SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN

L Sheeran; M Robling

doi:10.1302/1358-992X.2019.9.040

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SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN

The Society for Back Pain Research (SBPR) 2018 Meeting, Groningen, The Netherlands, 15–16 November 2018.

L Sheeran
M Robling

SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN

Sheeran L, Robling M. SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN. Orthop Procs. 2019;101-B(SUPP_9):40-40. doi:10.1302/1358-992X.2019.9.040

Sheeran, L, and M Robling. “SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN.” Orthopaedic Proceedings, vol. 101-B, no. SUPP_9, 2019, pp. 40-40., https://doi.org/10.1302/1358-992X.2019.9.040

Sheeran, L., & Robling, M. (2019). SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN. Orthopaedic Proceedings, 101-B(SUPP_9), 40-40. https://doi.org/10.1302/1358-992X.2019.9.040

Sheeran, L. and Robling, M. (2019) “SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN.” Orthopaedic Proceedings, 101-B(SUPP_9), pp. 40-40. Available at: https://doi.org/10.1302/1358-992X.2019.9.040

Sheeran, L, and M Robling. “SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN.” Orthopaedic Proceedings 101-B, no. SUPP_9 (2019): 40-40. https://doi.org/10.1302/1358-992X.2019.9.040

Sheeran L, Robling M. SPINAL FUNCTION ASSESSMENT AND EXERCISE PERFORMANCE FRAMEWORK FOR LOW BACK PAIN. Orthop Procs. 2019 Sep 1;101-B(SUPP_9):40-40. https://doi.org/10.1302/1358-992X.2019.9.040

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Abstract

Purposes of the study and background

Clinical assessment of spinal function is a routine part of low back pain (LBP) assessment, yet there is no clear consensus on what constitutes ‘spinal dysfunction’ and how this informs treatment. This study's aims to develop a spinal function classification framework by gaining expert academic and clinical consensus on (i) spinal function assessment tests (ii) encountered LBP motor control/movement impairment (MCI/MI) sub-types (iii) their characteristics and (iii) exercises and feedback for each sub-type.

Methods and Results

An online 2-round Delphi-survey of 4 world-leading academic experts and 36 clinical physiotherapists world-wide was employed. A five-point response scale was used to rate level of agreement on 174 items with a priori consensus defined by a ≠>80% level of agreement (LOA). Out of 15 spinal function assessment tests, 5 reached consensus with forward bend and sitting/standing tests highest scoring. 7 MCI/MI sub-types reached consensus as clinically encountered. 12 out of 128 of posture/movement descriptors within the 7 sub-types reached consensus. 7 exercises gained consensus in being considered as ‘important’ or ‘very important’ with exercises involving sitting, standing, forward bend scoring highest. Consensus was reached on MCI/MI sub-type specific exercises, compensation strategies and feedback to remedy these compensations.

Conclusion

Academic and clinical expert consensus derived list of movement/posture descriptors, assessment tests and exercises considered clinically important provides a first to date, spinal function assessment classification framework for non-specific LBP. This offers a conceptual model for developing technologies (e.g. wearable sensors) to harness clinically useful information relating to spinal function, exercise performance and feedback for effective implementation of exercise therapies for non-specific LBP.

No conflicts of interest

Sources of Funding: Health and Care Research Wales, RCBC Postdoctoral Research Fellowship

Email: sheeranL@cardiff.ac.uk