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Good Laboratory Practice:
Laboratories and laboratories in the scientific, research, industrial, environmental, educational and production facilities and services play an important role in our lives, our future and our development. The laboratories and laboratories provide all the information and data needed to make a specific decision or to solve a specific problem related to research or study or certain decisions related to manufacturing, production and services, A specific treatment program for patients or any important decisions concerning people's lives, interests, needs and wishes, where laboratory analysis has a role. Good Laboratory Practice (GLP): A set of principles that provide a framework for quality control through laboratory testing, implementation, monitoring, recording and archiving. These tests are conducted to prevent hazards and risks to users as well as consumers and third parties, including the environment, agrochemicals, cosmetics, food additives, feed additives, contaminants, foods, biocides and detergents etc.
Principles of good laboratory practice: Including organizations and individuals. Management responsibilities. Machines and machinery.
Identification of test methods and alternative test methods Laboratory revision to choose the most appropriate method to determine the value of the property: Simulation test for the method of using the product laboratory. Test method evaluation. Influence the product to a critical value. Choose specifications. Select the requirements that must be met in the product. Choose the limits of the requirements. Laboratory revision by repeating the chosen method.
Laboratory or Laboratory: The laboratories perform many roles and tasks, some of which may be repeated on a daily or periodic basis for each specific period, while others are supervised, academic or research. Analytical laboratories in the world always strive to provide accurate and accurate analytical results and to demonstrate the accuracy and health of their results. This is achieved through the application of quality assurance systems and the systematic introduction of quality control mechanisms into the daily analytical processes. The technical efficiency of a plant depends on its ability to perform the functions entrusted to it efficiently, in a timely manner and at a reasonable cost. The technical efficiency of the laboratories depends on a number of factors, including technical factors, including administrative and organizational factors. Take good care of the cleanliness of the laboratory.
Administration : It is working on establishing a complete quality management system in the labs which ensures the good performance and continuous efficiency of analytical processes within laboratories. The quality management system in the laboratories consists of quality control activities in order to meet the quality requirements, quality assurance programs and procedures that focus onGive assurance and assurance that all quality requirements will be met and fulfilled. Continuous improvement of the quality system in laboratories and laboratories is one of the most important elements of quality assurance for these laboratories. Continuous improvement of the laboratory quality system is an important requirement to maintain the level of quality achieved and to avoid gradually progressing towards low performance due to habituation and repetition of processes and activities.
Devices and instruments: Electronic Microscope. X - ray device. Magnetic resonance. Liquid Chromatography Device High performance.
It is necessary to ensure that all laboratory equipment and the development of the laboratory is of high quality. In the case of purchasing any equipment for the laboratory, the source of the purchase must be written in the custody register accompanied by the official notification from the purchasing agency and provided to the administration.
Identification of Test Methods and Alternative Test Methods: Laboratories shall use appropriate methods and procedures for all tests or calibration within their scope of operation. Including sampling, handling, transport, storage and preparation of materials to be inspected or calibrated. The laboratory must have instructions on the use and operation of all relevant equipment, on the taking and preparation of samples for testing, calibration or both, where their lack of results presents the risk. The method of examination or calibration shall be of written standard instructions. Non-calibration methods may be adopted Standard under certain conditions, only required verification work is required. As well as a method of examination or calibration developed by the laboratory but fully verified. Also use the specifications of standard inspection methods issued by global destinations. It is located It is the responsibility of the laboratory to provide a suitable method of examination for its purpose. This may include discussions with clients. In the end, the customer can determine the method, but under these circumstances, the laboratory's responsibility to inform the client that the method he insisted on is not ideally suited to the purpose required by the client.
Laboratory revision to choose the most appropriate method to determine the value of the property (simulated test For the method of using the product laboratory): A laboratory that calibrates its own equipment must have a procedure for estimating uncertainty. The laboratory must adjust the data and the accounts and submit them to an appropriate review to verify their validity. These methods should be verified and are appropriate for one or more of the following:
Calibration using reference criteria or reference materials. Compare results obtained with other ways . Intercompany comparison. Systematic assessment of the factors affecting the results. Assess the uncertainty of results.
Test Method Evaluation: Benefits of Good Laboratory Practice: Upgrading laboratories. Increase confidence in test results, measurement and calibration. Increase consumer confidence in the national product Adjustment of non-conforming and / or testing work. continuous improvement .
Safety and safety tools: Protective glasses of laser. Lab coat. Gloves and protection cabins. Protective shoe.
Administrative requirements for good laboratory practice: 1. Corrective action. 2. Preventive action. 3. Adjust Records. 4. Internal Audit. 5. Administrative review.
Technical requirements for good laboratory practice: 1. General requirements. 2. Lab personnel. 3. Equipment and environmental conditions. 4. Methods of testing, calibration and verification Of its authenticity. 5. Hardware.
Importance of Good Laboratory Practice for Factories and Establishments: Calibrate and adjust factory equipment to obtain correct measurements so that these factories are not subjected to losses due to measurement error. consumer protection . Protect your product or factory. Protection of importer. Protection of the national economy.
Absence of laboratories leads to: The absence of control . Spread of fraud. Low productivity. The deterioration of the national economy.