Analysis of affected and non-affected sides of stroke hemiparalysis patients and correlations between rehabilitation therapy assessments using the bioelectrical impedance analysis method
[Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for stroke hemiplegic patients. [Subjects and Methods] A group of 20 stroke patients diagnosed with stroke hemiplegia who underwent stroke rehab...
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| Published in | Journal of Physical Therapy Science Vol. 28; no. 12; pp. 3306 - 3309 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Japan
The Society of Physical Therapy Science
2016
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0915-5287 2187-5626 2187-5626 |
| DOI | 10.1589/jpts.28.3306 |
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| Abstract | [Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for stroke hemiplegic patients. [Subjects and Methods] A group of 20 stroke patients diagnosed with stroke hemiplegia who underwent stroke rehabilitation from October to November 2015 participated in this study. Using bioelectrical impedance analysis, stroke hemiparalysis patients were examined, and the affected and non-affected sides were compared. This correlation between impedance measurement values and rehabilitation therapy as an assessment tool was determined. [Results] According to the whole-body bioimpedance measurements, prediction markers, reactances, and phase angles, there were significant differences between the non-affected and affected sides, and bioimpedance had a positive correlation with hand grip power, manual dexterity of hand function, and ability to perform activities of daily living. [Conclusion] There were significant differences between the impedance values of the affected and non-affected sides of hemiplegic stroke patients. These results suggest that bioelectrical impedance analysis can be used as an assessment during the rehabilitation of stroke patients. |
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| AbstractList | [Abstract.] [Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for stroke hemiplegic patients. [Subjects and Methods] A group of 20 stroke patients diagnosed with stroke hemiplegia who underwent stroke rehabilitation from October to November 2015 participated in this study. Using bioelectrical impedance analysis, stroke hemiparalysis patients were examined, and the affected and non-affected sides were compared. This correlation between impedance measurement values and rehabilitation therapy as an assessment tool was determined. [Results] According to the whole-body bioimpedance measurements, prediction markers, reactances, and phase angles, there were significant differences between the non-affected and affected sides, and bioimpedance had a positive correlation with hand grip power, manual dexterity of hand function, and ability to perform activities of daily living. [Conclusion] There were significant differences between the impedance values of the affected and non-affected sides of hemiplegic stroke patients. These results suggest that bioelectrical impedance analysis can be used as an assessment during the rehabilitation of stroke patients. Purpose: The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for stroke hemiplegic patients. Subjects and Methods: A group of 20 stroke patients diagnosed with stroke hemiplegia who underwent stroke rehabilitation from October to November 2015 participated in this study. Using bioelectrical impedance analysis, stroke hemiparalysis patients were examined, and the affected and non-affected sides were compared. This correlation between impedance measurement values and rehabilitation therapy as an assessment tool was determined. Results: According to the whole-body bioimpedance measurements, prediction markers, reactances, and phase angles, there were significant differences between the non-affected and affected sides, and bioimpedance had a positive correlation with hand grip power, manual dexterity of hand function, and ability to perform activities of daily living. Conclusion: There were significant differences between the impedance values of the affected and non-affected sides of hemiplegic stroke patients. These results suggest that bioelectrical impedance analysis can be used as an assessment during the rehabilitation of stroke patients. [Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for stroke hemiplegic patients. [Subjects and Methods] A group of 20 stroke patients diagnosed with stroke hemiplegia who underwent stroke rehabilitation from October to November 2015 participated in this study. Using bioelectrical impedance analysis, stroke hemiparalysis patients were examined, and the affected and non-affected sides were compared. This correlation between impedance measurement values and rehabilitation therapy as an assessment tool was determined. [Results] According to the whole-body bioimpedance measurements, prediction markers, reactances, and phase angles, there were significant differences between the non-affected and affected sides, and bioimpedance had a positive correlation with hand grip power, manual dexterity of hand function, and ability to perform activities of daily living. [Conclusion] There were significant differences between the impedance values of the affected and non-affected sides of hemiplegic stroke patients. These results suggest that bioelectrical impedance analysis can be used as an assessment during the rehabilitation of stroke patients. [Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for stroke hemiplegic patients. [Subjects and Methods] A group of 20 stroke patients diagnosed with stroke hemiplegia who underwent stroke rehabilitation from October to November 2015 participated in this study. Using bioelectrical impedance analysis, stroke hemiparalysis patients were examined, and the affected and non-affected sides were compared. This correlation between impedance measurement values and rehabilitation therapy as an assessment tool was determined. [Results] According to the whole-body bioimpedance measurements, prediction markers, reactances, and phase angles, there were significant differences between the non-affected and affected sides, and bioimpedance had a positive correlation with hand grip power, manual dexterity of hand function, and ability to perform activities of daily living. [Conclusion] There were significant differences between the impedance values of the affected and non-affected sides of hemiplegic stroke patients. These results suggest that bioelectrical impedance analysis can be used as an assessment during the rehabilitation of stroke patients. [Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for stroke hemiplegic patients. [Subjects and Methods] A group of 20 stroke patients diagnosed with stroke hemiplegia who underwent stroke rehabilitation from October to November 2015 participated in this study. Using bioelectrical impedance analysis, stroke hemiparalysis patients were examined, and the affected and non-affected sides were compared. This correlation between impedance measurement values and rehabilitation therapy as an assessment tool was determined. [Results] According to the whole-body bioimpedance measurements, prediction markers, reactances, and phase angles, there were significant differences between the non-affected and affected sides, and bioimpedance had a positive correlation with hand grip power, manual dexterity of hand function, and ability to perform activities of daily living. [Conclusion] There were significant differences between the impedance values of the affected and non-affected sides of hemiplegic stroke patients. These results suggest that bioelectrical impedance analysis can be used as an assessment during the rehabilitation of stroke patients.[Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for stroke hemiplegic patients. [Subjects and Methods] A group of 20 stroke patients diagnosed with stroke hemiplegia who underwent stroke rehabilitation from October to November 2015 participated in this study. Using bioelectrical impedance analysis, stroke hemiparalysis patients were examined, and the affected and non-affected sides were compared. This correlation between impedance measurement values and rehabilitation therapy as an assessment tool was determined. [Results] According to the whole-body bioimpedance measurements, prediction markers, reactances, and phase angles, there were significant differences between the non-affected and affected sides, and bioimpedance had a positive correlation with hand grip power, manual dexterity of hand function, and ability to perform activities of daily living. [Conclusion] There were significant differences between the impedance values of the affected and non-affected sides of hemiplegic stroke patients. These results suggest that bioelectrical impedance analysis can be used as an assessment during the rehabilitation of stroke patients. |
| Author | Kim, YoungGyu Yoo, ChanUk Suh, SeongKyo |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28174440$$D View this record in MEDLINE/PubMed |
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| Cites_doi | 10.1589/jpts.24.245 10.1097/MCO.0b013e328356b944 10.1093/ajcn/46.4.537 10.1016/j.jstrokecerebrovasdis.2004.06.003 10.1589/jpts.27.781 10.1186/1471-2407-8-249 10.9723/jksiis.2013.18.6.009 10.1109/ISSPA.1999.818188 10.1093/ajcn/64.3.524S 10.3233/RNN-2007-00380 10.1093/ajcn/64.3.397S 10.1016/j.clnu.2012.05.008 10.1179/016164109X12445505689689 10.1097/PHM.0b013e3181951133 10.1037/t02366-000 10.1589/jpts.26.195 |
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| Keywords | Affected side Bioelectrical impedance analysis Stroke |
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| References | 1) Adamson J, Beswick A, Ebrahim S: Is stroke the most common cause of disability? J Stroke Cerebrovasc Dis, 2004, 13: 171–177. 16) Miyamoto S, Kondo T, Suzukamo Y, et al.: Reliability and validity of the Manual Function Test in patients with stroke. Am J Phys Med Rehabil, 2009, 88: 247–255. 18) Kelley RE, Borazanci AP: Stroke rehabilitation. Neurol Res, 2009, 31: 832–840. 2) Jun HJ, Kim KJ, Chun IA, et al.: The relationship between stroke patients’ socio-economic conditions and their quality of life: the 2010 Korean community health survey. J Phys Ther Sci, 2015, 27: 781–784. 4) Cho KH, Lee WH: Effects of inpatient rehabilitation on functional recovery of stroke patients: a comparison of chronic stroke patients with and without cognitive impairment. J Phys Ther Sci, 2012, 24: 245–248. 13) Cho YC, Kim MS, Yoon JO: A study on the electrical difference for the limbs and thoracic impedance using real-time bio-impedance measurement system. J Korea Ind Inf Syst Res, 2013, 18: 9–16. 8) Ward LC: Segmental bioelectrical impedance analysis: an update. Lippincott Williams & Wilkins, 2012, pp 424–429. 15) Lee SY, Park YJ, Park HM, et al.: Effect of the mandibular orthopedic repositioning appliance on forearm muscle activation and grasping power during pinch and hook grip. J Phys Ther Sci, 2014, 26: 195–197. 12) Chumea WC, Guo SS: Bioelectrical impedance and body composition: present status and future direction. Hum Biol, 1999, 52: 221–234. 6) Lingwood BE, Colditz PB, Ward LC: Biomedical applications of electrical impedance analysis. Proc of ISSAP, 1999, 1: 367–370. 3) Kwakkel G, Kollen B: Predicting improvement in the upper paretic limb after stroke: a longitudinal prospective study. Restor Neurol Neurosci, 2007, 25: 453–460. 14) National Institutes of Health: Bioelectrical impedance analysis in body composition measurement: National Institutes of Health Technology Assessment Conference Statement. Am J Clin Nutr, 1996, 64: 524S–532S. 19) Gupta D, Lammersfeld CA, Vashi PG, et al.: Bioelectrical impedance phase angle as a prognostic indicator in breast cancer. BMC Cancer, 2008, 8: 249–256. 9) Lukaski HC, Singer MG: Phase angle as a prognostic indicator in cancer AAAI Spring Symp Technical Reports, 2011, SS-11-04: 37–40. 10) Lukaski HC: Biological indexes considered in the derivation of the bioelectrical impedance analysis. Am J Clin Nutr, 1996, 64: 397S–404S. 5) Thomasset A: Bio-electrical properties of tissue impedance measurements. Lyon Med, 1962, 207: 17–18. 11) Norman K, Stobäus N, Pirlich M, et al.: Bioelectrical phase angle and impedance vector analysis—clinical relevance and applicability of impedance parameters. Clin Nutr, 2012, 31: 854–861. 17) Mahoney FI, Barthel DW: Functional evaluation: the Barthel Index. Md State Med J, 1965, 14: 61–65. 7) Lukaski HC: Methods for the assessment of human body composition: traditional and new. Am J Clin Nutr, 1987, 46: 537–556. 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9 (19) 2008; 8 10 |
| References_xml | – reference: 12) Chumea WC, Guo SS: Bioelectrical impedance and body composition: present status and future direction. Hum Biol, 1999, 52: 221–234. – reference: 3) Kwakkel G, Kollen B: Predicting improvement in the upper paretic limb after stroke: a longitudinal prospective study. Restor Neurol Neurosci, 2007, 25: 453–460. – reference: 1) Adamson J, Beswick A, Ebrahim S: Is stroke the most common cause of disability? J Stroke Cerebrovasc Dis, 2004, 13: 171–177. – reference: 14) National Institutes of Health: Bioelectrical impedance analysis in body composition measurement: National Institutes of Health Technology Assessment Conference Statement. Am J Clin Nutr, 1996, 64: 524S–532S. – reference: 5) Thomasset A: Bio-electrical properties of tissue impedance measurements. Lyon Med, 1962, 207: 17–18. – reference: 16) Miyamoto S, Kondo T, Suzukamo Y, et al.: Reliability and validity of the Manual Function Test in patients with stroke. Am J Phys Med Rehabil, 2009, 88: 247–255. – reference: 9) Lukaski HC, Singer MG: Phase angle as a prognostic indicator in cancer AAAI Spring Symp Technical Reports, 2011, SS-11-04: 37–40. – reference: 10) Lukaski HC: Biological indexes considered in the derivation of the bioelectrical impedance analysis. Am J Clin Nutr, 1996, 64: 397S–404S. – reference: 18) Kelley RE, Borazanci AP: Stroke rehabilitation. Neurol Res, 2009, 31: 832–840. – reference: 13) Cho YC, Kim MS, Yoon JO: A study on the electrical difference for the limbs and thoracic impedance using real-time bio-impedance measurement system. J Korea Ind Inf Syst Res, 2013, 18: 9–16. – reference: 7) Lukaski HC: Methods for the assessment of human body composition: traditional and new. Am J Clin Nutr, 1987, 46: 537–556. – reference: 19) Gupta D, Lammersfeld CA, Vashi PG, et al.: Bioelectrical impedance phase angle as a prognostic indicator in breast cancer. BMC Cancer, 2008, 8: 249–256. – reference: 2) Jun HJ, Kim KJ, Chun IA, et al.: The relationship between stroke patients’ socio-economic conditions and their quality of life: the 2010 Korean community health survey. J Phys Ther Sci, 2015, 27: 781–784. – reference: 8) Ward LC: Segmental bioelectrical impedance analysis: an update. Lippincott Williams & Wilkins, 2012, pp 424–429. – reference: 4) Cho KH, Lee WH: Effects of inpatient rehabilitation on functional recovery of stroke patients: a comparison of chronic stroke patients with and without cognitive impairment. J Phys Ther Sci, 2012, 24: 245–248. – reference: 15) Lee SY, Park YJ, Park HM, et al.: Effect of the mandibular orthopedic repositioning appliance on forearm muscle activation and grasping power during pinch and hook grip. J Phys Ther Sci, 2014, 26: 195–197. – reference: 6) Lingwood BE, Colditz PB, Ward LC: Biomedical applications of electrical impedance analysis. Proc of ISSAP, 1999, 1: 367–370. – reference: 17) Mahoney FI, Barthel DW: Functional evaluation: the Barthel Index. Md State Med J, 1965, 14: 61–65. – reference: 11) Norman K, Stobäus N, Pirlich M, et al.: Bioelectrical phase angle and impedance vector analysis—clinical relevance and applicability of impedance parameters. Clin Nutr, 2012, 31: 854–861. – ident: 4 doi: 10.1589/jpts.24.245 – ident: 5 – ident: 8 doi: 10.1097/MCO.0b013e328356b944 – ident: 12 – ident: 7 doi: 10.1093/ajcn/46.4.537 – ident: 1 doi: 10.1016/j.jstrokecerebrovasdis.2004.06.003 – ident: 2 doi: 10.1589/jpts.27.781 – volume: 8 start-page: 249 issn: 1471-2407 year: 2008 ident: 19 publication-title: BMC Cancer doi: 10.1186/1471-2407-8-249 – ident: 13 doi: 10.9723/jksiis.2013.18.6.009 – ident: 6 doi: 10.1109/ISSPA.1999.818188 – ident: 14 doi: 10.1093/ajcn/64.3.524S – ident: 3 doi: 10.3233/RNN-2007-00380 – ident: 10 doi: 10.1093/ajcn/64.3.397S – ident: 11 doi: 10.1016/j.clnu.2012.05.008 – ident: 9 – ident: 18 doi: 10.1179/016164109X12445505689689 – ident: 16 doi: 10.1097/PHM.0b013e3181951133 – ident: 17 doi: 10.1037/t02366-000 – ident: 15 doi: 10.1589/jpts.26.195 |
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| Snippet | [Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for... [Abstract.] [Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy... Purpose: The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for... [Purpose] The purpose of this study was to demonstrate the use of bioelectrical impedance analysis as an appropriate rehabilitation therapy evaluation tool for... |
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| Title | Analysis of affected and non-affected sides of stroke hemiparalysis patients and correlations between rehabilitation therapy assessments using the bioelectrical impedance analysis method |
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