000007536 001__ 7536
000007536 005__ 20240819142422.0
000007536 022__ $$a00219290
000007536 0247_ $$2DOI$$a10.1016/j.jbiomech.2017.06.042
000007536 037__ $$aARTICLE
000007536 039_9 $$a2024-08-19 14:24:22$$b1$$c2023-09-05 15:23:59$$d1$$c2021-12-17 15:25:09$$d0$$c2021-11-17 11:25:27$$d1001252$$c2021-05-03 23:22:15$$d0$$c2021-05-03 15:01:43$$d1000092$$c2021-05-03 15:01:17$$d1000092$$c2021-04-29 14:24:03$$d0$$y2021-04-29 14:23:55$$z1000944
000007536 041__ $$aeng
000007536 245__ $$aChronic low back pain patients walk with locally altered spinal kinematics
000007536 269__ $$a2017-07
000007536 300__ $$a8 p.
000007536 506__ $$avisible
000007536 520__ $$9eng$$aVarious studies have reported alterations of spinal kinematics in patients with chronic low back pain (CLBP) during gait. However, while recent findings stressed the importance of multi-segment analysis, most of prior gait studies modelled the lumbar spine as one segment, when it was not the entire trunk that was considered as a single segment. Therefore, there is a need for comprehensive multi-segment research that could improve our understanding of CLBP pathomechanism and thus possibly contribute to better care for CLBP. This study aimed at characterizing the angle patterns at the lower lumbar (LLS), upper lumbar (ULS), lower thoracic (LTS) and upper thoracic (UTS) joints in the three anatomical planes and at comparing CLBP patients and asymptomatic subjects. Spinal kinematics of 11 CLBP patients and 11 controls was measured using a marker-based motion capture system and described according to a previously proposed multi-segment biomechanical model. Characteristic patterns were observed at the UTS, LTS and ULS joints in the transverse plane and at the UTS, ULS and LLS joints in the frontal plane. CLBP patients walked with smaller frontal-plane LLS range of motion than controls. The results also suggested that patients had more asymmetrical LTS motion in the transverse plane. In conclusion, this work extended prior literature by showing specific CLBP-related alterations in multi-segment spinal kinematics during gait. Further research is necessary to understand the factors influencing kinematics alterations and how treatment strategies might improve motor behaviour in CLBP patients.
000007536 540__ $$acorrect
000007536 592__ $$aHESAV
000007536 592__ $$bUnité de recherche en santé, HESAV
000007536 592__ $$cSanté
000007536 592__ $$dPhysiothérapie
000007536 65017 $$aSanté
000007536 6531_ $$9eng$$afunctional activity
000007536 6531_ $$9eng$$agait
000007536 6531_ $$9eng$$alow back pain
000007536 6531_ $$9eng$$amulti-segment
000007536 6531_ $$9eng$$athoracic spine
000007536 6531_ $$9eng$$aupper and lower lumbar spine
000007536 655__ $$ascientifique
000007536 700__ $$aChriste, Guillaume$$uHESAV School of Health Sciences, HES-SO University of Applied Sciences and Arts Western Switzerland ; Swiss BioMotion Lab, Department of Musculoskeletal Medicine, Centre Hospitalier Universitaire Vaudois and University of Lausanne, Lausanne, Switzerland
000007536 700__ $$aKade, François$$uSwiss BioMotion Lab, Department of Musculoskeletal Medicine, Centre Hospitalier Universitaire Vaudois and University of Lausanne, Lausanne, Switzerland
000007536 700__ $$aJolles, Brigitte M.$$uSwiss BioMotion Lab, Department of Musculoskeletal Medicine, Centre Hospitalier Universitaire Vaudois and University of Lausanne, Lausanne, Switzerland ; Institute of Microengineering, Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland
000007536 700__ $$aFavre, Julien$$uSwiss BioMotion Lab, Department of Musculoskeletal Medicine, Centre Hospitalier Universitaire Vaudois and University of Lausanne, Lausanne, Switzerland
000007536 773__ $$j2017, vol. 60, pp. 211–218$$tJournal of biomechanics
000007536 8564_ $$s1171452$$uhttps://arodes.hes-so.ch/record/7536/files/Published%20version.pdf$$93ef1068b-d9fd-467f-80d3-4b83c9da4f30
000007536 906__ $$aNONE
000007536 909CO $$ooai:hesso.tind.io:7536$$pGLOBAL_SET
000007536 950__ $$aaucun
000007536 980__ $$ascientifique
000007536 981__ $$ascientifique