Objective measurement of muscle mechanical properties using a myometric device in people with Parkinson's disease in a clinical setting in Africa
Objective measurement of muscle mechanical properties using a myometric device in people with Parkinson's disease in a clinical setting in Africa
Objective: to examine the feasibility and reliability of using a myometric device to objectively measure mechanical properties of muscles in people with Parkinson’s disease in an outpatient setting.
Background: clinically, muscle stiffness and tone are assessed subjectively by manual passive movements of a limb [1]. An objective clinical measure of muscle stiffness (rigidity) and tone in Parkinson’s disease (PD) is needed. The feasibility and reliability of a novel hand-held myometric device has been established in other populations, mainly in research environments [2,3,4] but yet to be tested in clinical environments and in the African population with PD.
Method: thirty adults with Parkinson’s disease [66.3±8.9 (mean±SD) years, range 47-82 years], Hoehn and Yahr Stages I-III, were studied in an outpatient neurology clinic and physiotherapy department of a teaching hospital in Ghana. Biceps brachii (BB), flexor carpi radialis (FCR) and tibialis anterior (TA) were tested in relaxed supine. A hand-held myometric device that measures mechanical properties of muscle recorded three tissue parameters: stiffness (N/m), non-neural tone (frequency, Hz) and elasticity (log decrement). Group means and standard deviations (±SD) were calculated. The intra-rater reliability of two sets of data was examined within the same session using intraclass correlation coefficients (ICCs), to see whether one set would be sufficient.
Results: all 30 participants were recruited and studied within eight weeks, and the technology was acceptable to the patients and therapist. The intra-rater reliability was excellent for BB and TA muscles as all ICCs were above 0.92, and good for FCR with ICCs above 0.73 [Table 1]. The device presented real-time data for each parameter and example values for the group (n=30) on the most affected side were: BB stiffness 240±13N/m, tone 13.6±1.5 Hz and elasticity 1.49±0.31 [Table 2].
Conclusion: the technique is feasible and can easily be used in the clinical setting in patients with PD. The technology was reliable for measuring two sets of data, indicating that only one set of measurements is sufficient for clinical practice. Further studies are warranted to obtain healthy control data in Ghana and to assess the effects of physiotherapy treatments on muscle parameters.
Agoriwo, M.
9f67c8f8-1ee3-4adc-842f-91b24e32a417
Muckelt, P.
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Osei-Yeboah, C.
b67f51d7-d863-4af8-8519-3569eb516cb4
Sankah, B.
f3948b56-eedc-4120-94a9-7d267fda4bd2
Agyapong-Badu, S.
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Akpalu, A.
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Stokes, M.
71730503-70ce-4e67-b7ea-a3e54579717f
2020
Agoriwo, M.
9f67c8f8-1ee3-4adc-842f-91b24e32a417
Muckelt, P.
29acdc93-a377-41ef-8d62-3ba65c90fa56
Osei-Yeboah, C.
b67f51d7-d863-4af8-8519-3569eb516cb4
Sankah, B.
f3948b56-eedc-4120-94a9-7d267fda4bd2
Agyapong-Badu, S.
a48029a3-7908-47c3-84ff-0ad6898cbb1c
Akpalu, A.
88ab395f-7a11-42b9-8f97-a621fb9147c6
Stokes, M.
71730503-70ce-4e67-b7ea-a3e54579717f
Agoriwo, M., Muckelt, P., Osei-Yeboah, C., Sankah, B., Agyapong-Badu, S., Akpalu, A. and Stokes, M.
(2020)
Objective measurement of muscle mechanical properties using a myometric device in people with Parkinson's disease in a clinical setting in Africa.
Movement Disorders Society Meeting Abstracts, 35, [1162].
Record type:
Meeting abstract
Abstract
Objective: to examine the feasibility and reliability of using a myometric device to objectively measure mechanical properties of muscles in people with Parkinson’s disease in an outpatient setting.
Background: clinically, muscle stiffness and tone are assessed subjectively by manual passive movements of a limb [1]. An objective clinical measure of muscle stiffness (rigidity) and tone in Parkinson’s disease (PD) is needed. The feasibility and reliability of a novel hand-held myometric device has been established in other populations, mainly in research environments [2,3,4] but yet to be tested in clinical environments and in the African population with PD.
Method: thirty adults with Parkinson’s disease [66.3±8.9 (mean±SD) years, range 47-82 years], Hoehn and Yahr Stages I-III, were studied in an outpatient neurology clinic and physiotherapy department of a teaching hospital in Ghana. Biceps brachii (BB), flexor carpi radialis (FCR) and tibialis anterior (TA) were tested in relaxed supine. A hand-held myometric device that measures mechanical properties of muscle recorded three tissue parameters: stiffness (N/m), non-neural tone (frequency, Hz) and elasticity (log decrement). Group means and standard deviations (±SD) were calculated. The intra-rater reliability of two sets of data was examined within the same session using intraclass correlation coefficients (ICCs), to see whether one set would be sufficient.
Results: all 30 participants were recruited and studied within eight weeks, and the technology was acceptable to the patients and therapist. The intra-rater reliability was excellent for BB and TA muscles as all ICCs were above 0.92, and good for FCR with ICCs above 0.73 [Table 1]. The device presented real-time data for each parameter and example values for the group (n=30) on the most affected side were: BB stiffness 240±13N/m, tone 13.6±1.5 Hz and elasticity 1.49±0.31 [Table 2].
Conclusion: the technique is feasible and can easily be used in the clinical setting in patients with PD. The technology was reliable for measuring two sets of data, indicating that only one set of measurements is sufficient for clinical practice. Further studies are warranted to obtain healthy control data in Ghana and to assess the effects of physiotherapy treatments on muscle parameters.
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Published date: 2020
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Local EPrints ID: 482733
URI: http://eprints.soton.ac.uk/id/eprint/482733
PURE UUID: d7996ba5-7975-46b3-b413-3d6fe4a67ba1
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Date deposited: 12 Oct 2023 16:37
Last modified: 18 Mar 2024 03:47
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Contributors
Author:
M. Agoriwo
Author:
C. Osei-Yeboah
Author:
B. Sankah
Author:
S. Agyapong-Badu
Author:
A. Akpalu
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