PRICES include / exclude VAT
Homepage>BS Standards>13 ENVIRONMENT. HEALTH PROTECTION. SAFETY>13.280 Radiation protection>BS ISO 21243:2022 Radiation protection. Performance criteria for laboratories performing initial cytogenetic dose assessment of mass casualties in radiological or nuclear emergencies. General principles and application to dicentric assay
Sponsored link
immediate downloadReleased: 2022-11-24
BS ISO 21243:2022 Radiation protection. Performance criteria for laboratories performing initial cytogenetic dose assessment of mass casualties in radiological or nuclear emergencies. General principles and application to dicentric assay

BS ISO 21243:2022

Radiation protection. Performance criteria for laboratories performing initial cytogenetic dose assessment of mass casualties in radiological or nuclear emergencies. General principles and application to dicentric assay

Format
Availability
Price and currency
English Secure PDF
Immediate download
266.20 EUR
You can read the standard for 1 hour. More information in the category: E-reading
Reading the standard
for 1 hour
26.62 EUR
You can read the standard for 24 hours. More information in the category: E-reading
Reading the standard
for 24 hours
79.86 EUR
English Hardcopy
In stock
266.20 EUR
Standard number:BS ISO 21243:2022
Pages:28
Released:2022-11-24
ISBN:978 0 539 06827 6
Status:Standard

BS ISO 21243:2022 Radiation Protection Standard

Introducing the BS ISO 21243:2022, a comprehensive guide to radiation protection, specifically designed for laboratories performing initial cytogenetic dose assessment of mass casualties in radiological or nuclear emergencies. This standard provides general principles and application to dicentric assay, ensuring the highest level of safety and efficiency in the face of potential nuclear threats.

Key Features

The BS ISO 21243:2022 is a 28-page document, packed with essential information and guidelines to ensure the best practices in radiation protection. Released on 2022-11-24, this standard is the most up-to-date resource available, reflecting the latest advancements and discoveries in the field of radiation protection.

With its unique ISBN number, 978 0 539 06827 6, this standard is easily identifiable and accessible for all professionals working in the field of radiation protection. It is a must-have resource for laboratories and professionals dealing with radiological or nuclear emergencies.

Why Choose BS ISO 21243:2022?

The BS ISO 21243:2022 is a standard that sets the benchmark for radiation protection. It provides clear and concise performance criteria for laboratories, ensuring that they are equipped with the knowledge and skills to effectively assess and manage mass casualties in the event of a radiological or nuclear emergency.

By adhering to the guidelines set out in this standard, laboratories can ensure that they are providing the highest level of protection to those affected by radiological or nuclear incidents. This not only helps to save lives but also minimizes the long-term health impacts of radiation exposure.

Application to Dicentric Assay

One of the key features of the BS ISO 21243:2022 is its application to dicentric assay. This is a crucial tool in the assessment of radiation exposure, providing a reliable and accurate measure of the dose received by an individual. By following the guidelines set out in this standard, laboratories can ensure that they are using the dicentric assay effectively and accurately, providing the best possible care for those affected by radiological or nuclear incidents.

Conclusion

In conclusion, the BS ISO 21243:2022 is an essential resource for any laboratory or professional working in the field of radiation protection. With its clear guidelines and comprehensive coverage of key topics, it provides the tools and knowledge needed to effectively manage and respond to radiological or nuclear emergencies. Don't compromise on safety - choose the BS ISO 21243:2022 standard today.

Status: Standard

DESCRIPTION

BS ISO 21243:2022


This standard BS ISO 21243:2022 Radiation protection. Performance criteria for laboratories performing initial cytogenetic dose assessment of mass casualties in radiological or nuclear emergencies. General principles and application to dicentric assay is classified in these ICS categories:
  • 13.280 Radiation protection
  • 27.120.20 Nuclear power plants. Safety