With the help of VR glasses and playful exercises, tele-rehabilitation of patients is to be made more effective and attractive. Researchers at HSLU have developed a digital platform for this in an international research project with experienced practitioners - including ZURZACH Care as a clinical partner.
The situation in rehab is familiar: The physiotherapist puts together an exercise program, the patient is given the necessary tools, but practicing at home without expert support is unfortunately difficult. All too often, the legendary Thera rubber band and weights are left in the cupboard to strengthen the upper extremities (i.e. shoulders, arms and hands). Thanks to digitalization and ’Internet of Things’ systems, the chances of success for rehab and Physio 2.0 can now be significantly increased - a win-win situation for patients, relatives, therapists and therapy facilities.
’We have created a low-threshold form of physical and cognitive exercise that anyone can do anywhere. We know from experience: The simpler the set-up, the greater the chance that the training will also take place regularly at home,’ says Andrew Paice, Head of iHomeLab at HSLU, describing the telemedicine project. Many patients neglect to exercise if it cannot be easily integrated into their everyday lives.
’Catching moles’ - gamification motivates
The amount of material required to set up an online training course of this kind is limited: VR goggles with data transmission provided by the clinic, a data gateway and a bio-sensor on the finger are all that is needed. This is the basic equipment for patients, plus an app for relatives. They play an important role in consistent practice by motivating patients and providing support in the event of technical difficulties - also and especially through digital means.
As soon as patients have put on and started the VR glasses at home, they are whisked away into virtual worlds in which they perform playful exercises, known as exergames, to strengthen their upper limbs and increase their cognitive abilities. These exergames have original names such as ’Whack a mole’ - where the aim is to catch moles - or ’Escape from Alpatraz’, where the aim is to escape from a virtual alpine maze. Other games are based on familiar visual worlds such as ’memory’, ’basketball’ or ’hand clapping’. The exercises differ in their requirements and can be adjusted in terms of difficulty.
A camera attached to the VR goggles films the movements of the patient’s hand and superimposes them onto the game. Based on sensor signals, the subjective stress and fatigue of the training patient can be derived using AI algorithms. The patient gradually completes the program according to their mood and exactly when they want to. The pseudonymized data is stored in a secure cloud and cannot be deciphered by third parties. ’Cheating’ is not possible: the system recognizes via biometric fingerprint if a third party has trained instead of the person concerned.
Closing a treatment gap
If necessary, the therapist can connect to the patient exercising remotely via a multi-protected line and adapt the exercises precisely and in real time to the patient’s abilities and needs. They can also compare the accuracy of the exercises on an ongoing basis or afterwards and recommend additional exercises. ’This innovative form of therapy also changes the tasks of the therapist, who understands their role as a coach in this situation and can act flexibly.
As an innovative care model, tele-rehab also offers the potential to conserve the resources of the healthcare system and close an existing treatment gap thanks to its flexibility in terms of time and location,’ explains Sebastian Frese, Head of Technology and Innovation at ZURZACH Care. As a complementary form of therapy, it could significantly reduce the workload for patients and their relatives, as on-site visits and time-consuming travel could be reduced. The added value for clinics and rehabilitation centers is also obvious in times of a shortage of specialists.
Next goal: transfer to everyday medical practice
Over the past two and a half years, around 70 patients, 15 relatives and over 40 specialists have been involved in the test series. From the large amount of anonymized data and diagrams, experts can develop superordinate patterns. The medium-term goal of this big data analysis for prevention in medicine and therapy is clear: with the help of AI, new, personalized treatment and training approaches are to be developed that are even more effective.
’With our Tele-Rehab platform, we have provided both the technological prerequisites and the proof of concept in clinical practice. The next step is now to transfer the technology to everyday medical practice - together with interested business partners. The project partners involved in the project are actively driving the venture forward,’ explains Andrew Paice.
Who is involved in "RecoveryFun"?
The "RecoveryFun" project (original title: An integrated VR-based tele-rehabilitation platform to support RECOVERY and maintenance of ctional abilities among seniors) ran from January 2022 to June 2024. The research program is part of the European Union’s "AAL - Active Assisted Living" thematic cluster, which has been implemented since 2010. In addition to the iHomeLab, practical teams from Italy (Tech4Care, INRCA), Switzerland (ZURZACH Care), Romania (Canary Technology) and Belgium (Unmatched, Trainm) were involved in the interdisciplinary project.
Try it out live: "RecoveryFun" on the evening of the economy
On the Evening of Business on Thursday, October 24, 2024, on the campus of Lucerne University of Applied Sciences and Arts - Engineering & Architecture in Horw - the "RecoveryFun" project will be presented live.
The iHomeLab of the Lucerne University of Applied Sciences and Arts - "Living in the future. Today. "
Under the direction of Andrew Paice, the iHomeLab team at Lucerne University of Applied Sciences and Arts is researching how intelligent systems can reduce energy consumption in buildings or enable older people to live longer. The results of the research projects are presented in the iHomeLab Visitor Center on the Horw campus and explained in an understandable way. Visits can be booked at ihomelab.ch/visit.