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眼外肌修复与再生

Extraocular Muscle Repair and Regeneration.

作者信息

Verma Mayank, Fitzpatrick Krysta, McLoon Linda K

机构信息

Stem Cell Institute, University of Minnesota, Minneapolis, Minnesota.

Department of Ophthalmology and Visual Neurosciences, University of Minnesota, Minneapolis, Minnesota.

出版信息

Curr Ophthalmol Rep. 2017 Sep;5(3):207-215. doi: 10.1007/s40135-017-0141-4. Epub 2017 Jun 16.

DOI:10.1007/s40135-017-0141-4
PMID:29109908
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5669281/
Abstract

PURPOSE OF REVIEW

The goal of this review is to summarize the unique regenerative milieu within mature mammalian extraocular muscles (EOMs). This will aid in understanding disease propensity for and sparing of EOMs in skeletal muscle diseases as well as the recalcitrance of the EOM to injury.

RECENT FINDINGS

The EOMs continually remodel throughout life and contain an extremely enriched number of myogenic precursor cells that differ in number and functional characteristics from those in limb skeletal muscle. The EOMs also contain a large population of Pitx2-positive myogenic precursor cells that provide the EOMs with many of their unusual biological characteristics, such as myofiber remodeling and skeletal muscle disease sparing. This environment provides for rapid and efficient remodeling and regeneration after various types of injury. In addition, the EOMs show a remarkable ability to respond to perturbations of single muscles with coordinated changes in the other EOMs that move in the same plane.

SUMMARY

These data will inform Ophthalmologists as they work toward developing new treatments for eye movement disorders, new approaches for repair after nerve or direct EOMs injury, as well as suggest potential explanations for the unusual disease propensity and disease sparing characteristics of human EOM.

摘要

综述目的

本综述的目的是总结成熟哺乳动物眼外肌(EOMs)内独特的再生环境。这将有助于理解骨骼肌疾病中EOMs的疾病倾向和幸免情况,以及EOMs对损伤的抵抗性。

最新发现

EOMs在整个生命过程中持续重塑,含有数量极丰富的成肌前体细胞,其数量和功能特征与肢体骨骼肌中的不同。EOMs还含有大量Pitx2阳性成肌前体细胞,赋予EOMs许多不寻常的生物学特性,如肌纤维重塑和骨骼肌疾病幸免。这种环境使得在各种类型的损伤后能够快速有效地进行重塑和再生。此外,EOMs表现出显著的能力,即当单个肌肉受到扰动时,同一平面内其他运动的EOMs会发生协调变化。

总结

这些数据将为眼科医生提供信息,帮助他们开发治疗眼球运动障碍的新方法、神经或直接EOMs损伤后的修复新途径,并为人类EOMs不寻常的疾病倾向和疾病幸免特征提供潜在解释。

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