AI Article Synopsis
- Individuals with chronic low back pain (LBP) show changes in brain activity that affect their posture and coordination, highlighting the need to explore these connections further.
- A study involving 14 healthy participants measured their movements under three conditions: no pain, pain induced by stimulation, and no pain again, revealing significant changes in muscle activation and movement execution during the Pain condition.
- The findings linked specific brain activity (contingent negative variation) to the alterations in movement patterns caused by acute LBP, suggesting a pathway for future research into the neural mechanisms behind these changes.
Article Abstract
It is becoming increasingly evident that people with chronic, recurrent low back pain (LBP) exhibit changes in cerebrocortical activity that associate with altered postural coordination, suggesting a need for a better understanding of how the experience of LBP alters postural coordination and cerebrocortical activity. To characterize changes in postural coordination and pre-movement cerebrocortical activity related to the experience of acutely induced LBP, 14 healthy participants with no history of LBP performed sit-to-stand movements in 3 sequential conditions: (1) without experimentally induced LBP; NoPain1, (2) with movement-associated LBP induced by electrocutaneous stimulation; Pain, and (3) again without induced LBP; NoPain2. The Pain condition elicited altered muscle activation and redistributed forces under the seat and feet prior to movement, decreased peak vertical force exerted under the feet during weight transfer, longer movement times, as well as decreased and earlier peak hip extension. Stepwise regression models demonstrated that electroencephalographic amplitudes of contingent negative variation during the Pain condition significantly correlated with the participants' change in sit-to-stand measures between the NoPain1 and Pain conditions, as well as with the subsequent difference in sit-to-stand measures between the NoPain1 and NoPain2 conditions. The results, therefore, identify the contingent negative variation as a correlate for the extent of an individual's LBP-related movement modifications and to the subsequent change in movement patterns from before to after the experience of acutely induced LBP, thereby providing a direction for future studies aimed to understand the neural mechanisms underlying the development of altered movement patterns with LBP.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3257517 | PMC |
| http://dx.doi.org/10.1007/s00221-011-2880-z | DOI Listing |
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