„Valedo Movement Lab“: Das portable Bewegungslabor misst Bewegungs-Qualität bei unteren Rückenschmerzen
Beschreibung
Low back pain – Novel technology improves patient assessment Clinicians frequently encounter patients suffering from low back pain with degraded lumbar movement and movement control. Measuring lumbar movement is difficult because existing measurement systems such as visual observation lack accuracy and comprehensiveness. Researchers from Tampere University and Zurich University of Applied Sciences developed a mobile and low-cost measurement system that overcomes these limitations and provides valid and reliable measures of lumbar movement. Low back pain is a very common symptom and the leading cause of disability worldwide. Only a small proportion of patients have a well-understood pathological cause, e.g. a vertebral fracture. All others have no specific cause of pain and their treatment is difficult, although many clinicians notice distinguishable clinical features in daily practice. One important feature is degraded lumbar movement and movement control, but this is difficult to quantify because current measurement systems lack accuracy, reliability, validity, comprehensiveness and practicality. To overcome these limitations, researchers from Tampere University, UKK Institute, Hocoma AG and Zurich University of Applied Sciences developed a mobile and low-cost measurement system (Valedo®) that overcomes these limitations and provides valid and reliable measures of lumbar movement.
In this project, the researchers tested whether the novel measurement system fulfils the basic criteria for measurement systems: validity and reliability. They tested it against an exact gold standard, a reference system frequently used in movement science, and found it to provide valid and reliable measures of lumbar movements. Because these results were encouraging, they used it to investigate several questions with clinical relevance: the associations between low back pain intensity, fatigue and decline of lumbar movement control as well as the effect of exercise on lumbar movement control, in people with physically demanding jobs (nurses) who are at great risk of developing chronic low back pain. The researchers found that low back pain indeed reduces lumbar movement control: the higher the pain, the more movement control is affected. Moreover, they found that fatigue also affects movement control: patients with low back pain use different compensation strategies than pain-free people. Finally, they found that exercise may reverse or reduce deterioration of lumbar movement control and could therefore be beneficial for people who are at great risk of developing chronic low back pain. The results supported the development of Valedo®, a highly sucessfull therapy tool used by clinicans. Broad-based Finnish-Swiss research project
The project concluded in 2014. The Swiss partners were funded by the Innosuisse agency of the Swiss Confederation. The Finnish partners were financed by the Social Insurance Institution of Finland and the Pirkanmaa Hospital District.
In a follow-up project funded by Innosuisse, this study group has begun to integrate the novel measurement system with an additional precise measurement system, further improving its quality. The continuing interest of funding organisations indicate the clinical, scientific and economic potential of this technology.
The partners had the common aim of developing a novel measurement system to enable clinicians to measure lumbar movement objectively and ultimately improve care for patients without a specific cause of low back pain.
Eckdaten
Stellv. Projektleitung
Dr. Christoph Bauer
Co-Projektleitung
Melissa Lawrence
Projektteam
Lukas Baumgartner, Markus Ernst, Anna Hügli, Markku Kankaanpää, Anastasios Margilis, Dr. Anne-Kathrin Rausch, Jana Suni
Projektpartner
Medbase AG; UKK Institute - Centre for Health Promotion Research; Tampere University; Hocoma AG
Projektstatus
abgeschlossen, 05/2011 - 03/2014
Institut/Zentrum
Institut für Physiotherapie (IPT)
Drittmittelgeber
KTI-Projekt / Projekt Nr. 12413.1;12 PFES-ES
Projektvolumen
320'720 CHF
Publikationen
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Reliability and validity of lumbopelvic kinematics related to nonspecific low back pain
2018 Bauer, Christoph
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Reproducibility of a new signal processing technique to assess joint sway during standing
2017 Rast, Fabian; Graser, Judith Verena; Meichtry, André; Ernst, Markus; Bauer, Christoph
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The effect of muscle fatigue and low back pain on lumbar movement variability and complexity
2017 Bauer, Christoph; Rast, F.M.; Ernst, M.J.; Meichtry, André; Kool, J.; Rissanen, S.M.; Suni, J.H.; Kankaanpää, M.
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Reliability of lumbar movement dysfunction tests for chronic low back pain patients
2016 Bauer, Christoph Michael; Heimgartner, Martin; Rast, Fabian Marcel; Ernst, Markus Josef; Oetiker, Sarah; Kool, Jan
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Low back pain and postural control, effects of task difficulty on centre of pressure and spinal kinematics
2015 Schelldorfer, Sarah; Ernst, Markus; Rast, Fabian; Bauer, Christoph; Meichtry, André; Kool, Jan
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Measuring lumbar reposition accuracy in patients with unspecific low back pain : systematic review and meta-analysis
2015 Rausch Osthoff, Anne-Kathrin; Ernst, Markus; Rast, Fabian; Mauz, Danica; Graf, Eveline; Kool, Jan; Bauer, Christoph
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Adherence to home exercises in non-specific low back pain : a randomised controlled pilot trial
2015 Hügli, Anna Sabrina; Ernst, Markus Josef; Kool, Jan; Rast, Fabian; Rausch, Anne-Kathrin; Mannig, Angelika; Oetiker, Sarah; Bauer, Christoph Michael
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Pain intensity attenuates movement control of the lumbar spine in low back pain
2015 Bauer, Christoph; Rast, Fabian; Ernst, Markus; Oetiker, Sarah; Meichtry, André; Kool, Jan; Rissanen, Saara M.; Suni, Jaana H.; Kankaanpää, Markku
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Concurrent validity and reliability of a novel wireless inertial measurement system to assess trunk movement
2015 Bauer, Christoph; Rast, Fabian; Ernst, Markus; Kool, Jan; Oetiker, Sarah; Rissanen, Saara; Suni, Jaana; Kankaanpää, Markku
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Determination of thoracic and lumbar spinal processes by their percentage position between C7 and the PSIS level
2013 Ernst, Markus J.; Rast, Fabian M.; Bauer, Christoph M.; Marcar, Valentine Leslie; Kool, Jan