Assessment and Post-Intervention Recovery After Surgery for Lumbar Disk Herniation Based on Objective Gait Metrics from Wearable Devices Using the Gait Posture Index

Overview

Journal World Neurosurg

Publisher Elsevier

Date 2020 Jun 26

PMID 32585383

Citations 18

Authors

Finn Ghent

Ralph J Mobbs

Redmond R Mobbs

Luke Sy

Callum Betteridge

Wen Jie Choy

Affiliations

Soon will be listed here.

Abstract

Objective: Surgery for lumbar disk herniation (LDH) presents an option for patients when conservative measures fail. The objective of this clinical study is to investigate a novel, objective outcome measure in patients undergoing lumbar microdiscectomy.

Methods: Twenty-four patients were evaluated pre- and postoperatively using the Oswestry Disability Index (ODI), and a novel objective scoring tool, the Gait Posture index (GPi). The score is calculated from 4 key physical health metrics: daily step count, walking speed, step length, and walking posture. The GPi ranges from 0 (nonambulant) to 100 (excellent walking performance). Wearable accelerometers and observational recordings were used to evaluate the components of the GPi. The GPi was calculated and compared with the ODI, pre- and postintervention. The study was designed as a proof of concept and confirmation of validity for use of the GPi in LDH.

Results: At follow-up (average 66 ± 36 days), 23 of 24 patients had an improvement in their GPi after surgery. The average GPi of the cohort improved from 59.33 ± 16.06 to 85.75 ± 9.22 with P < 0.001, with significant changes in all 4 components. The average preoperative ODI was 54.54 ± 20.70, improving to 16.33 ± 14.095 with P < 0.001. The Pearson correlation coefficient was r = 0.56, indicating a correlation between change in ODI and change in GPi.

Conclusions: The GPi score is a new, objective descriptor of mobility in spinal surgery which can be used to augment traditional subjective outcome scoring surveys such as the ODI. Significant changes are seen in the GPi and its constituent metrics in patients undergoing surgery for LDH.

Citing Articles

Physical functioning in the lumbar spinal surgery population: A systematic review and narrative synthesis of outcome measures and measurement properties of the physical measures.

Kowalski K, Mistry J, Beilin A, Goodman M, Lukacs M, Rushton A PLoS One. 2024; 19(8):e0307004.

PMID: 39208263 PMC: 11361614. DOI: 10.1371/journal.pone.0307004.

A Systematic Evaluation of Feature Encoding Techniques for Gait Analysis Using Multimodal Sensory Data.

Fatima R, Khan M, Nisar M, Doniec R, Farid M, Grzegorzek M Sensors (Basel). 2024; 24(1).

PMID: 38202937 PMC: 10780594. DOI: 10.3390/s24010075.

SmartWear body sensors for neurological and neurosurgical patients: A review of current and future technologies.

Gupta N, Kasula V, Sanmugananthan P, Panico N, Dubin A, Sykes D World Neurosurg X. 2023; 21:100247.

PMID: 38033718 PMC: 10682285. DOI: 10.1016/j.wnsx.2023.100247.

Proposed objective scoring algorithm for clinical evaluation of walking asymmetry in lumbar disc herniation, based on relevant gait metrics from wearable devices: The Gait Symmetry Index (GSiTM) - Observational study.

Natarajan P, Fonseka R, Sy L, Mobbs R, Maharaj M Brain Spine. 2022; 2:100895.

PMID: 36248149 PMC: 9559967. DOI: 10.1016/j.bas.2022.100895.

The concept of recovery kinetics: an observational study of continuous post-operative monitoring in spine surgery.

Maharaj M, Natarajan P, Fonseka R, Khanna S, Choy W, Rooke K J Spine Surg. 2022; 8(2):196-203.

PMID: 35875621 PMC: 9263729. DOI: 10.21037/jss-22-5.