AI Article Synopsis

  • This study investigated how lower extremity manipulation affects the stability of standing on an inclined surface in healthy individuals.
  • The research included eight participants who stood on an incline for 3 minutes to create a sensory illusion and then experienced either joint manipulation or no intervention.
  • Results showed significant differences in the center of pressure (CoP) between the intervention and control conditions, indicating that extremity manipulation can improve postural stability, potentially influencing clinical practices for populations with stability issues.

Article Abstract

This study explored the influence of lower extremity manipulation on the postural after-effects of standing on an inclined surface. Eight healthy individuals (28.0 ± 4.1 years) were recruited for this open-label, crossover study. Participants stood on an incline board for 3 min to develop a known form of somatosensory illusion. After randomization to either a lower-extremity joint manipulation or no intervention, participants immediately stood on a force plate for 3 min with eyes closed. After a 24-h washout period, participants completed the remaining condition. Center of pressure (CoP) position data was measured by a force plate and evaluated using statistical parametric mapping. Pathlength, mean velocity, and RMS were calculated for significant time periods and compared with corrected paired -tests. Parametric maps revealed that CoP position of control and intervention conditions differed significantly for two time periods (70-86 s-control: 0.17 ± 1.86 cm/intervention: -1.36 ± 1.54 cm; 141-177 s-control: -0.35 ± 1.61 cm/intervention: -1.93 ± 1.48 cm). CoP pathlength was also significantly decreased for the second period (control: 6.11 ± 4.81 cm/intervention: 3.62 ± 1.92 cm). These findings suggest that extremity manipulation may be a useful intervention for populations where CoP stability is an issue. This study contributes to the growing body of evidence that manipulation of the extremities can drive global postural changes, as well as influence standing behavior. Further, it suggests these global changes may be driven by alterations in central integration. ClinicalTrials.gov, NCT Number: NCT05226715.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9679286PMC
http://dx.doi.org/10.3389/fnhum.2022.1011997DOI Listing

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