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All documents as shown here are included in the package, and many more!

A total of 25 SOPs are included in the package. 15 of them are shown here.

Forms help to make computer system validation consistent and effective

 

Also included

Understanding and Implementing ISO 17025

Requirements, Strategies and and Tool Kits for Laboratory Accreditation

Available on demand 

 

ISO/IEC 17025 in Analytical Laboratories

Links to specific sections of the primer Other information in the tutorial

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Introduction

Companies have to ensure delivering continuously consistent high quality products and/or services if they want to be successful in the marketplace long term. Quality improvement has become a key national and international business strategy. Quality derives from good design, selection of high quality parts, a well controlled manufacturing process and finally continuous quality control. Most companies are using quality systems as a method of assuring the consistent conformity of products or services to a defined set of standards or customer expectations. When a company purchases parts from another company, a supplier's quality system should be assessed to establish confidence in the supplier's quality system capabilities. Companies using analytical equipment to control the quality of products have to make sure that the equipment produces analytical data reliably and with high quality.

Part of a quality system can be an qualification of the purchaser organization at the vendor's site to verify adherence to the company’s own standards or standards established by an industrial association. The purpose of such audits is to determine whether or not the supplier conforms to pre specified contractual procedures imposed by the purchaser. Larger corporations developed Supplier Quality Assurance (SQA) programs to improve the quality of the purchased goods and to reduce costs associated with incoming materials inspection. It has been common for suppliers to be assessed several times by many purchasers. This was time consuming and expensive. Replacing repeat purchaser assessments with an independent third party assessment reduces the number of visits and is more economical for both the supplier and the purchaser.

Several Quality System Standards were developed in various countries in the 1960's and 1970's. The MIL-Q-9858A in the United States in 1963 and the BS 5750 in the United Kingdom in 1979 are probably the most important ones. The ISO 9000 series of quality standards have been established in 1987 for implementing and maintaining a quality system which is internationally accepted and can be used as a criterion for third party quality assessment.

Testing laboratories play an important role in the quality systems of the companies. The ISO/IEC 17025 can be used by laboratories as a standard to develop and establish a Quality System in the laboratory and for the assessment by their clients or by third parties. The standard is also being used as a criterion for laboratory accreditation.

The first edition (1999) of the International Standard "General requirements for the competence of testing and calibration laboratories" was produced as the result of extensive experience in the implementation of ISO/IEC Guide 25 and EN 45001, both of which it replaced. It contained all of the requirements that testing and calibration laboratories have to meet if they wish to demonstrate that they operate a management system, are technically competent, and are able to generate technically valid results.

The first edition referred to ISO 9001:1994 and ISO 9002:1994. These standards have been superseded by ISO 9001:2000, which made an alignment of ISO/IEC 17025 necessary. In this second edition (2005), clauses have been amended or added only when considered necessary in the light of ISO 9001:2000.

Testing and calibration laboratories that comply with this International Standard will therefore also operate in accordance with ISO 9001.

Accreditation bodies that recognize the competence of testing and calibration laboratories should use this International Standard as the basis for their accreditation.

The standard ISO/IEC 17025 mainly includes two parts: management and technical requirements. The standard has been updated in updated  mainly in the area of management controls.

Implementing a quality system based on ISO 9000 series and/or ISO/IEC 17025 have an impact on a laboratories organization and operation. This tutorial will discuss some of their specific criteria along with their implications for testing laboratories.

2. Scope of this Tutorial

This tutorial is useful for chemical analytical laboratories that seek accreditation according to an internationally recognized standards. Examples are food testing, environmental testing, chemical testing, clinical testing, and other testing laboratoroes.   

The tutorial will guide laboratory personnel and managers personnel, and QA managers,  through the entire process of ISO 17025 certification.

It also helps laboratories that have to work under different quality systems to efficiently set up procedures for compliance with all requirements.

It covers

  • Overview of ISO 17025
  • Management requirements
  • Technical requirements
  • Impact on analytical laboratories.
  • Implementing ISO 170 25
  • Required documentation

The tutorial and its reference material should give a good understanding why 17025 is important  It also helps to improve the overall quality of analytical results and at the same time to improve the recognition of the laboratory and its employees.

3. ISO 17025 Content Overview

ISO/IEC 17025 is divided into two principal parts:

  1. Management requirements (Sect 4)
    Most of the requirements are new and are similar to those specified in ISO Standards 9001 and 9002.
  2. Technical requirements (Sect 5)
    Most of the requirements come from ISO guide 25. There are also new ones, the most important one of them is to "Report measurement uncertainty".

Management Requirements

This part aligns management aspects of ISO/IEC DIS 17025 with ISO 9001. It is expected that laboratories implementing ISO/IEC 17025 would only need a single quality system.

Management requirements include 15 paragraphs on

  • Organization and management (4.1)
  • Quality system (4.2)
  • Document control (4.3)
  • Review of request, tenders and contracts (4.4)
  • Subcontracting of tests and calibrations (4.5)
  • Purchasing services and supplies (4.6)
  • Service to the customer (4.7)
  • Complaints (4.8)
  • Control of non-conformity testing and/or calibration work (4.9)
  • Improvement (4.10)
  • Corrective action (4.11)
  • Preventive action (4.12)
  • Control of records (4.13)
  • Internal audits (4.14)
  • Management reviews (4.15)

Technical requirements

This chapter includes 10 paragraphs such as

  • General information (5.1)
  • Personnel (5.2)
  • Accommodation and environmental conditions (5.3)
  • Test and calibration methods including sampling (5.4)
  • Equipment (5.5)
  • Measurement traceability (5.6)
  • Sampling (5.7)
  • Handling of test and calibration items (5.8)
  • Assuring the quality of test and calibration results (5.9)
  • Reporting the results (5.10)

4. Management Requirements

This part includes elements of ISO 9001 and is divided in

Organization

Roles and responsibilities of the laboratory, the management and key personnel

Quality system

Laboratory shall implement a quality system appropriate to the scope of its activities

Document control

This chapter has paragraphs on creation, approval, issue and change of documents.

Review of requests, tenders and contracts

The laboratory shall establish and maintain procedures for the review of requests, tenders and contracts

Subcontracting of tests

When a laboratory subcontracts work whether this work shall be placed with a competent subcontractor. A competent subcontractor is one that, for example, complies with this International Standard for the work in question

Purchasing services and supplies

Requirement for a policy and procedure(s) for the selection and purchasing of services and supplies it uses that affect the quality of the tests and/or calibrations. Purchased supplies, reagents etc should be checked before use.
Laboratory shall evaluate suppliers of critical consumables, supplies and services

Service to the client

What it basically says is that clients should be allowed to audit the laboratory

Complaints

The laboratory shall have a policy and procedure for the resolution of complaints received from clients or other parties.

Control of nonconforming testing and/or calibration work

There should be procedures in case of non-conformance to specifications. Actions should be defined in case of such non-compliance, e.g., could be holding the work, or notification of the client, or recall the work. If this appears to be a general problem, a corrective action plan should be developed

Corrective action

Corrective action plans be in place in case of non-conforming work. Start with an investigation to determine the cause of the problem. Actions should be taken to prevent recurrence of the problem. Actions should be based on risk analysis.

Preventive action

Identify the need for improvements and potential sources of non-conformance. This is a pro-active process to identify opportunities of improvement rather than reaction of identified problems or complaints. Preventive action might involve analysis of data, including trend analysis, risk analysis and participation in proficiency testing

Control of records

Procedures for identification, collection, indexing, access, filing, storage, maintenance, disposal of quality and disposal of quality and technical records. Records should be protected against damage. Records can be on paper and on electronic media. There should be procedures to protect and back-up records and to prevent unauthorized access. The paragraph also lists details of contents of technical records. It also has the clear requirement that records must not be erased or deleted in case of corrections, this holds for paper records as well as for electronic records. Changes must be signed.

Internal audits

The laboratory shall periodically, and in accordance with a predetermined schedule and procedure, conduct internal audits of its activities to verify that its operations continue to comply with the requirements of the quality system and this International Standard. Recommended audit cycles: one year.

Management reviews

Management shall periodically conduct a review of the laboratory's quality system and testing and/or calibration activities to ensure their continuing suitability and effectiveness, and to introduce necessary changes or improvements

 

It is interesting to note that some of the paragraphs have similar requirements as the CGMP regulations. Examples are requirements for document control, control of records, and preventive actions and corrective action plans.

5. Technical Requirements

 

Technical requirements - general

This chapter deals with factors that can influence the quality of tests results. It is divided in 10 sections:

Personnel

The chapter on personnel includes five paragraphs

  1. Competence through appropriate education, training, experience and/or demonstrated skills. This may include relevant knowledge of the technology and legislation/standards and to understand significance of deviations.
  2. Formulation of goals for education, training and skills. Policy to identify training needs.
  3. People should be contracted by the lab or the lab should make sure that people are supervised and competent
  4. Development and maintenance of job descriptions with responsibilities
  5. Laboratory shall authorize people for specific tasks

Key element of personnel is appropriate training and documentation of all training activities. The training needs for all personnel whose work affects quality must be identified. For example, the operator of a GC/MS needs to get trained before (s)he operates the instrument and internal auditors will have to be trained prior to conducting internal audits.

Accommodation and environmental conditions

This paragraph has been included to monitor and control that the environment of calibration and test areas will not adversely affect the accuracy of measurement. It includes 5 sections which are mostly common sense. For example one clause recommends having effective separation between neighboring areas when the activities therein are incompatible. An example would be to separate laboratories which analyze, on the one hand, extremely low traces of a solvent and on the other, those which consume large quantities of the same solvent for liquid/liquid extraction. Key points are:

  • Environmental conditions should not invalidate the results or adversely affect the required quality of tests
  • Laboratory shall monitor, control and record environmental conditions. Pay attention to biologic sterility, dust, electromagnetic disturbances, radiation, humidity, electrical supply, temperature, sound, vibration. Stop tests when the environmental conditions jeopardize the results.
  • Separate areas in which there are incompatible activity
  • Limit access to test area to authorized people

Test and calibration methods and method validation

This paragraph deals with selection and validation of laboratory developed and standard methods and with measurement uncertainty and control of data. The laboratory shall use appropriate methods and procedures for all tests and/or calibrations within its scope. These include sampling, handling, transport, storage and preparation of items to be tested and/or calibrated, and, where appropriate, an estimation of the measurement uncertainty as well as statistical techniques for analysis of test and/or calibration data.

Key points for methods are

  • Use methods and procedures within it's scope. That means, the scope must be clearly defined
  • Laboratory shall have up-to-date instructions on the use of methods and equipment
  • Select standard methods, if available. Use the latest available edition.
  • Methods developed by the laboratory can be used, but must be fully calibrated. Clients should be informed on the method chosen. Clients should agree to the method.
  • Introduction of laboratory developed methods should be introduced following a plan.
  • Standard methods should also be validated if they are partly or fully out of the scope of the test requirement
  • Validation may include procedures for sampling, handling and transportation
  • When some changes are made in the validated non-standard methods, the influence of such changes should be documented and, if appropriate, a new validation should be carried out
  • The range and accuracy of the values obtainable from validated methods (e.g. the uncertainty of the results, detection limit, selectivity of the method, linearity, limit of repeatability and/or reproducibility, robustness against external influences and/or cross-sensitivity against interference from the matrix of the sample/test object) shall be relevant to the client's needs
  • Validation includes specification of the requirements, determination of the characteristics of the methods, a check that the requirements can be fulfilled by using the method, and a statement on the validity
  • Methods should be clearly documented, a list of documentation items is given in this paragraph

Key points for measurement uncertainty are

  • Laboratory shall have a procedure to estimate the uncertainty of measurement for ALL calibrations and types of calibrations
  • The laboratory shall at least attempt to identify all the components of uncertainty and make a reasonable estimation, and shall ensure that the form of reporting of the result does not give a wrong impression of the uncertainty.
  • Note: Sources contributing to the uncertainty include, but are not necessarily limited to, the reference standards and reference materials used, methods and equipment used, environmental conditions, properties and condition of the item being tested or calibrated, and the operator

Key points for control of data are

  • Calculations and data transfers shall be subject to appropriate checks in a systematic manner. This means, they should be validated.
  • When computers or automated equipment are used for the acquisition, processing, recording, reporting, storage or retrieval of test or calibration data, the computer software developed by the user is documented in sufficient detail and is suitably validated as being adequate for use.
  • Authors comment: Computer software includes all types of software, including Macros for spreadsheet programs and data systems.
  • Procedures should be established and implemented for protecting the data; such procedures shall include, but not be limited to, integrity and confidentiality of data entry or collection, data storage, data transmission and data processing

Equipment

This paragraph deals with capacity and quality of equipment. The whole idea is to make sure that the instrument is suitable to perform selected tests/calibrations and is well characterized.

Key requirements for equipment are

  • Equipment shall comply with specifications relevant to the tests. Very important: It does not say, according to the manufacturers specifications, but relevant to the tests.
  • Before being placed in service, equipment shall be calibrated or checked to establish that it meets the laboratory's specification requirements. In literature this process is called operational qualification.
  • Each item of equipment and its software used for testing and calibration and significant to the result shall, when practicable, be uniquely identified
  • Records shall be maintained of each item of equipment and its software significant to the tests and/or calibrations performed. This includes, for example, version numbers of firmware and software. It also includes test results for qualification.
  • The laboratory shall have procedures for planned maintenance
  • Defective equipment shall be taken out of service, it shall be isolated and clearly marked to prevents it's use until it has been repaired
  • After repair it should be demonstrated that it performs correctly
  • The status of calibration should be indicated on the instrument

Measurement traceability

This paragraph deals with traceability of test equipment and reference standards. Specific requirements are specified for calibration, testing and reference standards and reference materials.

Key points for traceability of calibrations are

  • For calibration laboratories, the program for calibration of equipment shall be designed and operated so as to ensure that calibrations and measurements made by the laboratory are traceable to the International System of Units (SI)
  • Traceability to SI may be a achieved through an unbroken link of calibration comparisons
  • The unbroken chain of calibrations or comparisons may be achieved in several steps carried out by different laboratories that can demonstrate traceability
  • Traceability to Sl units of measurement may be achieved by reference to an appropriate primary (national) standard
  • Traceability to national measurement standards does not necessarily require the use of the national metrology institute of the country in which the laboratory is located
    There are certain calibrations that currently cannot be strictly made in Sl units. In these cases calibration shall provide confidence in measurements by establishing traceability to appropriate measurement standards such as:
    - the use of certified reference materials provided by a competent supplier to give a reliable physical or chemical characterization of a material;
    - the use of specified methods and/or consensus standards that are clearly described and agreed by all parties concerned.
  • Participation in a suitable program of interlaboratory comparisons is required where possible.

Key points for traceability of tests are

  • Were traceability of measurements to Sl units is not possible and/or not relevant, the same requirements for traceability to, for example, certified reference materials, agreed methods and/or consensus standards, are required as for calibration laboratories (see above)

Key points for traceability reference material are

  • Reference materials shall, where possible, be traceable to Sl units of measurement, or to certified reference materials
  • Internal reference materials shall be checked as far as is technically and economically practicable.

Sampling

Key points for sampling are

  • The laboratory shall have a sampling plan and procedures for sampling when it carries out sampling of substances, materials or products for subsequent testing or calibration
    Sampling plans shall, whenever reasonable, be based on appropriate statistical methods.
  • Sampling procedures should describe the selection, sampling plan, withdrawal and preparation of a sample or samples from a substance, material or product to yield the required information
  • The laboratory shall have procedures for recording relevant data and operations relating to sampling

Handling test and calibration items

Key points for handling test and calibration items are

  • The laboratory shall have procedures for the transportation, receipt, handling, protection, storage, retention and/or disposal of test and/or calibration items
  • The laboratory shall have a system for identifying test and/or calibration items
  • The laboratory shall have procedures and appropriate facilities for avoiding deterioration, loss or damage to the test or calibration item during storage, handling and preparation

Assuring the quality of test and calibration results

This paragraph should ensure quality of results on a day-by-day basis. In literature this process is also called performance qualification (DQ)

Key points are

  • The laboratory shall have quality control procedures for monitoring the validity of tests
  • This monitoring shall be planned and reviewed and may include
    - regular use of certified reference materials and/or internal quality control using secondary reference materials;
    -participation in interlaboratory comparison or proficiency-testing programs;
    -replicate tests or calibrations using the same or different methods
    - retesting or recalibration of retained items

Reporting of results

This paragraph describes how test/calibration results should be reported. It has some general requirements on test reports like clarity and accuracy but also very detailed requirements on the contents. The paragraph is divided into sections for calibration certificates and test reports and it has a section on opinions and interpretations

Test reports and calibration certificates should include

  • a title
  • the name and address of the laboratory
  • the location where the tests and/or calibrations were carried out, if different from the address of the laboratory
  • unique identification of the test report or calibration certificate (such as the serial number)
    - the name and address of the client
  • identification of the method used
  • a description of, the condition of, and unambiguous identification of the item(s) tested or calibrated
    - the date of receipt of the test or calibration item(s)
  • reference to the sampling plan and procedures used by the laboratory
  • - the test or calibration results with, where appropriate, the units of measurement;
    - the name(s), function(s) and signature(s) or equivalent identification of person(s) authorizing the test report or calibration certificate;
  • a statement on estimated uncertainty of measurement (for test reports: "where applicable")

Other Key points are

  • When opinions and interpretations are included, the laboratory shall document the basis upon which the opinions and interpretations have been made
  • Opinions and interpretations shall be clearly marked as such in a test report or calibration certificate
  • In the case of transmission of test or calibration results by telephone, telex, facsimile or other electronic or electromagnetic means, the requirements of this International Standard shall be met (e.g., accuracy of transition should be verified)

6. Impact on Analytical Laboratories

Analytical testing laboratories seeking ISO 17025 will be impacted in a couple of areas

Developing and implementing management controls as defined in chapter 4 of this tutorial.

The most important activity here is to develop a quality manual that outlines the implementation quality procedures as outlined in ISO 17025.

Most important other activities are

  • Document tasks and responsibilities of management and staff
  • Develop procedures on how to handle complaints from clients
  • Develop procedures for corrective and preventive action plans

Documenting Training Activities

While most laboratories pay attention to qualification of employees ISO 17025 requires such qualification to be documented.

Such documentation should include

  • Responsibilities, tasks and job requirements
  • Information on education
  • Information on qualifications and experience obtained through previous and and current job
  • Gap analysis between job requirements and current qualifications
  • Action plan on how to close gaps
  • Training certificates
  • Evidence of successful trainings

Internal and external audits

Accredited labs will have to spend quite some time for internal and external audits.

  • Internal audits are required to verify conformance with internal procedures. They are also quite useful in preparation for external audits. To make best use of internal audits they should be designed, executed and followed up very much in same way as external audits are expected. Because most likely not all laboratory activities can be audited at one time, thee should be an internal audit schedule to ensure that all activities are over a given time frame, for example, over one or two years.
  • External audits can come from clients or from accreditation bodies. There should be a procedure that clearly outlines who is doing what before, during and after the audit. Overall owners should be defined and all employees possibly affected by the audit should be trained.

Developing and implementing procedures to conform with technical requirements as defined in Chapter 5 of this tutorial

Most likely laboratories are following good analytical but either analysts don't have documented procedures or results are not documented. For example all good analysts will only use validated analytical procedures and they will always will make 5 or 6 test runs to check an instruments  precision before actual samples However, without operating under a documented quality system they may not  follow SOPs and may not document the results. The following ISO 17025 should follow written procedures should follow written procedures and results should be documented

  • Equipment such as balances, pH meters, spectrophotometers should be formally qualified, for example following the 4Q model: design qualification, installation qualification, operational qualification and performance qualification. All qualification activities should follow a qualification plan and results  should be summarized in a qualification report. 
  • Software and computer systems  should be formally validated for example following the V-model model: requirement specifications, design specifications, development and testing code, installation qualification, operational qualification and performance qualification. All validation activities should follow a validation plan and results  should be summarized in a validation report
  • Analytical methods should be validated. Parameters to be validated to be validated should include: limit of detection (LOD), limit of quantitation (LOQ), linearity, range, precision, reproducibility, selectivity and accuracy. All validation activities should follow an SOP or validation plan and results  should be summarized in a validation report. Special procedures should be available for validation or verification of standard methods and for the transfer of analytical methods.
  • Sampling, sample transfer and sample analysis should follow documented procedures. Most important for sampling is to ensure representative sampling. The focus of sample transfer should be to avoid cross contamination of samples and to prevent degradation because of unfavorable environmental conditions.
  • Before samples are analyzed there should should be clear specifications and acceptance criteria. If acceptance criteria are not met, the root cause for non-conformance should be identified, and suitable correction action plans should be initiated.
  • Analysis test results should be reported together with the measurement uncertainly. This may be strange new to many laboratories but it makes perfect sense.  In my opinion in some instances an analysis result without knowing and reporting the uncertainty is useless.
  • Each laboratory should have a formal program for internal and external quality assurance. The most suitable procedure for internal quality assurance is the analysis of quality control sample and plotting the results as quality control charts with control and action limits. The best tools for external quality assurance measures is participating in proficiency testing. 
  • Laboratories should have a program to ensure adequate quality of chemicals and reference standards. This can be done through a thorough supplier qualification program or through inspection of incoming materials.

7. Implementing ISO/IEC 17025

Implementation ISO 17025 in laboratories should be well thought out. It can be quite expensive but can also have big benefits. National and international recognition in the market place and getting on the suppliers list of public organizations and private companies are just two of them. The balance between costs and benefits well worked out and documented. Here are some recommendations for the road towards ISO 17025.

  • List all benefits that may arise fro ISO 17025 certification. Benefits should include additional income from new contract from public and private  organizations that only deal with certified laboratories but also through indirect business due to recognition of certification.  
  • Study technical and management requirements of the ISO 17025
  • Compare requirements with what is already implemented and practice in your laboratory
  • Make a gap analysis between what is required by ISO 17025 and what is required and define and document additional work as required by ISO 17025. Such work should not only included efforts for start-up up but should also include on-going efforts to maintain accreditation.
  • Make a rough estimation of the return of investment short and long term
  • Decide whether to go ISO 17025 certification.
  • Search for certification companies and select the one that fits best your needs. There are several possibilities to find certification companies. Probably the best one is to ask certified laboratories about their experience and recommendations.
  • Ask the selected company to make a pre-assessment just to verify your own assessment about tasks and gaps,
  • Reassess your previous decision to go for certification.
  • Start to develop and implement procedures as required by ISO 17025.  

8. ISO 17025 Audit: Preparation - Conduct - Follow-up

Internal audits required by all regulations and quality standards and are an ideal tool to constantly improver the quality and efficiency and prepare the organization for external audits. This chapter summarizes recommendations for internal audits. The recommendations are equally important for external audits.

Preparation

  • Obtain all data and documentation for studies to be audited (don’t let auditors search in file cabinets. Ask and bring the requested material)
  • Assign a technical contact (the study director) to review the files and answer questions (if the study director is no longer available, assign another technical person). The assigned technical contact should be present all the time.
  • Review the QA files - prepare an agenda for the inspection/audit.
  • Set up a work area for the inspectors.
  • Review the master schedule.
  • Present a floor plan of test facility. Prepare staff.
  • An audit may be a tough experience for all people involved. Therefore they need to be informed on what will happen and of what questions may be asked.

Conduct

  • Maintain a continuous log of the inspection.
  • Provide copies (do not give originals away !).
  • Keep duplicates of all information supplied to auditors.
  • Take immediate corrective action, when appropriate.
  • Hold a daily debriefing meeting to assess the progress.
  • Keep all documents in the work area.
  • Accompany the inspector all the time.
  • Be courteous and co-operative.
  • Answer only questions that are asked.
  • If you are unable to answer, tell the inspector openly.
  • Protect proprietary information.

Close

  • Conduct an exit review and ask if there are any questions or cause for dissatisfaction.
  • Finally, create a file of the inspection material and prepare an audit report.  

Follow-up

  • Develop a corrective action plan (owners, tasks, deliverables, schedule)
  • Develop a preventive action plan (owners, tasks, deliverables, schedule)
  • Monitor the plan

9. Required Documentation

Before or during ISO17025 a variety of different documents should be developed. They include a

  •  high level policy, a quality plan or quality manual to document a company's strategy, approaches and planning,
  • procedures, templates and checklists for consistent and efficient implementation and
  • records developed on a regular basis such as calibration records, maintenance, training records and test results

All documents should be well controlled, for example, each change should be authorized and logged and the updated document should get a new revision number or code.

Quality Manual

The quality plan should document  the laboratory's overall concept on how to comply with ISO17025. It should be developed at the highest level and well communicated to all employs

Master Plans

Master plans document the laboratory's approach for certain tasks. Such information should be available for

  • Environmental, Health Safety
  • Equipment Qualification
  • Computer system validation
  • Risk management

Standard Operating Procedures

Routine tasks should follow written procedures. The can be called standard operation procedures, operating procedures or work instructions. Below is a list of SOPs that  are recommended to be available.

SOPs indicated with (*) are included in the ISO 17025 Accreditation Package from Labcompliance: www.labcompliance.com/books/iso17025

 

  1. Document Control and Management (S-105) *
  2. Facilities and Environmental Conditions (S-151) *
  3. Qualification of Equipment (S-240) *
  4. Retirement of Computer Systems (s-261) *
  5. Validation of Macro Programs and other Application Software. (S-263) *
  6. Quality Assessment of Software and Computer System Suppliers.(S-274) *
  7. Retention and Archiving of Electronic Records (S-315) *
  8. Scanning of Paper Records for GxP Compliant Archiving. (S-316) *
  9. Data Back-up and Restore. (S-317) *
  10. Generation and Maintenance of SOPs for Laboratories (S-504) *
  11. Laboratory Management Reviews (S-510) *
  12. Auditing Laboratory Systems (S-511) *
  13. Training for Laboratory Personnel (S-513) *
  14. Purchasing of Services and Supplies (S-514) *
  15. Laboratory Complaint Handling  (S-520) *
  16. Review of Requests, Tenders and Contracts (S-521)
  17. Subcontracting of Tests (S-522) *
  18. Providing Services to Customers (S-524)
  19. Control of Non-conforming Tests (S-525) *
  20. Identification and Control of Records (S-526) *
  21. Sampling for Analytical Testing. (S531) *
  22. Preparation of Working Standards (S-532) *
  23. Measurement Traceability (S-533)
  24. Handling of Analytical Test Samples(S-534)
  25. Maintenance of Laboratory Equipment (S-541) *
  26. Selection of Analytical Methods and Procedures (S-611)
  27. Validation of Analytical Methods (S-612) *
  28. Validation of Chromatographic Methods (S-613) *
  29. Transfer of Analytical Methods (S-614) *
  30. Ongoing Performance Control of Analytical Equipment (s-621)
  31. Verification of Standard Methods (S-623) *
  32. Measurement Uncertainty in Analytical Testing (S-624)
  33. Calibration of Analytical Balances (S-641) *
  34. Qualification of Refrigerators (S-644) *
  35. Validation of Laboratory Computer Systems (S-656) *
  36. Analytical Data Review and Validation (S-671)
  37. Reporting of Analytical Test Results. (S-672)

Records

 

Examples or records that should be developed on a regular basis include:

  • Laboratory notebook
  • Qualification and validation protocols
  • Calibration records
  • Equipment maintenance records
  • Test results
  • Training records
  • Others

10. How to Deal with Multiple Regulations and Quality Standards

Laboratories are frequently faced with a situation where they have to comply with regulations from different countries or with both regulations and quality standards at the same time Examples are as follows:

  • A pharmaceutical company markets a drug in different countries. Manufacturing and quality laboratories has to comply with the cGMP of all countries. In this case, the analytical control laboratory also has to work in compliance with the GMPs of the countries in which the drug is marketed.
  •  A chemical company is certified for ISO 9001. The scope of the certification also covers the analytical service laboratory. In addition, the laboratory performs contract analyses for other companies and has received laboratory accreditation in compliance with ISO 17025. The laboratory has to work in compliance with ISO 9001 and with ISO Guide 17025.
  • An independent test laboratory performs GLP studies as a subcontractor for a pharmaceutical company. Occasionally, the laboratory also performs analyses for pharmaceutical manufacturing control departments. The laboratory has also received laboratory accreditation for specific food analyses according to ISO 17025. The laboratory has to comply with ISO 17025 and with GLP and cGMP regulations.

International companies frequently face this kind of problem. Their laboratories not only have to comply with regulations from different countries but also, simultaneously, with quality and accreditation standards. The solution to this problem is to combine all regulations and quality standards in a single quality manual and a single set of operating procedures. The recommended documents and how they relate to each other are shown in the figure below.

The quality manual should place the company’s own quality system first and foremost. This may be based on a well-known quality standard, such as ISO 9001 or ISO 17025. The quality manual and operating procedures should include aspects of various regulations and quality standards applied within the company. For specific regulations, such as GLPs, it should include sections that apply only to those particular regulations. For example, it might mention that if the analysis is to be done for a GLP study, raw data must be archived for the required archiving period. For a non-GLP type of analysis, such long archiving is not usually required.

 

  • Recommendations for combined GxP and Quality Standard Systems

11. References

L. Huber, ISO 17025 Accreditation Package, 2008 edition

L.Huber, Validation and Qualification in Analytical Laboratories, Text book, 2007 edition

L.Huber, Validation of Computerized Analytical and Networked Systems, 2003 edition

L.Huber, Computer System Validation Package, 2006 edition

12. Links to Other Websites 

To be updated on an ongoing basis

 

13. Frequently Asked Questions 

This chapter will be updated based on questions and contributions from visitors

 

Q: Is ISO 17025 Accreditation required and sufficient to comply with FDA Regulations, such as GLP and GMP?

Most requirements are the same or very similar, but ISO 17025 is neither required nor sufficient. However, many FDA laboratories have ISO 17025 implemented.

Rev 2: 2005

 

Q: When has ISO/IEC 17025 been introduced ?

Rev 1: 1999

Rev 2: 2005

 

Q: Is there any website where you can view or download the ISO 17025 Standard?

ISO Standards are copyright protected. I am not aware of a website with free download.

 

Q: Which organizations can award ISO 17025?

There are many in each country. To find them, use Google Search

 

Q: What to do in case there is no proficiency testing scheme for my application?

Do everything you can to proof accuracy of your analytical data. Mechanisms include: extensive use of certified reference material, verification of accuracy with an independent analysis method and cross check of results within other departments in you organization. Document the steps you took. 

14. Expert Advice on Selected Topics

This chapter will be updated on an on-going basis