Cold biological storage facilities are designed to hold a variety of sample types. Common samples stored in the cold biological storage facilities include blood and plasma, eggs, tissues, legal specimens, plant samples, bones, and cell lines. These samples are stored safely in these types of facilities. Through careful research, scientists discovered how to design cold biological storage facilities to preserve these types of samples.
There are many different aspects of cold biological storage facilities that make it all possible. Every aspect is instrumental to proper storage. Here is some information about the amazing technology.
1. Uninterrupted Energy and Liquid Nitrogen Supply
Every company storing samples should have a set of Standard Operating Procedures (SOPs). These samples should include measures to ensure the energy supply to the cryopreservation units are maintained and operate constantly. The liquid nitrogen should also constantly flow to the units to ensure proper preservation. The temperature should be constantly monitored to ensure the samples are preserved properly.
2. Real-Time Reports
Real-time reports ensure technology is working properly. Millions of dollars can be lost if tissue samples or DNA samples are compromised. When storage units use reports to control samples and monitor progress, customers can ensure their samples are in optimal condition when needed. In general, real-time reports will contain information about temperature levels and lifetime expectancy. These reports play a large role in the preservation. Choose a cold biological facility that generates real-time reports.
3. Superior Thermal Management
Accurate sample temperatures will ensure that sample integrity will not be compromised. The protocols are the key to the success of thermal management. Maintaining the proper temperature begins with a sample management inventory system. This system will help the samples be delivered to the proper storage location where the temperature will be verified and is instrumental in maintaining the proper temperature in the system. In addition to 24 hours per day and seven days per week continuous monitoring, there are also redundant cooling systems to ensure continuous internal air rotation.
4. Extremophile Biology
Cold biological storage is often based on extremophile biology. This type of technology allows organisms to be preserved for a longer period of time before they have to be revived with rehydration. The drying process protects the samples. This type of technology made it easier to forecast how long the samples would last. This type of technology was discovered after studying how microorganisms could survive in extreme hot or cold temperatures. This concept was replicated in the form of large stainless steel tanks filled with liquid nitrogen.
guy in a lab
Today, many scientist use this same principle that was discovered in nature. While this concept has been proven to be effective, new technological advancements will provide higher success rates.
Know About the Technology Behind Cold Biological Storage Facilities
When you know how cold biological storage facilities can help you preserve samples, you will select the proper system that will help you achieve your goals. The new technology is more advanced and can preserve samples that help people solve causes, prove paternity, or conceive. The technology helps numerous people achieve their goals and can help you achieve yours also. Find out more about cryogenics and cold biological storage facilities.