scholarly journals Detection of Typical Compensatory Movements during Autonomously Performed Exercises Preventing Low Back Pain (LBP)

Sensors ◽  
2021 ◽  
Vol 22 (1) ◽  
pp. 111
Author(s):  
Asaad Sellmann ◽  
Désirée Wagner ◽  
Lucas Holtz ◽  
Jörg Eschweiler ◽  
Christian Diers ◽  
...  
Keyword(s):  
Low Back Pain ◽  
Back Pain ◽  
Inertial Sensors ◽  
Low Back ◽  
Classification Models ◽  
Proof Of Concept ◽  
Binary Decision ◽  
Binary Decision Tree ◽  
Trained Classifier ◽  
Rehabilitation Exercises

With the growing number of people seeking medical advice due to low back pain (LBP), individualised physiotherapeutic rehabilitation is becoming increasingly relevant. Thirty volunteers were asked to perform three typical LBP rehabilitation exercises (Prone-Rocking, Bird-Dog and Rowing) in two categories: clinically prescribed exercise (CPE) and typical compensatory movement (TCM). Three inertial sensors were used to detect the movement of the back during exercise performance and thus generate a dataset that is used to develop an algorithm that detects typical compensatory movements in autonomously performed LBP exercises. The best feature combinations out of 50 derived features displaying the highest capacity to differentiate between CPE and TCM in each exercise were determined. For classifying exercise movements as CPE or TCM, a binary decision tree was trained with the best performing features. The results showed that the trained classifier is able to distinguish CPE from TCM in Bird-Dog, Prone-Rocking and Rowing with up to 97.7% (Head Sensor, one feature), 98.9% (Upper back Sensor, one feature) and 80.5% (Upper back Sensor, two features) using only one sensor. Thus, as a proof-of-concept, the introduced classification models can be used to detect typical compensatory movements in autonomously performed LBP exercises.

Effective Recovery and Control of Chronic Low Back Pain by using Rehabilitation Exercises Therapy

2019 ◽  
Vol 12 (9) ◽  
pp. 4313
Author(s):  
Qais Gasibat ◽  
Malak Hasan Mesrati ◽  
Rabiu Muazu Musa ◽  
Ahlam A. Zidan
Keyword(s):  
Low Back Pain ◽  
Back Pain ◽  
Chronic Low Back Pain ◽  
Low Back ◽  
And Control ◽  
Rehabilitation Exercises

scholarly journals Development and proof of concept of a blended physiotherapeutic intervention for patients with non-specific low back pain

Physiotherapy ◽  
2019 ◽  
Vol 105 (4) ◽  
pp. 483-491 ◽  
Author(s):  
C.J.J. Kloek ◽  
M.L. van Tilburg ◽  
J.B. Staal ◽  
C. Veenhof ◽  
D. Bossen
Keyword(s):  
Low Back Pain ◽  
Back Pain ◽  
Low Back ◽  
Proof Of Concept

scholarly journals Are Nonpharmacologic Interventions for Chronic Low Back Pain More Cost Effective Than Usual Care? Proof of Concept Results From a Markov Model

Spine ◽  
2019 ◽  
Vol 44 (20) ◽  
pp. 1456-1464 ◽  
Author(s):  
Patricia M. Herman ◽  
Tara A. Lavelle ◽  
Melony E. Sorbero ◽  
Eric L. Hurwitz ◽  
Ian D. Coulter
Keyword(s):  
Low Back Pain ◽  
Back Pain ◽  
Markov Model ◽  
Usual Care ◽  
Chronic Low Back Pain ◽  
Cost Effective ◽  
Low Back ◽  
Proof Of Concept

scholarly journals Embodying the illusion of a strong, fit back in people with chronic low back pain. A pilot proof-of-concept study

2019 ◽  
Vol 39 ◽  
pp. 178-183 ◽  
Author(s):  
Tomohiko Nishigami ◽  
Benedict Martin Wand ◽  
Roger Newport ◽  
Natasha Ratcliffe ◽  
Kristy Themelis ◽  
...  
Keyword(s):  
Low Back Pain ◽  
Back Pain ◽  
Chronic Low Back Pain ◽  
Low Back ◽  
Proof Of Concept ◽  
Concept Study

scholarly journals Quantitative MRI to Characterize the Nucleus Pulposus Morphological and Biomechanical Variation According to Sagittal Bending Load and Radial Fissure, an ex vivo Ovine Specimen Proof-of-Concept Study

2021 ◽  
Vol 9 ◽  
Author(s):  
Jean-Philippe Deneuville ◽  
Maksym Yushchenko ◽  
Tanguy Vendeuvre ◽  
Arnaud Germaneau ◽  
Maxime Billot ◽  
...  
Keyword(s):  
Low Back Pain ◽  
Back Pain ◽  
Intervertebral Disc ◽  
Mechanical Load ◽  
Ex Vivo ◽  
Element Model ◽  
Quantitative Mri ◽  
Low Back ◽  
Proof Of Concept ◽  
Radial Fissure

Background and context: Low back pain is a dramatic burden worldwide. Discography studies have shown that 39% of chronic low back pain patients suffer from discogenic pain due to a radial fissure of intervertebral disc. This can have major implications in clinical therapeutic choices. The use of discography is restricted because of its invasiveness and interest in it remains low as it represents a static condition of the disc morphology. Magnetic Resonance Imaging (MRI) appears to be less invasive but does not describe the biomechanical dynamic behavior of the fissure.Purpose: We aimed to seek a quantitative MRI protocol combined with ex vivo sagittal loading to analyze the morphological and biomechanical changes of the intervertebral disc structure and stress distribution.Study design: Proof of concept.Methods: We designed a proof-of-concept ovine study including 3 different 3.0 T-MRI sequences (T2-weighted, T1 and T2 mapping). We analyzed 3 different mechanical states (neutral, flexion and extension) on a fresh ovine spine specimen to characterize an intervertebral disc before and after puncturing the anterior part of the annulus fibrosus. We used a mark tracking method to calculate the bending angles and the axial displacements of the discal structures. In parallel, we created a finite element model to calculate the variation of the axial stress and the maximal intensity shear stress, extrapolated from our experimental boundary conditions.Results: Thanks to an original combination of specific nuclear relaxation time quantifications (T1, T2) of the discal tissue, we characterized the nucleus movement/deformation into the fissure according to the synchronous mechanical load. This revealed a link between disc abnormality and spine segment range of motion capability. Our finite element model highlighted significant variations within the stress distribution between intact and damaged disc.Conclusion: Quantitative MRI appears to provide a new opportunity to characterize intra-discal structural morphology, lesions and stress changes under the influence of mechanical load. This preliminary work could have substantial implications for non-invasive disc exploration and could help to validate novel therapies for disc treatment.

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