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限制诱导运动疗法(CIMT)和神经前体细胞(NPC)移植协同促进缺氧缺血性小鼠模型的解剖和功能恢复。

Constraint-Induced Movement Therapy (CIMT) and Neural Precursor Cell (NPC) Transplantation Synergistically Promote Anatomical and Functional Recovery in a Hypoxic-Ischemic Mouse Model.

机构信息

Division of Genetics and Development, Krembil Brain Institute, University Health Network, Toronto, ON M5T 2S8, Canada.

Institute of Medical Science, University of Toronto, Toronto, ON M5S 3E1, Canada.

出版信息

Int J Mol Sci. 2024 Aug 29;25(17):9403. doi: 10.3390/ijms25179403.

DOI:10.3390/ijms25179403
PMID:39273353
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11395467/
Abstract

Cerebral palsy (CP) is a common neurodevelopmental disorder characterized by pronounced motor dysfunction and resulting in physical disability. Neural precursor cells (NPCs) have shown therapeutic promise in mouse models of hypoxic-ischemic (HI) perinatal brain injury, which mirror hemiplegic CP. Constraint-induced movement therapy (CIMT) enhances the functional use of the impaired limb and has emerged as a beneficial intervention for hemiplegic CP. However, the precise mechanisms and optimal application of CIMT remain poorly understood. The potential synergy between a regenerative approach using NPCs and a rehabilitation strategy using CIMT has not been explored. We employed the Rice-Vannucci HI model on C57Bl/6 mice at postnatal day (PND) 7, effectively replicating the clinical and neuroanatomical characteristics of hemiplegic CP. NPCs were transplanted in the corpus callosum (CC) at PND21, which is the age corresponding to a 2-year-old child from a developmental perspective and until which CP is often not formally diagnosed, followed or not by Botulinum toxin injections in the unaffected forelimb muscles at PND23, 26, 29 and 32 to apply CIMT. Both interventions led to enhanced CC myelination and significant functional recovery (as shown by rearing and gait analysis testing), through the recruitment of endogenous oligodendrocytes. The combinatorial treatment indicated a synergistic effect, as shown by newly recruited oligodendrocytes and functional recovery. This work demonstrates the mechanistic effects of CIMT and NPC transplantation and advocates for their combined therapeutic potential in addressing hemiplegic CP.

摘要

脑瘫(CP)是一种常见的神经发育障碍,其特征是明显的运动功能障碍,并导致身体残疾。神经前体细胞(NPCs)在缺氧缺血(HI)围产期脑损伤的小鼠模型中显示出治疗潜力,这些模型模拟了偏瘫 CP。限制诱导运动疗法(CIMT)增强了受损肢体的功能使用,已成为偏瘫 CP 的有益干预措施。然而,CIMT 的确切机制和最佳应用仍知之甚少。使用 NPCs 的再生方法与使用 CIMT 的康复策略之间的潜在协同作用尚未得到探索。我们在 PND7 时使用 Rice-Vannucci HI 模型对 C57Bl/6 小鼠进行了研究,有效地复制了偏瘫 CP 的临床和神经解剖学特征。NPCs 在 PND21 时被移植到胼胝体(CC)中,这是从发育角度来看对应于 2 岁儿童的年龄,直到 CP 通常不进行正式诊断、随访或不在未受影响的前肢肌肉中注射肉毒杆菌毒素,以应用 CIMT。这两种干预措施都导致了 CC 髓鞘形成的增强和功能的显著恢复(如饲养和步态分析测试所示),这是通过招募内源性少突胶质细胞实现的。组合治疗表明存在协同作用,表现在新募集的少突胶质细胞和功能恢复上。这项工作证明了 CIMT 和 NPC 移植的机制作用,并提倡将它们联合用于治疗偏瘫 CP。

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Diffusion restriction in the corticospinal tract and the corpus callosum of term neonates with hypoxic-ischemic encephalopathy.足月新生儿缺氧缺血性脑病皮质脊髓束和胼胝体弥散受限。
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