How Modern Clinical Diagnostics Depend on Motion Systems
For years, medical professionals have used technology in order to better analyze and treat a variety of conditions. However, much more progress can be made if more experts in the field invested in clinical diagnostic solutions that employ motion systems. They can provide a lot of benefits that could expedite a number of different processes, which could make diagnostics and research far less labor-intensive. In this article, we’ll discuss some pieces of equipment that use micromotors for clinical diagnostics and how they depend on these motion systems.
When analyzing certain gasses or liquids, it’s important for these materials to be dispensed at regular intervals. Thus, the pumps used for these processes must be able to operate for a long period of time while maintaining a high quality of performance. Otherwise, the results may not be as accurate as they should be, which could lead to imprecise or even disastrous conclusions for any study.
That is why it is essential to use miniature pumps with high-quality miniature motors designed for minimal wear and tear. For instance, traditional motors make use of brushes in order to commutate. Unfortunately, because they are constantly exposed to friction, these brushes eventually wear out over time. A brushless motor, however, uses electronics for commutation. Thus, this type of pump can last for far longer.
On average, manually analyzing numerous individual samples could take hundreds of hours. Unfortunately, in the field of medicine, time is of the essence, as it can mean the difference between life or death for patients. That is why a medical analyzer powered by miniature motors is an important device for any laboratory. These machines can analyze a large group of samples by using high-quality linear stages. Because it can provide precise movements, it can analyze samples more easily even while using wells or test tubes with small diameters. Thus, medical researchers or professionals can receive important test results in a shorter amount of time.
Pipetting is an essential process in any laboratory, but one that many employees dread doing by hand. When you have thousands of samples to test, it can quickly eat up most of your staff’s time and effort. These could also cause your employees to suffer from RSI (repetitive stress injuries), further decreasing your lab’s productivity and output.
Thankfully, electronic pipettes allow laboratory staff to quickly and efficiently dispense liquids with less difficulty and more precision. They can also provide accurate and repeatable samples because there is less room for human error. Additionally, they are designed to be as ergonomic as possible, keeping your employees safe from potential RSI-related injuries.
There are many more medical devices out there that rely on motion systems for optimal functionality. In a few years, they may be upgraded or even replaced by much more effective models. One thing is clear, though: they make the lives of lab technicians, physicians, and patients so much easier. By investing in these technologies, researchers and medical professionals can make greater strides in the field of medical research and diagnostics, saving more lives in the process.