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Homepage>BS Standards>13 ENVIRONMENT. HEALTH PROTECTION. SAFETY>13.280 Radiation protection>BS EN ISO 20046:2021 Radiological protection. Performance criteria for laboratories using Fluorescence In Situ Hybridization (FISH) translocation assay for assessment of exposure to ionizing radiation
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immediate downloadReleased: 2021-02-23
BS EN ISO 20046:2021 Radiological protection. Performance criteria for laboratories using Fluorescence In Situ Hybridization (FISH) translocation assay for assessment of exposure to ionizing radiation

BS EN ISO 20046:2021

Radiological protection. Performance criteria for laboratories using Fluorescence In Situ Hybridization (FISH) translocation assay for assessment of exposure to ionizing radiation

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Standard number:BS EN ISO 20046:2021
Pages:50
Released:2021-02-23
ISBN:978 0 539 14652 3
Status:Standard
BS EN ISO 20046:2021 - Radiological Protection Standard

BS EN ISO 20046:2021 - Radiological Protection Standard

In the ever-evolving field of radiological protection, ensuring the safety and accuracy of laboratory assessments is paramount. The BS EN ISO 20046:2021 standard is a comprehensive guide that sets forth performance criteria for laboratories utilizing the Fluorescence In Situ Hybridization (FISH) translocation assay. This standard is essential for assessing exposure to ionizing radiation, providing a robust framework for laboratories to ensure precision and reliability in their evaluations.

Key Features of BS EN ISO 20046:2021

  • Standard Number: BS EN ISO 20046:2021
  • Pages: 50
  • Release Date: February 23, 2021
  • ISBN: 978 0 539 14652 3
  • Status: Standard

Comprehensive Radiological Protection

The BS EN ISO 20046:2021 standard is meticulously designed to address the critical aspects of radiological protection in laboratory settings. It provides detailed performance criteria that laboratories must adhere to when using the FISH translocation assay. This assay is a pivotal tool in detecting chromosomal translocations, which are indicative of exposure to ionizing radiation. By following this standard, laboratories can ensure that their assessments are both accurate and reliable, thereby safeguarding public health and safety.

Why Choose BS EN ISO 20046:2021?

This standard is not just a set of guidelines; it is a commitment to excellence in radiological protection. Laboratories that implement the BS EN ISO 20046:2021 standard demonstrate their dedication to maintaining the highest levels of accuracy and reliability in their assessments. This is crucial in a field where even the smallest error can have significant consequences.

Benefits of Implementing the Standard

  • Enhanced Accuracy: By adhering to the performance criteria outlined in the standard, laboratories can achieve greater accuracy in their assessments, reducing the risk of false positives or negatives.
  • Increased Reliability: The standard provides a framework for consistent and reliable assessments, ensuring that results are dependable and can be trusted by stakeholders.
  • Regulatory Compliance: Compliance with the BS EN ISO 20046:2021 standard ensures that laboratories meet international regulatory requirements, facilitating smoother operations and reducing the risk of non-compliance penalties.
  • Improved Safety: By accurately assessing exposure to ionizing radiation, laboratories can better protect individuals and communities from potential health risks associated with radiation exposure.

Who Should Use This Standard?

The BS EN ISO 20046:2021 standard is indispensable for a wide range of professionals and organizations involved in radiological protection and laboratory assessments. This includes:

  • Laboratory Technicians and Scientists: Ensuring that their assessments are conducted with the highest level of precision and reliability.
  • Health and Safety Officers: Implementing robust safety protocols to protect workers and the public from radiation exposure.
  • Regulatory Bodies: Establishing and enforcing standards for radiological protection to ensure public safety.
  • Research Institutions: Conducting studies and experiments with confidence in the accuracy of their radiological assessments.

Conclusion

The BS EN ISO 20046:2021 standard is a vital resource for any laboratory or organization involved in the assessment of exposure to ionizing radiation. By providing clear and comprehensive performance criteria, this standard ensures that laboratories can conduct their assessments with the utmost accuracy and reliability. Whether you are a laboratory technician, a health and safety officer, or a regulatory body, implementing this standard is a crucial step in safeguarding public health and ensuring compliance with international regulations.

Embrace the BS EN ISO 20046:2021 standard and join the ranks of laboratories and organizations committed to excellence in radiological protection. With this standard, you can be confident in the accuracy and reliability of your assessments, protecting both individuals and communities from the potential risks of ionizing radiation exposure.

DESCRIPTION

BS EN ISO 20046:2021


This standard BS EN ISO 20046:2021 Radiological protection. Performance criteria for laboratories using Fluorescence In Situ Hybridization (FISH) translocation assay for assessment of exposure to ionizing radiation is classified in these ICS categories:
  • 13.280 Radiation protection

The purpose of this document is to provide criteria for quality assurance (QA), quality control (QC) and evaluation of the performance of biological dosimetry by cytogenetic service laboratories.

This document addresses:

  1. the responsibilities of both the customer and the laboratory;

  2. the confidentiality of personal information, for the customer and the laboratory;

  3. the laboratory safety requirements;

  4. sample processing; culturing, staining and scoring, including the criteria for scoring for translocation analysis by FISH;

  5. the calibration sources and calibration dose ranges useful for establishing the reference dose‑response curves that contribute to the dose estimation from chromosome aberration frequency and the detection limit;

  6. the scoring procedure for translocations stained by FISH used for evaluation of exposure;

  7. the criteria for converting a measured aberration frequency into an estimate of absorbed dose (also appears as “dose”);

  8. the reporting of results;

  9. the QA and QC;

  10. Annexes A to F containing sample instructions for the customer, sample questionnaire, sample datasheet for recording aberrations, sample of report and fitting of the low dose-response curve by the method of maximum likelihood and calculating the uncertainty of dose estimate.