皮质脊髓束与运动前区-运动区通路在脑卒中后残留运动功能中的相互作用。
Interactions Between the Corticospinal Tract and Premotor-Motor Pathways for Residual Motor Output After Stroke.
机构信息
From the Department of Neurology, University Medical Center Hamburg-Eppendorf, Germany (R.S.); Department of Physical and Rehabilitation Medicine, Center for Prevention and Rehabilitation, Heart Vascular Stroke Institute, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Republic of Korea (J.L., W.H.C., Y.-H.K.); Department of Physical and Rehabilitation Medicine, Kyungpook National University Medical Center, Daegu, Republic of Korea (E.P.); Department of Health Sciences and Technology, Department of Medical Device Management & Research, SAIHST, Sungkyunkwan University, Seoul, Republic of Korea (J.L., A.L., Y.-H.K.); Defitech Chair of Clinical Neuroengineering, Brain Mind Institute and Centre of Neuroprosthetics (CNP), Swiss Federal Institute of Technology (EPFL), Geneva, Switzerland (F.C.H.); Defitech Chair of Clinical Neuroengineering, Brain Mind Institute and Centre of Neuroprosthetics (CNP), Swiss Federal Institute of Technology (EPFL Valais), CRR (Clinique Romande de Réadaptation), Sion, Switzerland (F.C.H.); and Department of Clinical Neurosciences, Geneva University Hospital, Switzerland (F.C.H.).
出版信息
Stroke. 2017 Oct;48(10):2805-2811. doi: 10.1161/STROKEAHA.117.016834. Epub 2017 Sep 13.
BACKGROUND AND PURPOSE
Brain imaging has continuously enhanced our understanding how different brain networks contribute to motor recovery after stroke. However, the present models are still incomplete and do not fit for every patient. The interaction between the degree of damage of the corticospinal tract (CST) and of corticocortical motor connections, that is, the influence of the microstructural state of one connection on the importance of another has been largely neglected.
METHODS
Applying diffusion-weighted imaging and probabilistic tractography, we investigated cross-network interactions between the integrity of ipsilesional CST and ipsilesional corticocortical motor pathways for variance in residual motor outcome in 53 patients with subacute stroke.
RESULTS
The main finding was a significant interaction between the CST and corticocortical connections between the primary motor and ventral premotor cortex in relation to residual motor output. More specifically, the data indicate that the microstructural state of the connection primary motor-ventral premotor cortex plays only a role in patients with significant damage to the CST. In patients with slightly affected CST, this connection did not explain a relevant amount of variance in motor outcome.
CONCLUSIONS
The present data show that patients with stroke with different degree of CST disruption differ in their dependency on structural premotor-motor connections for residual motor output. This finding might have important implications for future research on recovery prediction models and on responses to treatment strategies.
背景与目的
脑影像学不断增强我们对不同脑网络如何促进中风后运动功能恢复的理解。然而,目前的模型仍然不完整,不适合每个患者。皮质脊髓束(CST)损伤程度和皮质皮质运动连接之间的相互作用,即一个连接的微观结构状态对另一个连接的重要性的影响,在很大程度上被忽视了。
方法
应用弥散加权成像和概率追踪技术,我们研究了 53 例亚急性中风患者同侧 CST 完整性与同侧皮质皮质运动通路之间的跨网络相互作用,以探讨其对残余运动功能的影响。
结果
主要发现是 CST 和初级运动皮质与腹侧运动前皮质之间的皮质皮质连接之间存在显著的相互作用,与残余运动输出有关。更具体地说,数据表明,连接初级运动-腹侧运动前皮质的微观结构状态仅在 CST 受到明显损伤的患者中起作用。在 CST 轻度受损的患者中,该连接并不能解释运动功能恢复的显著差异。
结论
本研究数据表明,CST 破坏程度不同的中风患者对残余运动输出的结构前运动-运动连接的依赖性不同。这一发现可能对未来的恢复预测模型研究和治疗策略反应具有重要意义。
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