas. GMO negative control b. The feeding and breeding is to be done by properly trained personnel in animal care under the supervision of a veterinary doctor.10 General Requirements for Toxicology Laboratories Laboratories carrying out toxicological testing shall have an animal house segregated from other activities of testing. Animal house should be air-conditioned. reagents 3.2. Biological test systems like laboratory animals. master matrix.where activity such as gel electrophoresis or PCR work is conducted.10. Log books and other records shall be kept for the animal house maintenance and animal care.06. The space shall be adequate for proper segregation of animals. primers. Functional areas for animal housing. ready access to food and water. disinfection. Corridors for clean and dirty operations should be clearly marked with arrangement to prevent intermixing and contaminations during cleaning. Corridors should be wide enough for free movement of personnel and equipment. storage of feed and materials. Most of the commonly used laboratory animals are nocturnal.2.10. is generally considered satisfactory with 10-15 fresh air changes per hour in the secondary enclosure (animal room) subject to frequent cleaning of bedding and cages.2. control of recycled air.10. stand and rest in. Caging with forced ventilation that uses filtered room air and other types of special primary enclosures with independent air-supplies can effectively address the ventilation requirements of animals without ventilating secondary enclosures.6 Illumination should generally be diffused throughout the animal holding area. waste removal and transport of animals.animals housed. fireresistant. separation of high hazard material and bio-hazardous materials that can contaminate and affect the integrity of test system or invalidate the test data. autoclaving. 3. Lighting in animal rooms should provide for adequate vision and neuro-endocrine regulation of diurnal and circadian cycles of animals.2.4 Environmental temperature and humidity conditions of animal house should be complimentary to the normal variations of animal body temperatures for their well being and suitability for the studies. enough clean bedded or unobstructed area to move.3 Space allocation for animals shall. quarantine.06. separation of healthy stock from diseased. sanitation. 3. allow every individual to turn around and express normal postural adjustments. change of cages and racks. etc.2. seamless) should facilitate efficient and hygienic operation.2.5 Adequate ventilation.10. Photoperiod is a critical regulator of reproductive behaviour in many species of animals and can affect food intake and body weight gain. should be clearly designated. A 12 hrs dark-light National Accreditation Board for Testing and Calibration Laboratories Doc. 3. and use of air filtration devices.2012 Amend No: 00 Amend Date: -- Page No: 10 of 52 . For most of commonly used laboratory animals in biological testing a temperature range of 22±3°C and relative humidity of 30-70% is considered appropriate. 3. etc. at the minimum. moisture proof. necessary for adequate supply of oxygen.10.2 There should be proper separation of test animals by studies and species. Animal facility should be physically separated from personnel and laboratory areas.10. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. 3. Construction material for interior surfaces (durable. Feeders should also be cleaned and sanitized regularly. transport. microbial and chemical contaminants should be done to ensure that water quality is acceptable. about one meter (3. 3. candles) in an occupied room or 400 lux (37 ft candles) in an empty room. Water can be treated or purified to eliminate contaminants if the protocol requires highly purified water however. parasites. separation of noisy animals (dogs. appear to be sufficient for animal care and do not cause clinical signs of phototoxic retinopathy in albino rats (most susceptible species). A time-controlled lighting system should be used to ensure regular diurnal cycle and the timer performance should be periodically checked and calibrated for accuracy. storage and handling of all food should minimize introduction of contaminants and diseases.10. Watering devices should be checked daily for their proper maintenance. fungal contaminants and natural toxins.2. etc. should be adopted to keep the noise below 85dB. Light levels of about 325 lux (30 ft. is inherent in the operation of an animal facility but it should be regulated to the minimum practicable. Purchase. etc.06. cleanliness and operation. 3.2.2. minimizing personnel and frequency of visits to animal rooms. Bedding should be changed as National Accreditation Board for Testing and Calibration Laboratories Doc. Measures such as separation of human and animal areas. should be considered for adverse effects on the test system and study results. uncontaminated drinking water according to their requirement.9 Animals should be provided potable. The date of sterilization should be recorded and the diet used quickly.10 Appropriate and sufficient bedding should be provided in animal housing to keep the animals clean and dry between cage/bedding changes. Feeders should be designed and placed to allow easy access to food and to minimize contamination with urine and feces. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. 3. microbial.10. such process like chlorination. non-contaminated and nutritionally adequate food daily or according to their particular requirements unless required otherwise by specific protocol. Periodic monitoring of drinking water for pH.2012 Amend No: 00 Amend Date: -- Page No: 11 of 52 . goats.2. potential disease vectors. produced by animals and animal care related activities.10.10. All feed should be free from chemical. and non-human primates) from quieter animals (rodents).7 Noise.cycle is generally acceptable. environmental design to absorb noise. Autoclavable diets may require adjustments in nutrient concentrations degraded during sterilization.3 ft) above the floor. swine. 3. hardness.8 Animals should be fed palatable. 2. cleaning (removal of dirt and debris) and disinfection (reduction/elimination of unacceptable concentration of microorganisms). It should be autoclaved and dried (to evaporate moisture) before use. National Accreditation Board for Testing and Calibration Laboratories Doc. 3. Details of disinfectant use should be recorded.2012 Amend No: 00 Amend Date: -- Page No: 12 of 52 . etc. Effectiveness of sanitation can be monitored by visual inspection. species of animal.frequently as necessary due to leakage of water bottles. guinea pigs and hamsters that produce urine with high concentration of proteins and minerals. Sanitation includes bedding change.2. 3. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Disinfection can be achieved with chemicals. All areas of animal facility should be routinely cleaned and disinfected. etc. racks. cages and other primary enclosures should be done with frequent flushing with water and periodic use of detergents and disinfectants. Disinfectants should be thoroughly rinsed before reuse of equipment.10. Use of pesticides should be avoided but if necessary. odors and microbiological testing. environmental conditions. etc. non-toxic substances (amorphous silica gel) traps. The frequency of cleaning cages. Acid wash may be necessary to clean the cages of rabbits. and associated equipment like feeders. etc should be preferably once a day. racks or carts to minimize contamination. it should be documented and any impact on study animals is to be evaluated. should be used. Washing time should be sufficient to kill vegetative forms of common bacteria and other organisms that are presumed to be controlled by the sanitation program. Non-toxic means of pest control such as insect growth regulators. Cleaning utensils should be assigned to specific area to limit possibility of cross contamination and be cleaned or replaced themselves to be in good working condition.10. control or eliminate pest infestation should be implemented in an animal facility.11 Adequate sanitation of animal house is necessary for good health of test system and integrity of studies. Cleaning and disinfection of pens.06. Bedding should be transported and stored off the floor on pellets. The frequency of sanitation operation is dependent on the type of housing.12 Programs designed to prevent. hot water or a combination of the two. Deodorants should not be used to substitute good sanitation and adequate ventilation. type of bedding material. diarrhea. water bottles. treatment and control of diseases. Test systems requiring cryopreservation may be kept in multiple samples/aliquots in small vials/tubes/receptacles/containers.06. etc. contamination. expiry. etc.13 Institutional arrangements for emergency. labeling and handling.10.10. Area for necropsy should be separate from animal housing because killing animals in presence of other animals is considered stressful and unethical. The electric system should be safe with back-up power supply in case of power failure through normal channel. and/or deterioration.10.).2. usage. National Accreditation Board for Testing and Calibration Laboratories Doc.10. codes may be used on the containers and code-wise-records of test system details (identity. specific procedures for characterization. micro-organisms. to contact in such event. should be provided appropriate accommodation and environmental conditions so as to preserve their identity & characteristics.2. storage and handling. phone etc.10. 3. and avoid all forms of contaminations that may influence their integrity and/or results.2. date of receipt.16 Other test systems including tissues. characteristics. weekend and holiday care of animals should be prominently displayed along with responsible person’s names.3. source. Storage rooms or areas should be separated from rooms or areas housing the test systems and should provide adequate protection against infestation. storage condition.14 Suitable rooms or areas should be available for the diagnosis.10. 3.2. cells.2012 Amend No: 00 Amend Date: -- Page No: 13 of 52 . 3. Necropsy areas should be equipped for euthanasia. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2.2. in order to ensure that there is no unacceptable degree of deterioration of test systems.18 There should be appropriate and adequate arrangement for un-interrupted power supply to the animal/test system facility. 3.15 There should be separate areas designated for treatment and other test related procedures on the animals. This may require appropriate equipment for their transport. reculture and disposal should be maintained. etc. Since the labels on such small containers may not allow much detail. 3. periodic sampling to assure their integrity. sub-cellular preparations.17 There should be storage rooms or areas as needed for supplies and equipment. and can demonstrate (where specified) the limits of detection.(to be specified ) Kits The use of commercial test systems (kits) will require further validation if the laboratory is unable to source the validation data. selectivity.4) Accreditation is granted for internationally or nationally accepted standard test procedures or nonstandard procedures /laboratory developed methods that have been appropriately validated and which are performed regularly. AOAC.2 Lab developed/non standard methods These include but not restricted to: 4. The laboratory shall maintain current versions of the controlled standard methods. The laboratory shall validate standard methods applied to the matrices not specified therein. 4. repeatability and reproducibility. When the manufacturer of the test kits supplies validation data. If the validation data is not available or not applicable. concentrations range and sample matrix specified in the test standards.aoac. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.org for information on methods validation).06. the laboratory shall be responsible for completing the primary validation of the method. the laboratory will only perform secondary validation (verification). but which have not been validated. National Accreditation Board for Testing and Calibration Laboratories Doc. These validation data may be obtained through collaborative testing.4. Refer www. Test Methods and Method Validation (ISO/IEC 17025 clause 5.1 Standard Methods The standard methods shall be used wherever available in order to ensure inter lab reproducibility of the results. 4. from the manufacturers and subjected to third party evaluation (e. Laboratories shall pay attention to the limitations. The laboratory must verify that it can properly operate the method.g.3 • Methods prescribed by a customer (to be specified ) • Modified standard test methods (to be specified ) • Methods from scientific publications. Laboratories shall retain validation data on commercial test systems (kits) used in the laboratory.2012 Amend No: 00 Amend Date: -- Page No: 14 of 52 . 4. negative deviation. In such cases the laboratory should conduct the validation to prove that the kit performs under local environmental conditions.3 For quantitative microbiological test methods. 4. Experimental design and analysis of results must be statistically valid. limit of detection.4 Validation of Microbiological Test Methods (ISO/IEC 17025 Clause 5.g. 4.4. The results should be evaluated with appropriate statistical methods. confirmation and identification procedures should be validated by determining specificity. the specificity. by the use of spiked samples or by incorporating reference materials in relevant matrices. e.It has been found in some cases (e. negative deviation.4 If a modified version of a method is required to meet the same specification as the original method. veterinary microbiological testing) that a specific test kit performs differently under local environmental conditions. repeatability and reproducibility. (See Appendix -B for definitions). relative trueness. The differences due to the matrices must be taken into account when testing different types of samples. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 15 of 52 .C provides some guidelines for method validation in microbiology National Accreditation Board for Testing and Calibration Laboratories Doc. repeatability.4. 4. positive deviation.3) 4.2 Qualitative microbiological test methods.06. This may be achieved by using naturally contaminated Products or Products spiked with a predetermined level of contaminating organisms. it is often the best and only solution available.g. reproducibility and the limit of determination within a defined variability should be considered and. to that of the original environmental conditions when subjected to primary validation. 4. matrix effect. then comparisons should be carried out using replicates to ensure that this is the case. the user will still need to verify on a regular basis that the documented performance can be met.4. Even when validation is complete. if necessary. However. quantitatively determined in assays. relative trueness. The extent of validation necessary will depend on the method and the application. The analyst should be aware that the addition of contaminating organisms to a matrix only mimics in a superficial way the presence of the naturally occurring contaminants. sensitivity.1 The validation of microbiological test methods should reflect actual test conditions. positive deviation. if appropriate. Appendix.4. The laboratory shall validate standard methods applied to matrices not specified in the standard procedure. 4. the laboratory may mix its own quantification standards from 100% National Accreditation Board for Testing and Calibration Laboratories Doc.g. then the laboratory should proceed to determine the specific trait present and can also specify the range of traits tested.5.3 GM testing methods should include background information on GM and the traits being tested for. with a specification of which traits have been excluded. semi quantitative and real time quantitative test. For example.06.5.6 If a GM screening test is positive. 4. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. 4.2 Validation of Methods: 4. the use of such test needs to be validated to demonstrate that it would detect a defined range of foreign DNA.1.5. it is generally accepted that refined oils can not be tested due to the absence of DNA and should document that such tests should normally be refused.1. qualitative.4 When a GM screening test is used as a preliminary detection tool. 4.5. 4.5.2012 Amend No: 00 Amend Date: -- Page No: 16 of 52 .2.2. Individual detection limits should be determined as the detection limits may vary in such screening test. the result should be reported as no foreign DNA sequence detected with respect to the specific test conducted.5.5. 4.4. Basing quantification on a line from reference materials prepared from one matrix may not be appropriate for the same trait in a different (e.1. processed) matrix. 4.g. or inappropriate claims not made from results.1 The laboratory should be clear about which matrices are suitable for quantification. so that inappropriate testing is not undertaken.1. soy sauce) where the integrity of the DNA needs to be assessed to decide whether the test has any validity. The laboratory shall maintain background information on which GM materials (crops) are on the market.1 Test Methods: 4.5.2 As the availability of GM reference materials for quantification will always lag behind the traits that are on the market.1 Laboratories should be clear about which matrices can and can not be tested.5.1.1. Requirements for method validation for different analysis vary slightly.5 If a GM screening test is negative and no further testing conducted.5 Test Methods and Method Validation of GMO testing The current GMO testing using PCR technology covers several types of analysis including inter alia.5.2 There are some processed food matrices (e. 4. 4.5. etc for quantitative tests.5.2.5. laboratory shall be responsible for validation of the method.5. precision.06. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. provided that the purity of the materials (GM and non GM) shall be established and proper validation undertaken.5. Modifications to such standard guidelines should be described National Accreditation Board for Testing and Calibration Laboratories Doc. 4. Schedule-Y. and then assume that for all such samples the extraction is effective and DNA is suitable for analysis. laboratories shall verify that the extraction and clean up procedures used are capable of extracting good quality amplifiable DNA and the resultant extracts are free from inhibiting substances.GM material.2. Extraction method shall be validated for their ability to remove inhibiting substances.2.6 Quality of the extracted DNA from all samples shall be assessed by some well-established method (gel based assessment and amplification of a “house keeping gene” are common). This provides a means of assessing whether the DNA has lost integrity.2012 Amend No: 00 Amend Date: -- Page No: 17 of 52 .2.2. 4.3 Commercial test systems (kits) may not require further verification if validation data based on collaborative testing are available. Goitonde Committee report etc.1 Toxicological laboratories should use standard study protocols and standard operating procedures/test methods referred in the BIS test procedures. Otherwise. OECD Test guidelines. 4. food).g. 4. an inhibitor control shall be used. A laboratory may have established an extraction method for a single sample. Procedures and methods used shall be so designed as to minimize the risk of false negative results due to the presence of inhibitors of nucleic acid amplification or restriction enzyme activity. The inhibition can be estimated by the amplification of another target nucleic acid expected to be present in all samples or a known DNA spiked in test samples at known concentrations.4 Laboratories shall determine the method performance characteristics such as limit of detection.7 For extraction method that has not been shown to remove consistently the inhibitors. 4.6. and in such situations further testing would be inappropriate. The laboratory shall demonstrate their capability to achieve the limit of detection quoted by the manufacturer or the laboratory has to establish its own limit of detection to minimize false positive and false negative results.6 Test Methods for Toxicological Testing 4.5 DNA assessment for analysis of items containing several ingredients or having been processed (e. publications. 4.2 Where the laboratory needs to estimate the measurement uncertainty.6) It is important for testing laboratories to understand the concept of uncertainty of measurement. individual sources of variability.2 Laboratories should maintain details of experimental design including justification for selection of test system and its characteristics (species. Where the test results are not numerical or are not based on numerical data e. it is required to document the procedures and processes on how this is to be done. consistency in the performance of media/reagents. specifications. justification for the method.1 The laboratories need to make a formal estimate of measurement uncertainty for all tests in the scope of accreditation that provide numerical results. type and frequency of analysis/measurements and statistical evaluation etc. sex.7 Uncertainty of Measurement (ISO/IEC 17025 Clause 5. e. chronology of events. ISO/IEC 17025 2005 does National Accreditation Board for Testing and Calibration Laboratories Doc. weight. and analyst interpretations should be identified and demonstrated to be under control. frequency and dose of exposure. positive/negative or based upon visual.4. pass/fail. methods and materials. Details of test method validation should be retained with the raw data wherever applicable. 4.g. Nevertheless. The laboratories should also be aware of the incidence of false positive and false negative results associated with the qualitative test they perform. detected/not detected. etc).7.2012 Amend No: 00 Amend Date: -- Page No: 18 of 52 . It is well recognized that the current state of knowledge regarding uncertainty of measurement across the full range of biological discipline is variable and a consensus agreement on the definitive methodology to be used for estimating uncertainty is still some way off. All concerned are encouraged to familiarize themselves with current developments through all available sources such as relevant guidelines. age. sub strain. 4.7. The laboratory management should be aware of the effect that their own uncertainty of measurement will have on test results produced in their laboratory.1. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.06. source. strain. 4. tactile or other qualitative examination uncertainty estimation is not required.and justified with validation.1.7.g.1 The following details the current requirements for laboratories accredited under Biological testing program: 4. scientific texts or journals etc. There are various published approaches to estimate the uncertainty in testing.6. The example includes the calibration of analytical balances.4. what their approach to estimating uncertainty in measurement will be. Out of various approaches available in the literature appendix. 4.7. This approach is not mandatory but in case any alternative approach is adopted the same will be considered as an equally valid if sourced from published guide lines and expected to address the principles embodied within it. a full measurement uncertainty budget National Accreditation Board for Testing and Calibration Laboratories Doc.1(c) of ISO/IEC 17025 2005 requires reporting of measurement uncertainty when it is required for the correct application or interpretation of test results.1. For all these calibrations.7.3 Measurement Uncertainty in calibrations: Clause 5. One such instance is where test results are used to determine if a sample conforms to a required numerical specification.not specify any particular approach. which perform their own calibrations. All approaches that give a reasonable estimation of uncertainty are considered valid.10.2 Reporting of measurement uncertainty Clause 5. The full rigor of this requirement is expected to be applied where the equipment item being calibrated has performance requirements that are critical to the accuracy or proper performance of the test and are approaching the performance specification of that equipment item. Biological testing laboratories are not required to report their measurement uncertainty on test reports as a matter of routine 4. shall have and apply a procedure to estimate the uncertainty of measurement in all calibrations. What is important is that laboratories document with reference to published approaches.7. and where the specification limit falls within the limits of measurement uncertainty associated with the test results obtained.1 of ISO/IEC 17025:2005 requires that the testing laboratories.3 Once the approach is adopted and a procedure is established the laboratory needs to develop and commence implementation of a program for applying this procedure to all relevant tests within the scope of accreditation.3. 4. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.F sets out a possible approach suggested to be consistent with the approaches available internationally.06.6.2012 Amend No: 00 Amend Date: -- Page No: 19 of 52 . The suitability and rigor of the adopted approach will be assessed accordingly. incubators and thermometers requiring high level of accuracy. 06. are not required National Accreditation Board for Testing and Calibration Laboratories Doc. (ISO 1995) Uncertainty of measurement estimations for periodic checks conducted in-house on calibrated equipments.is expected to be estimated.2012 Amend No: 00 Amend Date: -- Page No: 20 of 52 . This would normally be expected to be estimated in accordance with the Guide to the expression of uncertainty of measurement. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Calibration and Performance (ISO/IEC 17025 Clause 5.1 Maintenance 5. water bath. Biosafety cabinets. thermometers. ovens.Maintenance. timer.1. 5. pH meter. 5.2 Calibration and Performance Verification Commonly used equipment for biological tests that requires calibration and/or performance verification include balances.5) As part of its quality system. Measurement of temperature is essential for each autoclave cycle to ensure that the unit has been correctly vented. autoclaves. National Accreditation Board for Testing and Calibration Laboratories Doc.2 Laboratory should have established procedures & schedule (cleaning & sanitization) to ensure avoidance of cross-contamination arising from the equipments used to perform the tests.5 Equipment . all accredited laboratories are required to maintain a documented programme for the maintenance. thermocycler and volumetric glassware. 5.1. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Records of autoclave operations including temperature and time shall be maintained. incubators.1.2 Pressure measurements alone can not guarantee that appropriate temperature has been attained through the sterilization cycle. including validated computerized systems.06.1 Maintenance of essential equipments used in the laboratory shall be carried out at specified intervals as determined by factors such as the rate of use.. and of appropriate design and adequate capacity.1.3 Apparatus.1 Autoclave shall not be used to sterilize clean equipment and to decontaminate used equipment during the same sterilization cycle. 5. used for the generation. and for controlling environmental factors relevant to the toxicological test should be suitably located. Ideally the laboratories should have separate autoclave for these two purposes.2012 Amend No: 00 Amend Date: -- Page No: 21 of 52 . storage and retrieval of data.2. more frequent calibration will apply.2.1 Autoclave 5. Laminar Flow chamber. 5. Detailed records shall be kept. If a test method or operating environment requires a more stringent calibration/verification interval than that set by the laboratory. calibration and performance verification of its equipment necessary to carry out the tests included in the scope of accreditation.2.1. Acceptance and rejection criteria for operation conditions shall be set and implemented. 5. Autoclaves therefore need to incorporate a temperature recording device. 4 In addition to monitoring the temperature. 5. space between and height of . 5.2 Incubators. The main thrust of the need to validate autoclaves is to ensure that the media used for microbiological analysis are not being “over cooked” in the autoclaves.5. the effectiveness of sterilization can be checked with biological and chemical indicators. The graduation of the device shall be appropriate for the required accuracy.2.1. Hot Air Ovens 5. In particular the temperatures should not exceed 121°C and that media are not exposed to a high temperature for too long a time. 5.3 Temperature controllers.2.1. Traceability of the temperature measurement National Accreditation Board for Testing and Calibration Laboratories Doc. water baths ovens and temperature controlled rooms shall be established initially and documented. Water Bath. the temperature measuring devices used in incubators and autoclaves shall be of appropriate quality to achieve the specifications in the test methods.stacks of Petri dishes). in particular with respect to typical uses. Temperatures at different levels and different positions at same level inside the incubator shall be verified at defined time intervals and at least annually against the temperature specifications of the tests. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 22 of 52 . Sufficient heat is needed to kill all spores whilst protecting the media from excessive heat input thereby “overcooking”. has calibrated.2. (for example position.6 Performance of autoclaves shall be checked periodically with biological indicators.2.2.2 Performance of ovens shall be checked periodically with biological indicators.2.2. 5. temperature recording device and thermocouples need to be calibrated initially and every six months using a reference thermometer or thermocouple. However they are used only to show that the load has been processed but not as a monitor of the actual process applied.2. The temperature calibration results will reveal the pressure gauge deficiencies. 5. uniformity of temperature distribution and time required to achieve equilibrium conditions in incubators.2.5 Validation of autoclaves enables laboratories to demonstrate acceptable and consistent temperature of sterilization. 5. Temperature of incubators shall be verified against the specifications of the test standards and checks on the shelves shall be recorded.06.1.2. Temperature sensitive tape or indicator strips shall be applied for each load. which in turn an accredited calibration laboratory.1.3 Temperature Monitoring Devices Where the accuracy of the temperature measurement has a direct effect on the result of the analysis.1 The stability of temperature. laboratories should obtain supplies from companies with a recognized and relevant quality system. mechanical hand pipettes and disposable pipettes may all be used in the biological laboratory.2. 5. Laboratories should carry out initial verification of volumetric equipment and then make regular checks to ensure that the equipment is performing within the required specification. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Freezer or Cold Storage Room Permissible ranges of operation shall be specified and records of temperature checks shall be maintained. 99. it is recommended that random checks on accuracy are carried out. 5. Equipment should be checked for the accuracy of the delivered volume against the set volume (for several different settings in the case of variable volume instruments) and the precision of the repeat deliveries should be measured. Particle count shall also be checked on a routine basis to comply with relevant standard. High Efficiency Particulate Air (HEPA.2.1 Volumetric equipment such as automatic dispensers. 5. National Accreditation Board for Testing and Calibration Laboratories Doc.2. Verification should not be necessary for glassware.6 Volumetric Equipment 5. anemometer or other appropriate flow instrument.6.2 For ‘single-use’ disposable volumetric equipment. 5. which has been certified to a specific tolerance.device has to be established and overall uncertainty of measurement shall be estimated and must be appropriate for the measurement. 5.06.9%) filters shall be checked and cleaned or replaced as needed.2012 Amend No: 00 Amend Date: -- Page No: 23 of 52 . After initial validation of the suitability of the equipment.2. laboratories should check each batch of equipment for suitability. If the supplier does not have a recognized quality system.7 Laminar Flow Hoods It is important that laminar flow hoods are serviced annually.6.2. to ensure that the exhaust system functions properly. dispenser /diluters. • Airflow rate shall be monitored regularly or at-least annually with a calibrated velometer.2.4 Refrigerator.5 Weights and Balances Weights and balances shall be calibrated traceably at regular intervals according to their intended use. 3 Reference Materials and Reference Cultures 5.3. • 5. induced air leakage. • To calibrate equipment • To monitor laboratory performance.3. • To demonstrate the accuracy of results. or annually depending on the class of the cabinet.1 Reference materials and certified reference materials. UV radiation.06. reference materials should be used in appropriate matrices.9 PCR Equipment The performance of the PCR equipment such as thermocycler and the built in spectroscopic components of PCR equipment shall be verified regularly. Parameters such as final filter and exhaust filter integrity. • To validate methods and • To enable comparison of methods If possible. quarterly. National Accreditation Board for Testing and Calibration Laboratories Doc.• Cleanliness of hood surfaces shall be maintained before and after each use. for example. 5.8 Appropriate disinfection shall be carried out before and after use. Biosafety levels are explained in Appendix-E 5. • During operation the aerial microbial contamination shall also be checked using agar plates or air sampler. light intensity and noise level shall be monitored. They shall be routinely monitored using appropriate method such as the use of Replicate Organisms Direct Agar Contact (RODAC) plates or by surface swabbing method. It shall be maintained monthly. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. air velocity and uniformity.2012 Amend No: 00 Amend Date: -- Page No: 24 of 52 .2. if required should be used to provide essential traceability in measurements and are used.1. Biohazard Cabinet Biohazard cabinet shall be used for personnel protection when testing for hazardous microorganisms.2.1 Reference Materials 5. air barrier containment. 5 Analysts shall be instructed in the care of certified reference materials and procedures for handling them.1. and so forth. disposing old or outdated reference materials.3.1. maintaining reference materials in their proper location.8 DNA extracted from certified reference materials are stored to provide reference stocks.1. 5.1.06.1.6 Biological testing laboratories are expected to source their reference materials from the following possible sources (generally in decreasing order of preference) where availability permits: a) Reference standards from national measurement institutes and from ISO Guide 34 accredited reference material producers: b) Reputable chemical supply houses (particularly kit manufacturers and for pure biochemical standards or reagents). Laboratories shall have a policy and procedures for purchase. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.3. d) In-house produced reference standards 5. c) Customer supplied reference standards. 5. Reference stocks shall be stored at a condition to minimize nucleic acid degradation. and records shall be maintained of their receipt and use. with initials. They shall be kept under secure and appropriate storage conditions. the date and time. maintenance and use of certified reference materials and stocks.Reference stocks should National Accreditation Board for Testing and Calibration Laboratories Doc.3 Responsibility shall be documented for the maintenance of for certified reference materials which typically include ordering or assisting in the ordering of new reference materials.4 Reference materials usage records shall be maintained to ensure traceability. 5. care shall be exercised to see that they are stored and handled to prevent deterioration.5. 5. 5.2 Regardless of the source of the certified reference materials. keeping lists of laboratory-available certified reference materials up to date. issued and returned.1.3.3.7 Laboratories shall demonstrate traceability for certified reference materials obtained from a recognized national institute. Each analyst using a certified reference material shall enter the name of the reference material. storage. properly identifying reference material containers. checking calculations of assays.3.3. preferably with certification. handling.3.2012 Amend No: 00 Amend Date: -- Page No: 25 of 52 .1. dates of receipt and expiry. 5. 5. To demonstrate traceability.2.1. microscopic features by staining technique. b) Preparation records of reference stocks with dates of preparation. 5. if available. expiration. where these exist.3. laboratories must use reference strains of microorganisms obtained directly from a recognized national or international collection.1 Reference cultures are required for establishing acceptable performance of media (including test kits). colony characteristics on recommended media.3. when establishing media performance and method validations. In addition the information about the risk group that a particular strain belongs is also available with MTCC.). conditions and integrity of packaging of certified reference material. Traceability is necessary.11 Positive DNA reference materials/plasmids/vectors shall be verified by checking with at least one reference material from a different manufacturer or source. The requirements as in 5.2012 Amend No: 00 Amend Date: -- Page No: 26 of 52 . 5. MTCC can provide the information related to diagnostic characteristics of the culture. storage conditions and relevant applications. ATCC.g.1.10 should be fulfilled for maintaining the records. any specific requirement for culture handling. Procedures for verification of stocks should be documented. for example. vitamin assay.MTCC etc.1.06. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. pathogenic status of the strain & any specific requirement for culture handling.10 The following records shall be maintained: a) The sources. passage number. storage conditions and relevant applications (such as quality control. phenotypic characteristics relevant to the scope of testing. National Accreditation Board for Testing and Calibration Laboratories Doc. before use.2 Reference Cultures 5. c) Verification records of reference stocks. for validating methods and for assessing/evaluating on-going performance. dates put in use.2 Reference strains when obtained shall preferably have information related to the microorganism which include reference number (e. lot numbers.3. and name of operator.be aliquoted to minimize damage due to freezing and thawing. Laboratories should verify stability of stock DNA.3.2.3. antibiotic assay etc.) If required.3. and d) Records of monitoring of environmental conditions for storage of reference stocks. Reference cultures obtained from a recognized national or international collection shall be verified for their characteristics on receipt as per the details in the certificate provided by the culture collection and/or as per the requirements of the test method or activity. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. frozen beads storage etc.3 Reference cultures can be obtained from the following sources a) American Type Culture Collection (ATCC) b) Microbial Type Culture Collections. Vellore e) National Institute of Communicable Diseases. Delhi f) Central Research Institute.2. Laboratory should take responsibility to verify that the working stock used in daily QC checks or other bioassay will meet the requirements of the test method i. Himachal Pradesh g) National Culture Type Collections. (MTCC). Pune 5. there is no change in biochemical.National Chemical Laboratory. Reference stocks shall be preserved by a technique such as freeze-drying.( IMTECH) Chandigarh c) National Collection of Industrial Microorganisms (NCIM). For example. liquid nitrogen storage. Laboratories shall have a policy and procedures for purchase. (NCTC). storage. Use of reference culture after 5 passages may be extended if the same strain is found to retain all desired characteristics (morphological.2. sensitivity of reference strain to a particular antibiotic should be verified & confirmed. Reference stocks shall be used to prepare working stocks for routine work. h) Any other ISO Guide-34 accredited Reference Materials Producers Reference cultures shall be sub-cultured once to provide reference stocks.3.06. maintenance and use of reference cultures and stocks. 5..3. In case of antibiotic assay. Bacterial working stocks if sub cultured should be done only up to a defined number of generations which is recommended up to five passages from the original reference culture.4 d) Christian Medical College. which maintains desired characteristics of the strains. preservation.K. handling.e.2012 Amend No: 00 Amend Date: -- Page No: 27 of 52 . Kasouli. U. National Accreditation Board for Testing and Calibration Laboratories Doc. reference strain of Salmonella used for method verification should provide results as mentioned in standard test procedure including biochemical tests. serological activity of the strain and no change in cell morphology and colony characteristics on growth/ selective media. media code. c) history of subculture from reference stocks with dates of preparation and expiration. d) details of preservation of reference stocks and records of monitoring of environmental conditions for storage of reference cultures.3. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. purity confirmation.2. reference and working stocks. dates of receipt and expiration (if available). lot number. 5.2. Unambiguous culture code should be assigned to each organism for easy identification and traceability.7 Specific records mentioned below shall be maintained by the laboratory: a) Reference culture master records containing information of the source.2. laboratory code for a particular strain. date of revival. verification records.2.6 Reference cultures of microorganisms available not directly from. Procedures for verification of working stocks shall be documented. b) verification records of working stocks for the parameters tested and the result summary with original observation or cross reference to laboratory note book containing raw data.3.5 Culture maintenance records: Laboratories should maintain records of all their reference culture maintenance activities. and subculturing records including any purity/verification checks.4 shall also be observed.biochemical and serological characteristics as required by the scope of activity) which is verified by the laboratory using suitable tests and justification for extending its use is documented for the defined period from the date of verification. General requirement on reference culture maintenance. They shall not be further sub-cultured if no information on passage number is available from the supplier 5. 5.3. and name of operator. reference number. but claimed to be traceable to a national collection may be used for quality control checks. but the requirements on number of passages and the relevant verification procedures required as mentioned in 5. subculture and storage is given as Appendix-D National Accreditation Board for Testing and Calibration Laboratories Doc. including certificates from the reference culture Collection.3.2012 Amend No: 00 Amend Date: -- Page No: 28 of 52 .06. Schedules for checking media for decomposition. stability to heat. 5. quantitative performance. date of verification and date of expiration. date put in use. They shall not contain any impurities that may inhibit bacterial growth. Commercially pre-prepared media should have evidence of evaluation of quantitative performance.4.4 Media. This logbook shall include information such as supplier. should be taken while their handling and storage. which are traceable to recognized national or international culture collections.5. Criteria of recovery and records of verification shall be maintained. 5. etc. A logbook shall be maintained to record all such materials received at laboratories. which should be observed in the preparation or use of reagents. should be documented. date received. It is important to prevent dehydrated culture media from absorbing moisture during storage. Guidance on precautions. where appropriate. supplements and additives 5. 5. discoloration. Acceptance ranges of storage conditions and criteria for rejecting media National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Quality and grade of reagents/media should be appropriate for the tests concerned.1 All dehydrated complete or pre-prepared media and purified agars shall be checked for their physical states and verified for their microbiological performance prior to release for use. Persons responsible for preparation of reagents shall be identifiable from records. air and light.4. They shall verify the suitability of each batch of reagents critical for the test. reactivity to other chemicals.4. antisera. Dehydrated media should be stored in a dry.e. Laboratories should establish and record an appropriate re-ordering schedule to prevent the holding of stocks beyond their expiry dates.4.4. The precautions related to toxicity.06. Selective media shall be checked using positive strains with typical characteristics and completely inhibited strains. cool and dark environment. using positive and negative control organisms. flammability. deterioration and caking shall be documented.3 The sources and history of consumables having an effect on the validity of tests such as media.1 Laboratories should ensure that the quality of reagents used is appropriate for the test concerned. All laboratory prepared media starting from basic ingredients shall be checked for their recovery i. lot number.2 Laboratories shall have a policy and procedure(s) for the selection and purchasing of services and supplies. initially and during its shelf life.2012 Amend No: 00 Amend Date: -- Page No: 29 of 52 . biochemical kits and membrane filters shall be recorded.4.4 Reagents and Culture Media 5. 4. ingredient quantities (if applicable). Only water that has been tested and found to be free from bactericidal or inhibitory compounds is to be used for the culture media.06.3 Quality of water used for testing should be specified and checked regularly for compliance against the specific requirements. 5. air. if it is applicable and relevant. Verification procedures.4.4. The records should include medium name.4. Records of monitoring the storage conditions and checks of media shall be maintained.4. date of preparation and name of operator. Guidance on the preparation. Records shall be kept of all relevant details of each batch of medium prepared. Any special precautions in preparation or use of the reagents shall be documented. date of preparation. Information on the life expectancy of prepared media under specific storage conditions shall be specified and documented. 5. and sterilization process.6 All taq polymerase /master mix/kits/primers and probes shall be checked and verified for their performance using GM positive materials prior to release for their use. 5. reagents and diluents. such as conductivity. sterilization of media and recommended storage times can be found in ISO 7218: 1996 Microbiology of food and animal feeding stuffs – General rules for microbiological examinations and American Public Health Association Standard Methods for the Examination of Water and Wastewater (APHA) section 9020 B. if applicable. Extraction buffer or solution (If prepared in-house) has to be autoclaved prior to use.5 Chemicals and reagents involved from sample preparation down to PCR testing shall be molecular biology grade or equivalent and free from contaminating nucleic acids or nucleases (both DNase and RNase). final pH (post sterilization). and date of expiration if applicable.2 All media recipes and procedures for preparation shall be fully documented and authorized.4. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.should be documented. criteria for acceptance. light and other chemicals etc should be included. Prepared media not put in use immediately shall be labeled with medium names or codes. manufacturer.4 Serological and biochemical kits shall be verified with positive and negative strains with typical and negative characteristics. disinfectants and reagents etc 5. 5. lot number.4. shelf lives and special storage conditions shall be National Accreditation Board for Testing and Calibration Laboratories Doc.4. Glassware washing procedures need to ensure that no toxic residue left from detergents.2012 Amend No: 00 Amend Date: -- Page No: 30 of 52 . pH and microbial load etc.4. Stability of the reagents to heat.4. NRC-USA. 5. when appropriate. and diameter and absorption capability of absorbent pads shall meet the requirements specified in the test standards. 5. care.2 Laboratories should routinely use applicable guidelines for the breeding. They shall be confirmed of their sterility prior to release for use.5. housing.5 Handling and Use of Test Systems for Toxicological Laboratories 5. The metal inoculating loops should be made of alloys that do not interfere with any biochemical tests. A veterinary doctor shall periodically check up the animals.documented. or autoclavable plastic. wood applicator sticks.7 Membrane filtration units shall be stainless steel. housing and use of laboratory animals being available from BIS. not scratched or corroded and shall not leak. spreaders etc.4. If any unusual mortality or morbidity occurs. in order to ensure the quality of the data. test systems should be free of any disease or condition that might interfere with the purpose or conduct of the study.5. 5.2012 Amend No: 00 Amend Date: -- Page No: 31 of 52 .4 Newly received animal and plant test systems should be isolated until their health status has been evaluated.4. glass.3 Proper conditions should be established and maintained for the storage. Records shall be maintained for verification and monitoring of the storage conditions. sterile swabs. The handling and breeding is to be done by personnel properly trained in animal care. The animals required for pyrogen test for drugs should meet the test norms of national pharmacopoeia. The whole environment of animal house should always be kept hygienic.8 Sterile metal or disposable plastic loops.06.4. both for ethical considerations as well as integrity of test data. etc. 5. Diameter and pore size of membrane filters. 5. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. CPCSEA. Test systems that become diseased or injured during the National Accreditation Board for Testing and Calibration Laboratories Doc.5. should be humanely destroyed.1 Laboratories using animals for biological testing should invariably have an institutional “Animal Ethics Committee” to review and approve the use of animals for studies in accordance with the CPCSEA (Committee for the Purpose of Control and Supervision of Experiments on Animals) and other national/international guidelines on the “Care and Use of Animals for Biological Research and Testing”. this lot should not be used in studies and. At the experimental starting date of a study. should be used as inoculating equipment.5.4. management. 5. Log books and other records shall be kept for the animal house maintenance and animal care. handling and care of biological test systems. 7 All information needed to properly identify the test systems should appear on their housing or containers. viability. 5. Use of pest control agents should be documented. Any diagnosis and treatment of any disease before or during a study should be recorded.8 During use. if necessary to maintain the integrity of the study. iv) Handling of test system individuals found moribund or dead during the study. transfer. identification and handling of specimens including necropsy and histopathology.5.6 Biological test systems should be acclimatized to the test environment for an adequate period before the first administration/application of the test or reference item.course of a study should be isolated and treated.5.5. They should be sampled and handled in a manner to avoid contamination and mix-up and also to prevent any hazard to personnel. characterization. during and at the conclusion of the study. 5.5. restricted and sterile areas and all waste should be neutralized / sterilized before disposal. date of arrival.2012 Amend No: 00 Amend Date: -- Page No: 32 of 52 .10 Cellular and microbial test systems should be characterized to assure their identity. ii) Procedures for receipt. 5.9 Standard operating procedures should be available for the test system with respect to the following: i) Room preparation and environmental room conditions for the test system. 5.06. Wherever required. housing or containers for test systems should be cleaned and sanitised at appropriate intervals. Any material that comes into contact with the test system should be free of contaminants at levels that would interfere with the study. observations and examinations.5. such test systems should be used in designated.5. v) Collection. identification and care of the test system. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. 5. proper placement. Individual test systems that are to be removed from their housing or containers during the conduct of the study should bear appropriate identification. 5.5 Records of source. wherever possible. and proper responsiveness to standard reference molecules/conditions for appropriateness of use in the biological tests. iii) Test system preparation. and arrival condition of test systems should be maintained. Bedding for animals should be changed as required by sound husbandry practice. before. National Accreditation Board for Testing and Calibration Laboratories Doc. 5.5.11 Records including test item and reference item characterization, date of receipt, expiry date, quantities received and used in studies should be maintained. 5.6 Handling and Characterization of Test and Reference Items 5.6.1 Handling, sampling, and storage procedures of the test/reference item should be identified in order that the homogeneity and stability are assured to the degree possible and contamination or mix-up are precluded. 5.6.2 Storage container(s) of the test/reference item should carry identification information, expiry date, and specific storage instructions. 5.6.3 Each test and reference item should be appropriately identified (e.g., code, Chemical Abstracts Service Registry Number [CAS number], name, biological parameters). 5.6.4 For each study, the identity, including batch number, purity, composition, concentrations, or other characteristics to appropriately define each batch of the test or reference items should be known. 5.6.5 In cases where the test item is supplied by the sponsor, there should be a mechanism, developed in co-operation between the sponsor and the test facility, to verify the identity of the test item subject to the study. 5.6.6 The stability of test and reference items under storage and test conditions should be known for all studies. 5.6.7 If the test item is administered or applied in a vehicle, the homogeneity, concentration and stability of the test item in that vehicle should be determined. For test items used in field studies (e.g., tank mixes) these may be determined through separate laboratory experiments. 5.6.8 A sample for analytical purposes from each batch of test item should be retained for all studies except short-term studies. 5.6.9 All records of test/reference item characterization, expiry and quantities received and used should be retained with the study data. 5.7 Test and Reference Items (including Negative and Positive Control Items) for In-Vitro Toxicity Tests 5.7.1 In general, the specific requirements for receipt, handling, sampling, storage and characterization for test and reference items that are used in studies utilizing in vitro test systems are same as National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.06.2012 Amend No: 00 Amend Date: -- Page No: 33 of 52 applicable to in-vivo tests except that aseptic conditions need to be observed in their handling to avoid microbial contamination of test systems. 5.7.2 For “positive reference items” the definition implies not to grade the response of the test system to the test item, but rather to control the proper performance of the test system. For negative (vehicle) and positive control items, it may or may not be necessary to determine concentration and homogeneity, since it may be sufficient to provide evidence for the correct, expected response of the test system to them. 5.7.3 The expiry date of such control items may also be extended by documented evaluation or analysis. Such evaluation may consist of documented evidence that the response of the respective test systems to these positive, negative and/or vehicle control items does not deviate from the historical control values recorded in the test facility, which should furthermore be comparable to published reference values. National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.06.2012 Amend No: 00 Amend Date: -- Page No: 34 of 52 6. Sampling (ISO/IEC 17025 Clause 5.7) 6.1 In many cases, testing laboratories are not responsible for primary sampling to obtain test items. Where they are responsible, it is strongly recommended that this sampling be covered by quality assurance norms and must comply to applicable requirements. Customers taking their own samples should be made aware of proper storage, sampling and transportation facilities. Customers should be informed if the sample received is too small for meaningful analysis. 6.2 Transport and storage should be under conditions that maintain the integrity of the sample (e.g. chilled or frozen where appropriate). The conditions should be monitored and records kept. Where appropriate, responsibility for transport, storage between sampling and arrival at the testing laboratory shall be clearly documented. Testing of the samples should be performed as soon as possible after sampling and should conform to relevant standards and/or national/international regulations. 6.3 Laboratories shall document the sampling procedures for taking test portions from laboratory samples and shall have measures to ensure that the test portion is as representative of the sample as possible, and the composition of the sample would not be altered in a way that would affect the concentration or identification of the organisms/ targeted DNA being determined. In GMO testing, for cases of whole beans or grains, sample shall be sufficiently large to provide meaningful statistical data at the limit of detection of the method. The processed foods, canned and bottled products, etc. could be collected in sufficient numbers belonging to the same batch for analysis. In case different batches are used, details should be recorded and retained for reference. 6.4 Special sampling procedures should be established for special/non-routine samples and made available to the samplers as well as laboratory personnel. A copy of such documented procedure shall be maintained with the raw data and retained for future reference. 6.5 Sampling should only be performed by trained personnel. It should be carried out aseptically using sterile equipment. Environmental conditions for instance air contamination and temperature should be monitored and recorded at the sampling site. Time of sampling should also be recorded. Sampling procedure can form part of the test methods and shall include procedures for sterilization of sampling equipment and precautions in performing aseptic techniques. National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.06.2012 Amend No: 00 Amend Date: -- Page No: 35 of 52 No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. and arrangements for maintaining and distributing up-to-date lists of licensed seed samplers.6 In the case of seed testing laboratories sampling is the key activity and the laboratory management must appoint specific personnel to perform particular types of sampling and seed testing.7 Seed testing laboratories must be able to demonstrate that it has a system for the approval of lot identification. National Accreditation Board for Testing and Calibration Laboratories Doc. 6.8 Seed testing laboratories should have procedures and practices to monitor the uniformity of seed lots and to refuse the sampling and testing where doubt exists concerning uniformity.6.06. 6.2012 Amend No: 00 Amend Date: -- Page No: 36 of 52 . licensing of the seed samplers including the approval and /or provision of sampler training programmes. 7.7. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. delivery of samples including special transportation such as refrigeration and exclusion of light. National Accreditation Board for Testing and Calibration Laboratories Doc.e. storage temperature of sample on receipt. incorrect temperature. It should be performed as per national/international standards. where they exist. In sampling. This may be a lot reference number or a sequence or sequences of label numbers. Parameters to be checked include nature and characteristics of sample. the documentation sent to the seed testing laboratory must contain the following information. the laboratory must have arrangements for storage and security that protect the condition and integrity of the secured samples concerned. 7. the time of sampling should also be recorded. or by validated inhouse methods. Storage conditions and maximum holding times for different samples shall be documented and shall fulfill the requirements of test standards. characteristics of the sampling operation (sampling date and condition). If there is insufficient sample or the sample is in poor condition due to physical deterioration. torn packaging or deficient labeling. volume/amount of sample. 7. Where appropriate (e. laboratories should either refuse the sample or carry out the tests as instructed by the customers and shall indicate the conditions on test reports. Sample Handling (ISO/IEC 17025 Clause 5. it is necessary to split or transfer samples for different testing parameters. whether it has been sterilized before sampling.06.3 Frequently. environmental samples for quantitative results). method of sampling and number of samples drawn d) Unambiguous and unique reference number(s) identifying the lot. etc.2012 Amend No: 00 Amend Date: -- Page No: 37 of 52 .4. Where a sample has to be held secure.8) 7. The Subsampling procedure should be designed to take account of uneven distribution of analytes.g. conditions of sample container i.1 Laboratories shall examine and record the conditions and appearance of samples upon receipt. It is essential that procedures are available for preventing spread of contamination. disposal and decontamination processes and unbroken chain of identification of the sub-samples/samples shall be provided. a) Name / identification and signature of the sampler b) Name and address of the customer/exporter c) Date of sampling.2 Samples awaiting test shall be stored under suitable conditions to minimize any changes to any microbial population present. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.5. Seed sample retention must be for not less than one year after testing has been completed. i) 7. Any other available information requested by a customer. Samples should be stored until the test results are obtained.2012 Amend No: 00 Amend Date: -- Page No: 38 of 52 . g) Tests required h) Details of any environmental or other conditions during sampling which may affect the interpretation of the test results.06.e) Lot weight f) Number and type of containers. or longer if required. There shall be a written procedure and defined period for the retention and disposal of the samples in the laboratory. Laboratory sample portions that are highly contaminated should be decontaminated prior to being discarded. National Accreditation Board for Testing and Calibration Laboratories Doc. microbiological cultures etc shall be disposed off as early as practically feasible. as applicable. knife.to be discarded as general waste.1 Contaminated sharps (broken glass. 8. Identification and separation of contaminated waste materials are generally covered under the following: 8.1. Laboratory shall be provided with biohazard identifiable or color coded waste disposal containers strategically placed within the lab (for e. clothing are decontaminated or autoclaved within the laboratory for reuse.1. leak proof pack.1. 8. all other infectious materials should be transported for disposal after autoclaving in a biohazard identifiable/ colour coded. 8.2012 Amend No: 00 Amend Date: -- Page No: 39 of 52 . Most glassware. in licensed landfill sites. scalpel etc) .1 Waste Disposal Decontamination of waste and the ultimate disposal are closely interrelated. Contaminated toxicological waste.2 Autoclaved waste can be disposed off through off-site incineration facility. decontamination area).1.3 Waste disposal records shall be maintained for wastes disposed through licensed contractors.1. Other contaminated or infectious waste shall be disposed of by using the documented procedures in line with relevant regional or national regulatory standards.1. Suitable provision should be made for collecting the waste safely from different areas within the lab. equipment. 8.2 Non-contaminated (non-infectious) waste . Biological waste such as animal carcasses.8. anatomical as well as other associated wastes used in toxicological and other biological tests should be discarded by appropriate decontamination and disposal facilities.1 Contaminated material decontaminated by autoclaving and thereafter disposed with/without incineration as per regulatory norms. effluent treatment plants subject to meeting local regulations.should be collected in puncture proof containers and incinerated.06. Disposal of Contaminated Waste 8.g.1. National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Contaminated materials decontaminated by autoclaving and thereafter washed and reused – generally done within the lab. Except sharps. Sterility controls are used to detect the presence or absence of possible laboratory contamination.1. shall be tested concurrently with any biochemical. their frequency and acceptance criteria.3 Confirmation/verification of presumptive positive samples Positive and negative characteristic strains.3 Internal quality control consists of all the procedures undertaken by a laboratory for the continuous evaluation of its work. Assuring Quality of Test Results (ISO/IEC 17025 Clause 5. The plans shall include types of quality control checks. All tests included in the laboratory’s scope of accreditation need to be covered. Sterility controls Uninoculated samples shall be run at a minimum of once for every test run. This practice measures precision of an analytical process. For analysis performed in spiked matrices the method precision is documented and controlled based upon relative percent difference in recovery for quantitative determinations and confirmation of positive response in qualitative analysis. sub sampled in the laboratory.e. National Accreditation Board for Testing and Calibration Laboratories Doc. if applicable. Analysis of split samples is normally expected to be conducted at a frequency of at least once per parameter/matrix/analyst. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.) is under control. 9. The number or percentage of colonies stipulated in test standard required for confirmation process shall be followed.4.2012 Amend No: 00 Amend Date: -- Page No: 40 of 52 .2 Internal Quality Control 9. 9.2 Split samples (Duplicates) for quantitative tests Duplicate analysis usually involves a replicate sample. The main objective is to ensure the consistency of day-to-day results and their conformity with defined criteria.9.9) 9. 9.4. between analysts and between equipment or materials etc. and actions to be taken when results will be outside the defined acceptance criteria.1 Laboratories shall establish and implement quality control plans to ensure and demonstrate that the measurement process is in-control and test results generated are accurate and reliable. This can be achieved by: 9. 9.4.4 Programme of periodic checks is necessary to demonstrate that variability (i.06. Laboratories can also define the minimum number of colonies for confirmation if such requirements are not specified. serological and morphological tests/characteristics for confirmation of presumptive microorganisms. 5. one negative. The criteria may be used to establish the precision of test methods. Acceptance limit can be established by running spiked samples of cell suspensions in duplicate or triplicate. In situations National Accreditation Board for Testing and Calibration Laboratories Doc. 9.5.5 Replicate analyses PCR test samples shall be analyzed in at least duplicate for quantitative.GMO testing labs.4 Positive PCR amplification control Reference DNA or DNA extracted from a CRM or a known positive sample representative of a gene sequence under study shall be incorporated to demonstrate the unique performance of the PCR assay.9.5. semi quantitative and qualitative testing. 9.1.1. In the absence of a GM CRM. Example .1.2012 Amend No: 00 Amend Date: -- Page No: 41 of 52 .1. 9.4 Matrix spiked sample The sample is prepared by adding a predetermined quantity of stock solution of representative analyte to an actual sample matrix prior to sample preparation for analysis. Because duplicate extractions and PCR of the same sample can give qualitatively different results. one positive. using two or more operators.06. 9. the laboratory can spike appropriate amount of DNA enabling to achieve the desired detection limit. The method is used to measure accuracy of the method for qualitative estimations.1 In-process Control Check The following controls shall be run at a minimum of once for every test run as shown below: 9.3 Detection limit control A sample of known GM content or CRM can be used to establish the detection limit meeting the limit of detection of the method. 9.1.5 The following can be practiced as a quality control measure in testing laboratories where PCR technique is being used.1 Extraction negative (or blank) control The extraction buffer employed for DNA extraction shall be prepared from sterile water and shall be autoclaved prior to use. The criteria used to set acceptance limit for precision (relative standard deviation or range) shall be based upon statistical principles and is clearly presented for each test method.5. 9.2 Negative PCR control by use of non-GM material (0% GM content) exactly in the same manner as the samples.5.5. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.4. 1 Proficiency testing is defined as the “evaluation of participant performance against preestablished criteria by means of inter-laboratory comparisons” (ISO/IEC 17043:2010) and is thus a very important tool in a laboratory’s quality control programme to demonstrate the validity and comparability of results. instrumentation. to which NABL is a member of their Mutual Recognition Arrangement (MRA).6. This situation is most likely to occur in cases where the test is working at concentrations close to the limit of detection and/or there is some degree of inhibition of PCR due to coextractives from the sample. 9. The recommended plan for National Accreditation Board for Testing and Calibration Laboratories Doc.where false positive results occur due to contamination. 9. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.6 Proficiency Testing Programme 9. e.g. 9. each providing consistent result.06. it is NABL policy that applicant/accredited biological testing laboratories shall: a) Demonstrate their technical competence by the satisfactory participation in proficiency testing activity where such activity is available and that: b) The minimum amount of appropriate proficiency testing required per laboratory is one activity prior to gaining accreditation. different GM-specific primer sets. rules out false negative results.6. Preference should be given to proficiency testing schemes.5.6. c) Accredited laboratories shall prepare a plan for PT/ILC participation so as to cover major groups/subgroups in the scope. which use appropriate matrices.6. restriction enzyme cutting to produce fragments of the expected size. scope and critical tests etc.1.2 Proficiency testing programme shall be scheduled and implemented on a regular basis relevant to their scope of accreditation.6 Number of primer sets It is normally expected that test results are based on the results of at least two. The plan shall consider the issue of changes in staff. shall be established to confirm test results.4 In accordance with the policy of the Asia Pacific Laboratory Accreditation Co-operation (APLAC).2012 Amend No: 00 Amend Date: -- Page No: 42 of 52 . 9. The requirement of using at least two primer sets may be relaxed provided that other options for confirming the identity of an amplicon on a gel. 9. methodology.3 Laboratories should use external quality assessment not only to assess laboratory bias but also to check the validity of the whole quality system. PT participation plan shall be prepared as per NABL 163 .6. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.6. (For better understanding laboratories can refer NABL 162 and NABL 163) 9.5 Laboratories are expected to select the proficiency testing activities according to the following criteria (in a generally decreasing order of preference): (a) Mandated programmes. All findings in connection with unsatisfactory performance shall be recorded.06. laboratories shall be able to show that the problems are promptly investigated and rectified. participation in a particular programme may be mandatory.participation would be done such that portion of scope (groups) are considered twice in a year.2012 Amend No: 00 Amend Date: -- Page No: 43 of 52 .6. For practical reasons if laboratory is not able to follow this plan. lab shall have sufficient basis for non-compliance. (d) Proficiency testing programmes operated in accordance with ISO/IEC 17043.If unsatisfactory results are obtained. (e) Inter-laboratory comparison programmes involving several independent NABL accredited laboratories for statistical inferences. In addition to this laboratory should consider the requirements of regulators for PT participation. In some areas of biological testing. National Accreditation Board for Testing and Calibration Laboratories Doc.7 The results from proficiency testing activities and their analysis will be reviewed in each NABL assessment.6 . and satisfactory performance for the test/method in question can be achieved afterward. 9. 9. (b) International inter-laboratory comparison/PT programmes. (c) National inter-laboratory comparison/PT programmes. National Accreditation Board for Testing and Calibration Laboratories Doc.3.4 Laboratories must retain an exact copy of all reports issued. 10. These are generally the preferred option as their use prompts the recording of all the required information.2012 Amend No: 00 Amend Date: -- Page No: 44 of 52 . e. These copies must be retained securely and be readily available for the time specified in the laboratory’s documented policies.7 is essential. 10. 5. maintains consistency and increases recording efficiency. ‘35S promoter: detected’.3.e. quantitative results shall be reported as ‘x.3. The specificity of the target sequence shall be reported.10 of ISO/IEC 17025:2005 standard sets out the requirements for test report issued by testing laboratories.2 Test reports must give the customer all relevant information and every effort should be made to ensure that the test report is unambiguous. 10.3 Test Reports 10. Most laboratories have developed forms (proforma sheets) for all their routine testing.6 Where an estimate of the uncertainty of the test result is expressed on the test report on demand. Reporting the Results (ISO/IEC 17025 Clause 5.3 It is important to note that in many instances the test standards.4. All information in a test report must be supported by the records pertaining to the test.3. 10.2 Test records in the form of workbooks/worksheets shall be controlled and authorized by designated key technical person and lab should ensure the traceability of raw data to the final report. any limitations (particularly if the estimate does not include the component contributed by the distribution of microorganisms within the sample) have to be made clear to the customer. All information required to be reported by the test specification must be included in the report.1 Clause 5.3.x % GM material’. Similarly.10.g.7 Laboratories carrying out GMO testing activities with PCR shall accurately describe the primer sets used and the results obtained.1 Test Records An adequate test record system in accordance with the various clauses of ISO/IEC 17025. 10.13. 10. 4. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.x % of Roundup Ready Soybean’ instead of ‘x.10) 10.3. or Roundup Ready: not detected’ or ‘Bt-176: not detected’ instead of a general statement ‘does not contain GMO’.06. regulatory requirements and industry accepted practice will determine the report format and content. 10. i. The latter wording would imply that primer sets covering all potential GM events had been tested. Laboratories should verify (at least initially.10.1. 10. With increased use of electronic media such as email and the Internet. laboratories are now issuing the reports electronically. laboratories issued test reports in hard copy format with manual signatures. an indication of the reporting limits shall be given in test reports. National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.8 When test results are below the reporting limits.4.1 ISO/IEC 17025: 2005 clause 5.g.9 The sample preparation procedure should be given for the proper interpretation of test results in GMO testing laboratory’s test reports.2012 Amend No: 00 Amend Date: -- Page No: 45 of 52 .4 Electronic Reporting Traditionally.1 Transmission of Report It is the responsibility of the issuing laboratory to ensure that what was transmitted electronically is what the customer received. 10. It is also important that the laboratory and its customer agree as to which parts of the electronic transfer system they are responsible for and the laboratory must be able to demonstrate data integrity at the point the data comes under the control of the customer. Email systems have proven to be robust in this regard. and the use of electronic databases.7 attempts in a general way to specify the specific requirements for electronic reporting.3. but laboratories need to consider whether customers will have the appropriate software and version to open attachments without corruption.06. the following is intended to provide guidance on common issues of concern. While it is difficult to specify in detail a set of requirements to address every eventuality (as laboratories will tend to develop electronic reporting systems to suit their own circumstances and those of their customers). 10. by asking the customer to supply a copy of what was received and comparing it with what was transmitted. 10. and periodically thereafter is recommended) the integrity of the electronic link e.3. 10. Such practices challenge the generally accepted reporting criteria for accredited laboratories.4.10 NABL symbol in the test reports shall be used in accordance with NABL 133.3.10. Where this is not possible e.2 Security Laboratories should avoid sending test reports in an electronic format that can be readily amended by the recipient. Where this is managed through password access levels in the laboratory’s electronic system. 10. reports should be in a read only format e. The security of these signatures should be such as to prevent inadvertent use or misuse. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. The electronic report should show the identity of the individual releasing the report (authorized signatory approved by NABL). appropriate procedures should be in place to prevent abuse of password access.1. pdf files.10. This may be a hard copy (strongly recommended) or an electronic copy. For electronic reports there must be a clear audit trail with a positive authorization record to demonstrate this is the case. Where possible. These copies must be retained securely and be readily available for the time specified in the laboratory’s documented policies.06.2012 Amend No: 00 Amend Date: -- Page No: 46 of 52 . This may involve an electronic signature. National Accreditation Board for Testing and Calibration Laboratories Doc. then laboratories are recommended to indicate these electronic reports have an interim status and are followed-up by a hard copy (or more secure) final report.g.4.g. the customer may wish to transfer the reported results file into a larger database.1. Laboratories must retain an exact copy of the report that was sent to the customer.3 Electronic Signatures The reports must not be released to the customer until authorized by individuals with the authority to do so.4. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 47 of 52 . Where the existing group does not appear to cover the needs of a laboratory NABL secretariat welcomes proposals for additional classes or tests to be included in this discipline. provided that the laboratory complies with conditions for accreditation for the classes of test or specific tests involved. The scope of accreditation may be reviewed and extended on request. Food and Agricultural Products Animal Feeds Bakery & Confectionery Products Beverages (Alcoholic / Non-Alcoholic) Canned & Processed Foods Cereals. Spices & Condiments Honey & Honey Products National Accreditation Board for Testing and Calibration Laboratories Doc. Pulses & Cereal Products Coffee & Cocoa Products Edible Colours & Flavours Edible Oils & Fats Eggs & Egg Products Essential Nutrients Including Vitamins Fish & Sea Foods Food Additives & Preservatives Fruit & Fruit Products Gelatin and Other Gums Genetically Modified Foods and agricultural products Herbs.06.APPENDIX. I. Application for accreditation may be made for one or more classes of tests or for subclasses or specific test within a single class or subclass.A CLASSES OF TESTS IN BIOLOGICAL DISCIPLINE The biological testing discipline is described in terms of classes (Groups) and subclasses (subgroups) of test. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 48 of 52 . Juices.06. Drugs and Pharmaceuticals Antibiotics Ayurvedic Drugs Biotechnology derived pharmaceuticals Chemotherapeutic Agents Drug Intermediates & Raw Materials Endotoxins Enzymes Filtrable Solutions & Soluble Preparations Hormones Herbal drugs National Accreditation Board for Testing and Calibration Laboratories Doc. Sauces & Concentrates Meat & Meat Products Milk & Dairy Products Natural Waxes Nuts & Nut Products Oil Seeds & By-Products Pet Foods Poultry & Poultry Products Starch & Starch Products Sugar & Sugar Products Snacks and Instant Mixes Tea Tobacco & Tobacco Products Vegetables & Vegetable Products Other Specified Food Items II.Infant Foods Jams. Immunological Products Microbial limit test Natural Drugs Non-Filterable Preparations Including Ointments Preservative efficacy Pyrogen tests Sterility tests Surgical Dressings & medical accessories Synthetic Drugs Homeopathic Drugs Vaccines Veterinary Drugs Biopharmaceuticals Vitamins Bioassays of Other Products (Other Than Those Products Mentioned Above) Other Specified Tests III. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Water Drinking water Packaged Drinking Water Packaged Natural Mineral Water Water for Swimming Pool and Spas Water for Construction Purpose Water Purifiers Ground Water/ Surface Water Water for Medicinal Purposes Distilled /Demineralised Water Water for Processed Food Industry Water for industrial purpose National Accreditation Board for Testing and Calibration Laboratories Doc.2012 Amend No: 00 Amend Date: -- Page No: 49 of 52 .06. 06. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Industrial Cultures Dairy Starter Cultures Starter cultures for Effluent Treatment Plant Rhizobial Cultures National Accreditation Board for Testing and Calibration Laboratories Doc. Environment and Pollution Bio burden Estimation of Classified and non classified area Air /surface Effluents/Waste water Solid waste Sewage Soil V. Disinfectants Sanitizers VI. Biocides Algicides Bactericides Fungicides Herbicides Insecticides Sporicides Viricides Weedicides Antiseptics.2012 Amend No: 00 Amend Date: -- Page No: 50 of 52 .IV. Cosmetics and Essential Oils Gram negative Pathogens Microbial Count Preservative Efficacy VII. Plants and Plant Materials Identification of Bacterial /Fungal/Viral Pathogens Other Specified Tests X. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Cell Culture Purity Cell permeability test National Accreditation Board for Testing and Calibration Laboratories Doc. Seed Testing Purity Germination GM Testing Other Specified Tests IX.2012 Amend No: 00 Amend Date: -- Page No: 51 of 52 .06. Molecular Analysis (Tests for Various Matrices) Genotyping GMO Testing Promoter & Terminator Screening Detection of adulterants Pathogen Detection Gene Expression /Gene Copy Number Bacterial Mutagenicity Tests Sister Chromatid Exchange Tests Transformation Assays In Cell culture Other Specified Tests XI.Cultures for baking and brewing Mushroom Spawn Probiotics Cultures Other specified cultures VIII. Biological Tests on Other Miscellaneous Test Items Adhesives Glues and Sealant Fuels and Oils Lubricants Pulp & Paper Soaps & Detergents Textiles & Fabrics Wood & Wooden Products Toys and Other Children’s Products Packaging Materials Paints and surface coatings XIV Biopesticides and Biofertilizers XV. dermal.2012 Amend No: 00 Amend Date: -- Page No: 52 of 52 .06.Other Specified Tests XII. inhalation) Mucous membrane irritation test Skin sensitization test Eye irritation test Environmental toxicity/Eco toxicology National Accreditation Board for Testing and Calibration Laboratories Doc. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Resistance to Microbial Attack Textiles and Fabrics Leather & Leather Products Electrical Components Timber and Allied Material Packaging Materials Paints and surface coatings Other Specified Materials XIII. Toxicology Acute Toxicity (oral. virology. • Viability • DNA estimation • Protein estimation • MTT Assay Identification/Enumeration of Microbial Pathogens by Test Kits/ Rapid tests ELISA Qualitative PCR Quantitative Real Time-PCR XVII. cytopathology. histopathology. serology. haematology.06.Fish Toxicity Bird Toxicity Daphnia Toxicity Earthworm Toxicity Mutagenicity Ame’s test Dominant Lethal Mutation test Cytogenetics • Chromosomal aberration test • Micronucleus test • Sister chromatid exchange test Cytotoxicity XVI. Veterinary Testing Specified tests in biochemistry. Residue Analysis Antibiotic residue analysis by micro assay XVIII. parasitological. immunology etc. National Accreditation Board for Testing and Calibration Laboratories Doc.2012 Amend No: 00 Amend Date: -- Page No: 53 of 52 . No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. 06. Nutraceuticals & Functional Foods a) Probiotics XX.XIX. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 54 of 52 . Nutritional Supplements National Accreditation Board for Testing and Calibration Laboratories Doc. 06.The lowest number of micro-organisms within a defined variability that may be determined under the experimental conditions of the method under evaluation. National Accreditation Board for Testing and Calibration Laboratories Doc. but in numbers that cannot be estimated accurately. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. one or more of whose property values are certified by a procedure. 2 A calibration may also determine other metrological properties such as the effect of influence quantities. under specified conditions. Limit of Detection Applied to qualitative microbiological tests. 3 The result of a calibration may be recorded in a document.2012 Amend No: 00 Amend Date: -- Page No: 55 of 52 . and for which each certified value is accompanied by an uncertainty at a stated level of confidence.The lowest number of micro-organisms that can be detected. or values represented by a material measure or a reference material.[ISO Guide 30:1992] Limit of Determination Applied to quantitative microbiological tests . [VIM: 1993 ISO International vocabulary of basic and general terms in metrology] Certified Reference Material Reference material. the relationship between values of quantities indicated by a measuring instrument or measuring system.APPENDIX –B GLOSSARY OF TERMS Calibration Set of operations that establish. sometimes called a calibration certificate or a calibration report. accompanied by a certificate. and the corresponding values realized by standards NOTES 1 The result of a calibration permits either the assignment of values of measurands to the indications or the determination of corrections with respect to indications. which establishes traceability to an accurate realisation of the unit in which the property values are expressed. [ISO Guide 30:1992] Reference Method Thoroughly investigated method. particularly in permitting the characterization of a reference material. HP. reference stocks and working cultures. Christian Medical College. Positive Deviation Occurs when the alternative method gives a positive result without confirmation when the reference method gives a negative result. Kasouli. for the measurement of one or more property values that has been shown to have accuracy and precision commensurate with its intended use and that can therefore be used to assess the accuracy of other methods for the same measurement. Chandigarh. Microorganisms defined at least to the genus and species level. Reference Cultures Reference strains. This deviation becomes a false positive result when the true result can be proved as being negative.) Reference Material Material or substance one or more of whose property values are sufficiently homogeneous and well established to be used for the calibration of an apparatus.06. clearly and exactly describing the necessary conditions and procedures. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Delhi etc. Pune. catalogued and described according to its characteristics and preferably stating its origin. Collective term for reference strain. the assessment of a measurement method.[ISO 11133-1:2000] Normally obtained from a recognized national or international collection. Vellore.2012 Amend No: 00 Amend Date: -- Page No: 56 of 52 . or for assigning values to materials. National Accreditation Board for Testing and Calibration Laboratories Doc. This deviation becomes a false negative result when the true result can be proved as being positive.Negative Deviation Occurs when the alternative method gives a negative result without confirmation when the reference method gives a positive result. National Chemical Laboratory. National Institute of Communicable Diseases. (Within India reference strain can be obtained from IMTECH. Normally a national or international standard method. Central Research Institute. through the provision of objective evidence. [VIM: 1993 ISO International vocabulary of basic and general terms in metrology] Reproducibility Closeness of the agreement between the results of measurements of the same measurand carried out under changed conditions of measurement. [ISO 13843:2000] Working Culture A primary sub-culture from a reference stock. [ISO 13843:2000] Specificity (applied to microbiological tests) The fraction of the total number of negative cultures or colonies correctly assigned in the presumptive inspection. [ISO 11133-1:2000] Validation Confirmation. [ISO 111331:2000] Relative Trueness The degree of correspondence of the results of the method under evaluation to those obtained using a recognized reference method. National Accreditation Board for Testing and Calibration Laboratories Doc. that specified requirements have been fulfilled. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.Reference Stocks A set of separate identical cultures obtained by a single sub-culture from the reference strain. [VIM: 1993 ISO International vocabulary of basic and general terms in metrology] Sensitivity (applied to microbiological tests) The fraction of the total number of positive cultures or colonies correctly assigned in the presumptive inspection.2012 Amend No: 00 Amend Date: -- Page No: 57 of 52 .06. through the provision of objective evidence. Repeatability Closeness of the agreement between the results of successive measurements of the same measurand under the same conditions of measurement. [ISO 9000: 2000] Verification Confirmation. that the requirements for a specific intended use or application have been fulfilled. In some instances laboratories may need to do more to demonstrate full validation. but rather a starting point to assist laboratories to ensure the key components are considered. The diagram on the following page (Figure 1) provides a very generalized approach to method validation It is not intended to be a comprehensive reference to validation requirements.APPENDIX . The requirements for method validation are detailed in Clause 5.4. National Accreditation Board for Testing and Calibration Laboratories Doc. experience and resources to do so in a competent and thorough manner should only carry out validation of biological testing methods.2012 Amend No: 00 Amend Date: -- Page No: 58 of 52 . some of the elements may not need to be considered . No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.06.5 of ISO/IEC 17025:2005. in other instances.C METHOD VALIDATION Laboratories with the appropriate knowledge.depending on the purpose to which the method is to be applied. skills. duplicates spikes reference materials proficiency testing Following implementation a review programme should be instigated Develop QC Programme Document Laboratory Method Implement Review National Accreditation Board for Testing and Calibration Laboratories Doc.g.Customer requirements need to be defined and should Include but not be limited to: . APHA etc.consumables verified Unvalidated methods may be available from: .What accuracy is required? .linearity confirmation .reference materials .proficiency testing .detection limit / determination .customers . AOAC.consumables verified Yes If the method does not meet customer requirements then alternative methods need to be sourced and verified/validated.reference materials .06.Cost (including development)? Define Customer Requirement Validated Method Available? No No No Source a validated method from: .reproducability determination .specificity confirmation . Document Validation Verification Develop routine quality control programme: e. AOCS.repeatability determination .Why is testing being done? .Is there a specification limit? . and/or customer requirements reviewed.detection limit determination .What detection limit/precision is required? .2012 Amend No: 00 Amend Date: -- Page No: 59 of 52 .matrix effects/spiking .robustness assessment .Other Validated Methods e. Yes Verify Laboratory Performance Unvalidated Method Verify laboratory performance through: .repeatability/reproducability determination .Turn around time? .in house Validate Method Fit for Purpose? All methods need validation for example by: .National Standards .g.International Standards . ASTM.journals . No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.proficiency testing . 06. They are generally applicable to most aerobic organisms that are in common use. Subculture and Storage Microorganisms have an inherent tendency to mutate in laboratory culture. However it should be noted that culture conditions for anaerobic organisms are significantly different and will require suitable anaerobic environment. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. A working stock culture is the one that is derived from a reference stock culture and is used on a day-to-day basis in most of the microbiological laboratories. Microorganism Maintenance Plan Tier-1 Reference culture received from culture collection Tier-2 Reference stocks Tier-3 Working stock (Daily QC use) National Accreditation Board for Testing and Calibration Laboratories Doc. Reference cultures shall be sub-cultured only once to provide reference stocks.D Reference Culture Maintenance. These organisms may be grown in anaerobic jars or chambers. Various methods have been established to preserve cultures so that minimum genetic drift occurs. General rules for preparation of reference / working stock from reference culture Reference culture is defined as a culture that is obtained from recognized microbial type culture collection.APPENDIX . It is essential then that laboratories use procedures to maintain their cultures in a viable and genetically stable state. This section provides information to laboratories on the general principles involved on culture maintenance. Working stocks shall not be sub cultured to replace reference stocks.2012 Amend No: 00 Amend Date: -- Page No: 60 of 52 . The reference stocks must be used to prepare working stocks for routine works and working stock must not be refrozen and reused once thawed. Reference stock is the one that is derived from an authentic reference culture. Reference stock The reference stock can be maintained at deep freezer (-18 0 C) or ultra cold freezer (-70°C) for a long storage (typically 2 years depending on individual culture viability). This method employs the drying of organisms from the liquid state on inert National Accreditation Board for Testing and Calibration Laboratories Doc. So considering these specific cases. Fastidious organisms such as Streptococcus pneumoniae need to be subcultured every 3rd day. Some organisms used in antibiotic testing lose their resistance over long storage hence advisable to prepare subcultures every 2 weeks. Guidance on preparation of frozen beads for long term storage Freezing on bead is one of the culture preservation methods to prepare a reference stock culture for long term storage. laboratory needs to decide their own storage plan which shall be technically justifiable. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. typically up to three months provided the culture viability is maintained. Working stock Working stock cultures can be stored in refrigerator (2°C – 8°C) and used on a day-to-day basis. The laboratory shall assign suitable trained staff for maintenance of reference culture. Many other tests require microorganisms not more than 24 hours old.Storage of reference organisms Appropriate technique shall be used to preserve the reference microorganism so that the desired characteristics of the strains are maintained.06. All aerobic bacteria can be stored in 2°C – 8°C and used as per laboratory’s subculture plan.2012 Amend No: 00 Amend Date: -- Page No: 61 of 52 . Reference culture can be stored by one of the following techniques: Reference culture Reference culture procured from culture collection can be stored in refrigerator (2°C – 8°C) in the original sealed vial or container till the expiry date. Reference culture once revived should be stored as per the instructions provided by the agency or as per laboratory internal procedure. it can be used for a shorter time. If the reference stock is maintained at 4°C on an appropriate medium. Anaerobic organisms should be stored in anaerobic conditions as per instructions provided by culture collection or reference texts. Recovery is affected by removing a single bead aseptically from the vial and inoculating it directly onto solid media or in to broth (Tier 3).70°C for periods not exceeding one to five years respectively. it may be procured again from the reputed culture collections. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 62 of 52 . porcelain beads. The remaining beads are available for later use. The viability of the culture in frozen condition is species or strain specific. These methods are suitable for short to medium term preservation at -18°C to . In general most of the cultures being used for various testing purposes can retain good viability at -700c for 1-5 years and at -180c for six months to one year. The procedure essentially consists of taking a pure culture from solid media and inoculating into a suitably prepared vial containing appropriate broth medium and unglazed porcelain beads. The vial is stored at -18°C to -70°C. National Accreditation Board for Testing and Calibration Laboratories Doc.substrates. After agitating the beads in the broth.06. When it is observed that the culture is non viable . Storage of reference cultures must be appropriately segregated from test samples. all excess fluid is removed from the vial with a fine tip Pasteur pipettes. with good genetic stability. 2012 Amend No: 00 Amend Date: -- Page No: 63 of 52 . Laboratory personnel have specific training in handling pathogenic and potentially lethal agents. It is recognized however that some existing facilities may not have all the facility features recommended for Biosafety Level 3 (i. teaching research or production facilities in which work is done with indigenous or exotic agents which may cause serious or potentially lethal disease as a result of exposure by the inhalation route. double door access zone and sealed penetration).. Biosafety level 1 is suitable for involving well characterized agents not known to consistently cause disease in healthy adult humans and of minimal potential hazard to laboratory personnel and the environment. Special containment equipment or facility design is neither required nor generally designed. All procedures involving the manipulation of infectious materials are conducted within biological safety cabinets or other physical containment devices or by personnel wearing appropriate.E Biosafety Levels There are four levels of biosafety precautions for biological agents. diagnostic. In this circumstance.. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. and are supervised by competent scientists who are experienced in working with these agents. 2) Access to the laboratory is limited when work is being conducted 3) Extreme precautions are taken with contaminated sharp items and . work is generally practiced on open bench tops using standard microbiological practices.e. Laboratory personnel have specific training in the procedures conducted in the laboratory and are supervised by a qualified and trained person in the area of microbiology or related science. an acceptable level of safety for the conduct of routine procedures. It differs from the level 1 by 1) Laboratory personnel have specific training in handling pathogenic agents and are directed by competent personnel. diagnostic procedures involving the National Accreditation Board for Testing and Calibration Laboratories Doc.06. Biosafety Level 2 is similar to Biosafety Level 1 and is suitable for work involving agents of moderate potential hazard to personnel and the environment.g. 4) Certain procedures in which infectious aerosols or splashes may be created are conducted in biological safety cabinets or other physical containment equipment Biosafety Level 3 is applicable to clinical. personal protective clothing and equipment. (e.APPENDIX . The laboratory has special engineering and design features. Within work areas of the facility all activities are confined to Class III biological safety cabinets or Class II biological safety cabinets used with one-piece positive pressure personnel suits ventilated by a life support system. The laboratory director should strictly control access to the laboratory. The Biosafety Level 4 laboratory has special engineering and design features to prevent microorganisms from being disseminated into the environment. etc. Agents with a close or identical antigenic relationship to Biosafety Level 4 agents are handled at this level until sufficient data are obtain either to confirm continued work or to work them at a lower level.propagation of an agent for identification. Members of the laboratory staff have specific and thorough training in handling extremely hazardous infectious agents and they understand the primary and secondary containment functions of the standard and special practices. A specific operation manual is prepared or adopted. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. which is completely isolated from all other areas of the building. typing.) may be achieved in a Biosafety Level 2 facility providing: 1) The exhaust air from the laboratory room is discharged to the outdoors 2) The ventilation to the laboratory is balanced to provide directional airflow into the room. special practices and safety equipment for Biosafety level 3 are rigorously followed. They shall be supervised by competent scientists who are trained and experienced in working with these agents. 3) Access to the laboratory is restricted when work is in progress and the 4) Recommended Standard Microbiological Practices. National Accreditation Board for Testing and Calibration Laboratories Doc.06. the containment equipment and the laboratory design characteristics. The decision to implement Biosafety level 3 recommendations should be made only by the laboratory director.2012 Amend No: 00 Amend Date: -- Page No: 64 of 52 . The facility is either a separate building or in a controlled area within a building. susceptibility testing. Biosafety Level 4 is required for work with dangerous and exotic agents that pose a high individual risk of aerosol transmitted laboratory infections and life threatening disease. • Standard/in house reference material results National Accreditation Board for Testing and Calibration Laboratories Doc. In addition to follow the test procedure without any deviation the laboratory must have properly designed in house quality checks.06. (2) By using the method equation and critically evaluating each variable to identify the components that will affect its value.Possible approaches for doing this exercise are: (1) By critically evaluating each step in the documented method to identify those components that may affect the results. (A) For each of the methods in the scope of accreditation providing numerical results the laboratory should identify all components of the testing process which will contribute to the uncertainty in the final results. At this stage it is not necessary to quantify each component but rather confirm its existence. The approach is required to meet the underlying principles of the process.APPENDIX.F Uncertainty of Measurement The approach is based upon overall variability of analytical process being conducted by the use of a specific method in a particular laboratory. (1) External data such as: • Published validation data for the standard method • Result from Proficiency testing or inter laboratory comparison programs. (B) Identify and gather or collate all available data relating to the performance of the method. The source of such data may be external to the laboratory or data generated internally. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 65 of 52 . (2) Internal data such as: • In house validation studies • Precision or repeatability data from duplicates • M/U values from calibration certificates • Variability in spike recovery data. . different batches of media and reagents etc. media performance and incubation etc. may provide a possible estimate of uncertainty.However National Accreditation Board for Testing and Calibration Laboratories Doc. • In case if as many of the testing variables that are the components identified in (a) are being incorporated in the analysis of each duplicate of each sample such as different analysts. diluents. will only include the component associated with taking the test portion from the submitted test sample and will not normally include the component of uncertainty associated with different equipments.(C) Conduct a gap analysis to assess which of the component identified in (a) are incorporated in the data collected in (b) It is important to have a clear understanding of how the data collected in (b) are generated and what they mean. The following are a few examples which illustrate the type of issues that need to be considered. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 66 of 52 . different operators. then this data (another form of intermediate precision) will provide a more realistic assessment of measurement uncertainty. different batches of diluents. dilution equipment. • The precision data from true duplicate sample testing collected over a long period of time in which the identified components were varied. ovens etc.06. For many biological testing laboratories where the received sample is not stable. initial dilutions. It will not include the majority of other major components of uncertainty such as sample preparation. incubators. Appropriate statistical analysis may be based upon the data generated in intra or inter laboratory collaborative studies on the use of a method based upon intermediate precision to analyze a diversity of matrices. media equipment and reagents etc . media reagents. this approach may be the only realistic one to estimate measurement uncertainty. The precision data from duplicates would in itself give an under-estimation of the overall uncertainty. • In case data is being taken from duplicate sample testing without taking note of other variables being identified in the first step. • For numerical estimations a data from duplicate plating alone will not provide an adequate estimation of measurement uncertainty as this is only a measure of individual ability to repeatable plate and count. • Intermediate precision data from reference materials analyzed repeatedly over time would include the components associated with different analyst. different pipettes. The actual recovery itself is not a component of measurement uncertainty as it can be corrected for.2012 Amend No: 00 Amend Date: -- Page No: 67 of 52 . certificates of analysis or by professional judgment. Spiking may also be required in case intermediate precision approach is to be considered in order to obtain statistical significant counts. Depending upon the principles addressed in the above mentioned approach the laboratories should be able to obtain data to sufficiently cover all significant identified components of uncertainty coming from different sources. National Accreditation Board for Testing and Calibration Laboratories Doc. from published data. The approaches suggested above will generally provide appropriate consideration of all these issues and result in a reasonable estimate provided the data are generated from same or similar matrix. Components of uncertainty which cannot be incorporated in to the quality control data generated can be estimated by separate experiment. In most of the cases such data is normally generated from homogeneous and stable samples and that may not reflect actual practices in working laboratories. batches of media and often different methods and some of these components are not relevant to a particular laboratory circumstances. • Reproducibility data would generally give an over estimation of an individual laboratory uncertainty of measurement as it include many different analysts. • Spike recovery data needs to be carefully considered. from calibration certificates. (D) Where there are components identified in (a) are not incorporated in data collected in (b) these needs to be independently estimated and their significance assessed. type of equipments. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.by their nature the reference materials are homogeneous and stable and thus this intermediate precision data will not include the components associated with sub sampling the test portions from real test samples. If they are significant the laboratories will need to review and re design their quality control data collection programs in order to incorporate as many of these additional components of uncertainty as possible.06. the significant component of uncertainty are already built in to MPN table values. • In quantitative biological testing it is ideal if the uncertainty estimation is evaluated at selected levels across the range application of the method. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.Points of Consideration • In the vast majority of the tests of biological nature the result is dependent on the method being used. • For quantitative determinations the laboratories are reminded that results from plate count tests have a skewed distribution and thus require log transformation to approximate normal distribution statistics. The best estimate of the uncertainty of measured results will therefore come from the uncertainty associated with the performance of the method used.06. Log standard deviation /confidence limits should then be calculated before anti logging each limit independently • For tests involving MPN methods where test results are obtained from relevant tables. In these instances laboratories should at least estimate uncertainty value attributable to measurement results close to the specification limits. For MPN results the values from the 95% confidence columns of the tables are being accepted as a reasonable estimates of uncertainty of these results provided that laboratory follows the test methods and subsequent reporting instructions along with the assurance that laboratory estimates of precision (duplicate assays) fall within these values. Often a test is conducted to assess compliance with a particular specification /regulatory limit etc. The laboratories are required to maintain records of each test or type of tests to demonstrate full implementation of the required procedure National Accreditation Board for Testing and Calibration Laboratories Doc. The laboratory may require to re design their in house quality checks program because the data may need to be collected over a reasonable length of time in order to make a sufficiently rigorous assessment of measurement uncertainty. If the method is followed the method bias does not contribute to the measurement uncertainty.2012 Amend No: 00 Amend Date: -- Page No: 68 of 52 . • It is recognized that in some instances the approaches addressed in the procedure may take some time for its implementation. such as different zygosity or ploidy can be another source of variance. • Additional uncertainty is added in subsequent PCR analysis due to MU of the endogenous reference and of transgene copy number determination. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.06. weight%. 2003 will apply and need to be factored into the MU. The standard deviation of parallel PCR quantity estimations increases when the target copy numbers in PCR reaction are low.2012 Amend No: 00 Amend Date: -- Page No: 69 of 52 . National Accreditation Board for Testing and Calibration Laboratories Doc.• Uncertainty of measurement is one of the most difficult parameters to establish in GMO detection. The performance of the system of homogenization used is checked in due course by independent analysis of test portions. Variance associated with the sampling step is likely to constitute the major contribution to the overall variance. since GMOs are usually non-homogeneously distributed in the bulk. Quantitative PCR methods measure DNA%. • In the testing laboratory. Parallel real-time PCR measurements must be performed to allow statistical evaluation of the variability introduced by the PCR analysis. The biological diversity of a particular GMO. GMO%. resulting in high final MU for samples with low target DNA content. resulting in differences in GMO content between test portions taken for DNA isolation. additional MU can result from in adequate sample homogenization. if this needs to be converted into copy numbers. the factors listed above and the one listed in Lipp et al. The laboratory has no control over such variables but must be aware of them for the correct interpretation of results. 1 14. Part 1 General Rules for the Preparation of the Initial Suspension and Dilution. HOKLAS Supplementary Criteria No. Biotechnology. ISO 6887-1:1999 Microbiology of Food and Animal Feeding Stuffs . 13.21 17. 6.2012 Amend No: 00 Amend Date: -- Page No: 70 of 52 . Development and Analysis – Guidance for Biotechnology Laboratory Operations.Fundamentals and Vocabulary.General Rules for Microbiological Examinations. 7. IANZ Specific Criteria for Accreditation -Biological Testing National Accreditation Board for Testing and Calibration Laboratories Doc.Laboratories for Research. 11. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. 12. 5. Microbiology of Food and Animal Feeding Stuffs. ISTA Seed Testing Laboratory Accreditation Standard Version 3. 9. Microbiology of Food and Animal Feeding Stuffs. ISO 9000. Initial Suspension and Decimal Dilutions for Microbiological Examination. General Requirements for the Competence of Testing and Calibration Laboratories. ISO 7218:2000. HOKLAS Supplementary Criteria No. 10. Part 1. Draft ISO/FDIS 11133-2. Terms and Definitions Used in Connection with Reference Materials.06. ISO 11133-1:2000. Guide to the Expression of Uncertainty in Measurements 8.General Guidelines on Quality Assurance for the Preparation of Media in the Laboratory. Draft ISO/DIS 16140. EA-04/10:2002 Accreditation for Microbiological Laboratories 15.Preparation of Test Samples. International Vocabulary of Basic and General Terms in Metrology. Part 2. VIM: 1993. 3. Microbiology of Food and Animal Feeding Stuffs . Guidelines on Preparation and Production of Culture Media.Practical Guidelines on Performance Testing on Culture Media. Guidelines on Preparation and Production of Culture Media. 2. Water Quality – Guidance on Validation of Microbiological Methods. Quality Management Systems . 4. ISO 13843:2000. ISO/IEC 17025:2005. Microbiology of Food and Animal Feeding Stuffs. ISO (CIPM):1995.Protocol for the Validation of Alternative Methods.8 16. EN 12741.REFERENCES 1. ISO Guide 30:1992. 18. ISO/IEC 17043:2010 Conformity Assessment – General requirements for Proficiency Testing National Accreditation Board for Testing and Calibration Laboratories Doc. ASTG5. published by advisory commission for metrology. 23.1996 19.P. 28. New Delhi. Uncertainty of measurement. INSA Guidelines for care and use of Animals in Scientific Research. (2007) European Commission. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27. Food Chem Toxicol 42:1157– 1180. Brera.J. Accreditation and Quality Assurance: Journal for Quality. J. Trapmann et. Uncertainty of quantitative determinations derived by cultivation of microorganisms. K.2012 Amend No: 00 Amend Date: -- Page No: 71 of 52 .EUR report 22756 EN. J. ISO/TS-19036: 2006(E). Nordic committee on food analysis (NMKL) Procedure No-08.P. E. Miraglia.Washington. J. precision and limit of detection in chemistry and microbiology. APLAC TC 005. H. Schimmel. Microbiology of food and animal feeding stuff-Guidelines for the estimation of measurement uncertainty for quantitative determinations. van Rie. A. Institute of Laboratory Animal Resources. Holst-Jensen. National Research Council. Markus Lipp (2003) Testing for foods derived from modern biotechnology: opportunities and limitations for metrology. 24. Berdal.J. 27. 25. Marvin. P.DC. 1-46. CPCSEA guidelines for Laboratory Animal Facility 21. First edition ISO-1995. Kok. Guide for and the care use of Laboratory Animals. H.P. Guidance document on Measurement Uncertainty in GMO testing Laboratories. Eurachem guide: Quantifying Uncertainty in analytical measurements 2nd edition 2000. 2002. Series on Rodents and Dogs. DC.al. C. 26. 31. 22. 30.F. Finland. Comparability and Reliability in Chemical Measurement 8:454–460. Guide to the expression of Uncertainty in Measurement. National Research Council. Washington. Zagon (2004) Detection and traceability of genetically modified organisms in the food production chain. Corbisier. Directorate General-Joint Research Centre.Interpretation and guidance on the estimation of uncertainty of measurements in testing. 1996.G. Commission on Life sciences. 32.06. 1992 20. Measurement of uncertainty in microbiological examination of food (1999). Rentsch. Laboratory Animal Management. 29. Gaind (Chairman) Technical Advisor Avon Food Lab Pvt Ltd Delhi – 110 035 Dr. Chandigarh Dr. New Delhi Dr.K. R. Gupta Head. Gurinder Jit Randhawa Principal Scientist National Research Center for DNA fingerprinting National Bureau of Plant Genetic Resources (NBPGR) Pusa. Dhakephalkar Scientist. Mahatma Gandhi Marg Lucknow Dr. Accreditation Officer-II. Anil Relia Director. Pirabhakaran Principal Scientist-Microbiology CavinKare Research Centre Chennai Dr. Microbial Sciences Division Agharkar Research Institute (ARI-DST) Agharkar road. Anand Vally Amma WHO/FAO Consultants Cochin Shri Vijender P. NABL Mr. No: NABL 102 Issue No: 03 Specific Criteria for Biological Testing Laboratories Issue Date: 27.2012 Amend No: 00 Amend Date: -- Page No: 72 of 52 .K. Moga Shri. S. Anuja Anand. Box 80. Accreditation Officer-I.G. Prasad Scientist-F. NABL National Accreditation Board for Testing and Calibration Laboratories Doc. P. Deepak K. Agarwal Former Scientist-G Industrial Toxicology Research Centre P. .O. NABL Mrs.06. Pune Dr.COMPOSITION OF THE TECHNICAL COMMITTEE Shri S. Nestle Quality Assurance Centre for South Asia Region Nestle India Limited. Anand Deep Gupta. Microbial Type Culture Collection Institute of Microbial Technology (IMTECH) CSIR. : +91-11 46499999 Fax: +91-11 26529716 Website: www. Satsang Vihar Marg New Mehrauli Road New Delhi – 110 067 Tel.nabl-india. NISCAIR 14.National Accreditation Board for Testing and Calibration Laboratories 3rd Floor.org .