Home / Process / Keeping cryopreservation cool

Keeping cryopreservation cool

Wireless remote monitoring technology is being used in medical laboratories at Oxford University and by South Africas Medical Research Council. In the case of Oxford University, the technology is being used in labs where a coronavirus vaccine is being developed and is having real benefits for the team there

Ian Loudon discusses how Oxford University and South Africa’s Medical Research Council are reaping the benefits of wirelessly remote monitoring system operating temperatures

In hospitals and laboratories around the world, cryopreservation is used for the long-term storage of human tissue samples, blood and bone marrow. 

Even small fluctuations in the freezer’s operating temperature can lead to the loss of valuable research materials. 

In the age of Industry 4.0 and the widespread adoption of Industrial Internet of Things (IIoT) technologies, the benefits of remote monitoring key assets are more compelling than ever. It is becoming clear that remote monitoring offers the most convenient and cost-effective way of managing system performance.

By remotely managing assets over long periods of time, industry reaps the rewards in the form of lower operating costs, faster response times and better service levels. 

The Oxford project

It may be home to some of the world’s finest minds, but Oxford University is still susceptible to machine failure just like any other institution. 

In its medical laboratories, where cryopreservation technology is commonplace, the institution monitored the operating temperatures of -80oC and -200oC freezers by carrying out visual inspections and manually recording the results.

This is an inaccurate process since it only reflects the temperature at the time of reading and does not account for variation throughout the day. 

Furthermore, if freezer temperature is compromised by machine failure occurring outside of regular working hours, valuable samples would be destroyed by the time the problem is discovered. 

With research groups in these labs working on a vaccination for coronavirus, it goes without saying that protecting the integrity of research samples is of the upmost importance.

Oxford University engaged Omniflex to provide it with a means of monitoring the operating temperature of each freezer remotely, 24 hours a day, with rapid response capabilities. 

Omniflex networked the sensors to monitor operating temperatures in real time, with alerts sent out via SMS and email in the event of abnormal temperature fluctuations so operators could take appropriate action.

Furthermore, the unit was supplied with battery backup so it could function independently of local power supply in the event of an outage.

By installing wireless remote monitoring systems, Omniflex helped researchers at Oxford University overcome the challenges they faced when it came to cryopreservation of materials. 

However, it is important to remember that the benefits of this technology are not limited to just university laboratories — industry can benefit from this technology too.

Aiding African med-tech

South Africa’s Medical Research Council (MRC) is a world leading institute in AIDs, TB research and anti-retro viral drug trials, with facilities based throughout the country. 

When the MRC needed to upgrade 16 of its facilities to monitor temperature and humidity levels in its -80oC sample storage area and lab stock room area, they engaged Omniflex to find the solution.

The project included the MRC’s regional head office where over 50 freezers and fridges needed to be monitored 24/7, 365 days a year.

The MRC had three main criteria that the new system had to meet. Firstly, it needed a single centralised control system for admin staff to monitor and review operating parameters. 

Secondly, it needed to be installed using GSM services to update the cloud-based server and provide reports.

Finally, it had to alert key personnel, by SMS and email, in the event of a serious problem arising.

Omniflex was able to meet all three of the MRC’s key objectives by installing its Data2Desktop system at its site. Data2Desktop records all system data and timestamps it to produce a chronological record of all historical data for audit purposes. 

The system automatically produces hourly reports that can be accessed remotely by admin staff with the necessary login credentials.

Finally, should a system error or outage occur, the SMS and email alerts are automatically distributed to all relevant personnel so the problem can be addressed as soon as possible.

The Data2Desktop system has now been adopted by the University of KZN, a research pioneer of AIDs and TB, whose site includes several biohazard level three facilities. Omniflex has installed 24/7 remote monitoring at 15 of the University’s sites, including the nitrogen freezer research repositories. This helps to ensure that the University can protect its valuable research assets and respond quickly in the event of a problem arising.

Ian Loudon is international sales and marketing manager at remote monitoring specialist Omniflex.

Check Also

Why did the demand for polymers increase during lockdown?

Why did the demand for polymers increase during lockdown?

While the demand for certain materials dropped, the polymers industry saw continued growth in demand. …

Key materials for a circular economy

Jordan Flagel explains which materials to adopt in a circular economy In modern history, the linear …

Mobile valve section increases design flexibility

Mobile valve section increases design flexibility

The power management company Eaton announces the launch of the CMT mobile valve section, a …