Efficacy of interactive manual dexterity training after stroke: a pilot single-blinded randomized controlled trial.

Térémetz, Maxime;Hamdoun, Sonia;Colle, Florence;Gerardin, Eloïse;Lindberg, Påvel G;et.al.
(2023) Journal of neuroengineering and rehabilitation — Vol. 20, n° 1, p. 93 [1-14] (2023)

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  • Térémetz, Maxime
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  • Hamdoun, Sonia
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  • Colle, Florence
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  • Lindberg, Påvel G
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Abstract
(en) OBJECTIVE: To compare the efficacy of Dextrain Manipulandum™ training of dexterity components such as force control and independent finger movements, to dose-matched conventional therapy (CT) post-stroke. METHODS: A prospective, single-blind, pilot randomized clinical trial was conducted. Chronic-phase post-stroke patients with mild-to-moderate dexterity impairment (Box and Block Test (BBT) > 1) received 12 sessions of Dextrain or CT. Blinded measures were obtained before and after training and at 3-months follow-up. Primary outcome was BBT-change (after-before training). Secondary outcomes included changes in motor impairments, activity limitations and dexterity components. Corticospinal excitability and short intracortical inhibition (SICI) were measured using transcranial magnetic stimulation. RESULTS: BBT-change after training did not differ between the Dextrain (N = 21) vs CT group (N = 21) (median [IQR] = 5[2-7] vs 4[2-7], respectively; P = 0.36). Gains in BBT were maintained at the 3-month post-training follow-up, with a non-significant trend for enhanced BBT-change in the Dextrain group (median [IQR] = 3[- 1-7.0], P = 0.06). Several secondary outcomes showed significantly larger changes in the Dextrain group: finger tracking precision (mean ± SD = 0.3 ± 0.3N vs - 0.1 ± 0.33N; P < 0.0018), independent finger movements (34.7 ± 25.1 ms vs 7.7 ± 18.5 ms, P = 0.02) and maximal finger tapping speed (8.4 ± 7.1 vs 4.5 ± 4.9, P = 0.045). At follow-up, Dextrain group showed significantly greater improvement in Motor Activity Log (median/IQR = 0.7/0.2-0.8 vs 0.2/0.1-0.6, P = 0.05). Across both groups SICI increased in patients with greater BBT-change (Rho = 0.80, P = 0.006). Comparing Dextrain subgroups with maximal grip force higher/lower than median (61.2%), BBT-change was significantly larger in patients with low vs high grip force (7.5 ± 5.6 vs 2.9 ± 2.8; respectively, P = 0.015). CONCLUSIONS: Although immediate improvements in gross dexterity post-stroke did not significantly differ between Dextrain training and CT, our findings suggest that Dextrain enhances recovery of several dexterity components and reported hand-use, particularly when motor impairment is moderate (low initial grip force). Findings need to be confirmed in a larger trial. Trial registration ClinicalTrials.gov NCT03934073 (retrospectively registered).
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Térémetz, M., Hamdoun, S., Colle, F., Gerardin, E., Desvilles, C., Carment, L., Charron, S., Cuenca, M., Calvet, D., Baron, J.-C., Turc, G., Maier, M. A., Rosso, C., Mas, J.-L., & Lindberg, P. G. (2023). Efficacy of interactive manual dexterity training after stroke: a pilot single-blinded randomized controlled trial. Journal of neuroengineering and rehabilitation, 20(1), 93 [1-14]. https://doi.org/10.1186/s12984-023-01213-9 (Original work published 2023)