Bioengineering (Mar 2023)

Lumbar Kinematics Assessment of Patients with Chronic Low Back Pain in Three Bridge Tests Using Miniaturized Sensors

  • Athanasios Triantafyllou,
  • Georgios Papagiannis,
  • Sophia Stasi,
  • Panagiotis Gkrilias,
  • Maria Kyriakidou,
  • Effrosyni Kampouroglou,
  • Apostolos-Zacharias Skouras,
  • Charilaos Tsolakis,
  • George Georgoudis,
  • Olga Savvidou,
  • Panayiotis Papagelopoulos,
  • Panagiotis Koulouvaris

DOI
https://doi.org/10.3390/bioengineering10030339
Journal volume & issue
Vol. 10, no. 3
p. 339

Abstract

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Lumbar muscle atrophy, diminished strength, stamina, and increased fatigability have been associated with chronic nonspecific low back pain (LBP). When evaluating patients with LBP, trunk or core stability, provided by the performance and coordination of trunk muscles, appears to be essential. Several clinical tests have been developed to identify deficiencies in trunk performance, demonstrating high levels of validity and reproducibility. The most frequently prescribed tests for assessing the core body muscles are the prone plank bridge test (PBT), the side bridge test (SBT), and the supine bridge test (SUBT). However, quantitative assessments of the kinematics of the lumbar spine during their execution have not yet been conducted. The purpose of our study was to provide objective biomechanical data for the assessment of LBP patients. The lumbar spine ranges of motion of 22 healthy subjects (Group A) and 25 patients diagnosed with chronic LBP (Group B) were measured using two inertial measurement units during the execution of the PBT, SUBT, and SBT. Statistically significant differences between the two groups were found in all three tests’ kinematic patterns. This quantitative assessment of lumbar spine motion transforms the three bridge tests into an objective biomechanical diagnostic tool for LPBs that may be used to assess the efficacy of applied rehabilitation programs.

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