Not all sensors can be worn. Some training programs are made up of non-wearable devices. Technology that supports pelvic floor physiotherapists in training women in home-based treatments is an example of this.
Physical therapy is one part of a comprehensive treatment plan for a patient suffering from various disorders, injuries, or diseases. In the last two decades, the discipline of physiotherapy has seen significant development in technological tools to assist both therapists and their clients.
What Happens When the Patient Is Discharged from The Hospital?
As patients gains more independence, they enter a critical stage of treatment. This is a continuation of his at-home treatment. Take a look at the examples of technological breakthroughs in physiotherapy below; much of the success of continuous physiotherapy at home is due to the use of technology.
Non-Wearable Sensors and Probes
Not all sensors can be worn. Some training programs are made up of non-wearable devices. Technology that supports pelvic floor physiotherapists in training women in home-based treatments is an example of this. The pelvic floor muscles are the ones that, with regular exercise, will relieve incontinence. Incontinence is a common side effect of growing older and having a child. It is also a subject that many women avoid because of the inconvenience and humiliation that this condition causes.
Technology probes are yielding promising results, thanks in part to the fact that this form of technology is wearable. Wearables do not get in the way of the client's lifestyle, are usually comfortable, and can even inspire them.
Two difficulties are addressed by using a technological probe for ongoing treatment:
Patients are prone to non-compliance when it comes to sticking to a fitness program.
When a patient returns home, physiotherapists are unable to assess actual improvement.
Physical Rehabilitation Apps
Computer-assisted therapies are available in a variety of formats. A patient may have graduated from a hospital, out-patient clinic, rehabilitation facility, or private therapist, among other healthcare facilities. Furthermore, many illnesses necessitate ongoing treatment and monitoring for a set amount of time. The patient is frequently recommended this by medical personnel, but the patient fails to follow any regimen at home.
Engineering science and physical therapy are collaborating so closely in the development of assistive and biofeedback technologies that it is difficult to predict what the future will hold. However, there is little doubt that the outcomes of this partnership will be beneficial to both patients and physiotherapists when developing a home-based high-tech physical therapy program.