Lab Manager | Run Your Lab Like a Business

Product Focus

Closeup of someone using their phone with an overlay of white graphics depicting bar and circle graphs.
For many aspects of laboratory work, continuous or regular monitoring is considered vital for reproducibility, integrity, and quality control.
iStock, PeopleImages

The Benefits of Lab Monitoring Systems for Quality and Compliance

There are a variety of product offerings available for these systems, each providing a range of benefits

Aimee O’Driscoll

Lab monitoring systems have gradually made their way into mainstream use and are now considered vital to many applications. There are a variety of product offerings available for these systems, each providing a range of benefits, including improved quality control and compliance. Lab monitoring tools can help ensure tasks and processes are carried out consistently and correctly, and offer accurate reporting compared to manual systems. Other perks include the ability to monitor data remotely and increased productivity.

Monitoring for quality and compliance

For many aspects of laboratory work, continuous or regular monitoring is considered vital for reproducibility, integrity, and quality control. For example, cold storage systems can house important, often irreplaceable assets that represent months or even years of work. Lab monitoring systems can provide around-the-clock, real-time temperature readings, ensuring experimental accuracy and offering proof of adherence to quality controls. What’s more, audible alarms or notifications sent to on-premise or remote devices can alert personnel so that out-of-range fluctuations can be addressed immediately.

Other applications for monitoring include incubation parameters such as temperature, humidity, and CO2 and O2 levels. Monitoring can also be applied to pH meters, balances, stirrers, homogenizers, and more. Aside from instrument oversight, monitoring is broadly used to ensure suitable temperatures and humidity levels within the lab environment, as deviations can disrupt experiments or damage equipment.

Laboratory monitoring systems help to ensure the steps conducted by lab staff are consistent and correct, and that reporting is accurate. They collect multiple data points over time, so that if there are any issues with results, an anomaly can be pinpointed or ruled out. Consequently, these systems can be fundamental in ensuring reproducibility and form a keystone of quality assurance programs. Data collection can also be used to prove compliance with industry standards and regulations, with many providers of lab monitoring systems now integrating compliance features into their software.

Leveraging monitoring to boost efficiency and productivity

Lab monitoring software can often represent a large investment, but can pay dividends in the long run. Having solid data to confirm quality and compliance can mitigate the risk of losses, such as those incurred in the event of a power outage or human error. Lab monitoring can positively impact the bottom line in other ways, too. The ability to collect data remotely means that teams can monitor experiments from anywhere at any time. This can boost efficiency and productivity and greatly enhance collaboration efforts.

Having access to accurate, reliable data and eliminating any guesswork means that research and development data is more reliable than ever before. The implications can be far-reaching; for example, speeding up the product development process, bringing higher quality products to market, and minimizing the chance of product recalls or irreproducible research

Laboratory monitoring systems may sound complex, but technological advancements mean that they are often easy to integrate and intuitive to operate. 


For additional resources on lab monitoring systems, including useful articles and a list of manufacturers, visit www.labmanager.com/lab-monitoring