Compensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination
Abstract Pathophysiology of balance disorders due to multiple sclerosis (MS) and atrial vertigo (AV) is different. We evaluated posture stability when maintaining balance in people with MS presenting symptoms of ataxia and those with AV. We included 45 women (15 with MS; 15 with AV; 15 controls). A...
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2021
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oai:doaj.org-article:34f517aaf3df49758068a59d3bc704902021-12-02T14:23:04ZCompensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination10.1038/s41598-021-85983-z2045-2322https://doaj.org/article/34f517aaf3df49758068a59d3bc704902021-03-01T00:00:00Zhttps://doi.org/10.1038/s41598-021-85983-zhttps://doaj.org/toc/2045-2322Abstract Pathophysiology of balance disorders due to multiple sclerosis (MS) and atrial vertigo (AV) is different. We evaluated posture stability when maintaining balance in people with MS presenting symptoms of ataxia and those with AV. We included 45 women (15 with MS; 15 with AV; 15 controls). A posturography platform was used to measure balance parameters. To characterize the image of stability and the compensation of balance disorders, the surface area of the stabilogram (SAS), vision control index (VCI) and the vision-motion control index (VMCI) were used. The stability image of people with MS and AV with eyes open (p = 0.002), with eyes closed (p = 0.080) and with visual biofeedback (p = 0.0008) differed significantly. SAS depended on visual biofeedback regardless of the occurrence of balance disorders and was the basis for determining the compensatory share of vision-motor coordination. Differences in VCI between groups were insignificant. VMCI was significantly higher in people with balance disorders than in those without, but similar in the MS and AV groups. The image of stability is different in people with MS and AV. Thanks to visual biofeedback, it becomes possible to launch effective vision-motor coordination when compensating balance disorders. VCI may become the measure of compensation for balance disorders.Oliwer KahlEwelina WierzbickaMagdalena DębińskaMaciej MrazMałgorzata MrazNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 11, Iss 1, Pp 1-11 (2021) |
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Medicine R Science Q Oliwer Kahl Ewelina Wierzbicka Magdalena Dębińska Maciej Mraz Małgorzata Mraz Compensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination |
| description |
Abstract Pathophysiology of balance disorders due to multiple sclerosis (MS) and atrial vertigo (AV) is different. We evaluated posture stability when maintaining balance in people with MS presenting symptoms of ataxia and those with AV. We included 45 women (15 with MS; 15 with AV; 15 controls). A posturography platform was used to measure balance parameters. To characterize the image of stability and the compensation of balance disorders, the surface area of the stabilogram (SAS), vision control index (VCI) and the vision-motion control index (VMCI) were used. The stability image of people with MS and AV with eyes open (p = 0.002), with eyes closed (p = 0.080) and with visual biofeedback (p = 0.0008) differed significantly. SAS depended on visual biofeedback regardless of the occurrence of balance disorders and was the basis for determining the compensatory share of vision-motor coordination. Differences in VCI between groups were insignificant. VMCI was significantly higher in people with balance disorders than in those without, but similar in the MS and AV groups. The image of stability is different in people with MS and AV. Thanks to visual biofeedback, it becomes possible to launch effective vision-motor coordination when compensating balance disorders. VCI may become the measure of compensation for balance disorders. |
| format |
article |
| author |
Oliwer Kahl Ewelina Wierzbicka Magdalena Dębińska Maciej Mraz Małgorzata Mraz |
| author_facet |
Oliwer Kahl Ewelina Wierzbicka Magdalena Dębińska Maciej Mraz Małgorzata Mraz |
| author_sort |
Oliwer Kahl |
| title |
Compensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination |
| title_short |
Compensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination |
| title_full |
Compensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination |
| title_fullStr |
Compensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination |
| title_full_unstemmed |
Compensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination |
| title_sort |
compensatory image of the stability of people with multiple sclerosis and atrial vertigo based on posturography examination |
| publisher |
Nature Portfolio |
| publishDate |
2021 |
| url |
https://doaj.org/article/34f517aaf3df49758068a59d3bc70490 |
| work_keys_str_mv |
AT oliwerkahl compensatoryimageofthestabilityofpeoplewithmultiplesclerosisandatrialvertigobasedonposturographyexamination AT ewelinawierzbicka compensatoryimageofthestabilityofpeoplewithmultiplesclerosisandatrialvertigobasedonposturographyexamination AT magdalenadebinska compensatoryimageofthestabilityofpeoplewithmultiplesclerosisandatrialvertigobasedonposturographyexamination AT maciejmraz compensatoryimageofthestabilityofpeoplewithmultiplesclerosisandatrialvertigobasedonposturographyexamination AT małgorzatamraz compensatoryimageofthestabilityofpeoplewithmultiplesclerosisandatrialvertigobasedonposturographyexamination |
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1718391477275459584 |