People are always looking for new ways to get factors done, even if this means finding new utilizes for something that has already proved useful. One great example of this is actually the use of motion catch technology in scientific trials. Motion catch (or motion tracking, or motion analysis) is a technique to obtain information about the movement of objects (and people) without the usage of force or connections.
So how exactly does Motion Capture Function?
The system works by recording the particular movement of reflecting markers attached to an individual. Those markers are tracked and prepared by specialized software program, producing an accurate THREE DIMENSIONAL representation of their actions. This technology continues to be used for years within the entertainment industry, nevertheless use has now spread out to other fields, for example medicine.
So How Is It Utilized in Medicine?
One of the first applications which were developed was running analysis, which has been close to for decades. Gait analysis is the study of human gait, that is how a person movements while walking or even running. This method concentrates on measuring the mechanised aspects of movement, which can help understand how the body functions while it are at rest or in motion.
There are many ways to carry out a gait analysis, but one of the most dependable is motion capture. This technology may track joints, movements, and angles with great accuracy and may be done at a relatively low cost.
Is It Safe?
These technologies have been around for more than 4 decades and were initially used in biomechanics and medicine to study human movement. Today, they are used in a wide range of programs that include sports, animation and forensics.
Motion Catch Technology Has Also Discovered An Important Role Within Clinical Trials
Clinical tests are part of the drug development process to check the safety plus efficacy of new therapies before they’ re made available to patients. Medical trials aim to provide important safety and efficacy data on new drugs whilst closely monitoring the patients’ health position.
The primary challenge for these studies is the large number of individuals required due to the record methods used to establish sound evidence about treatment effects. Therefore instead of recruiting thousands of participants, researchers are using motion capture technologies to reduce the number of participants required for clinical studies. The emergence associated with virtual clinical studies is advantageous.
This technologies enables researchers to gather movement data from patients, which can later be used in record analysis. Instead of getting all participants make use of special apparatus or even markers, they can use an armband along with embedded 3D motion sensors.
The data collected by the armband could be utilized to track patients’ motions in specific scenarios, such as during exercise or when performing their daily activities.
With this technology gaining popularity and proving useful, researchers work on a new era of affordable THREE DIMENSIONAL motion sensors that may be embedded into mobile phones or smartwatches. This technology will be beneficial to recruit a large number of patients for clinical tests, which would help bring new therapies in order to patients faster.
This advancement will record motion data in real-time, providing an even more significant role in clinical trials. These tasks are currently being tested for Parkinson’ s i9000 disease, hypertension, asthma and cardiac study.
Although we can’ big t predict when these items will hit the market and how they will be used in scientific trials, we know they will play an important function.
Possible Game Changers
Even though this technology has been used by researchers for decades now, its potential continues to be largely untapped due to the high costs associated with it. This is why these new projects have the potential to be game changers in how medical trials are carried out!