用于外周神经系统疾病体外建模的神经微物理系统

K. Pollard, Anup D. Sharma, M. J. Moore
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引用次数: 7

摘要

PNS疾病的病理学是多种多样的,并且被低估了。周围神经病变可能导致感觉、运动或自主神经功能障碍,并可能由代谢功能障碍、炎症功能障碍、细胞毒性药物、罕见遗传性疾病引起,或可能是特发性的。目前临床前PNS疾病的研究在很大程度上依赖于啮齿动物模型的使用。体内方法是有效的,但对于高通量实验来说过于耗时和昂贵。常规的体外方法可以以高通量进行,但缺乏直接模拟体内神经结构和功能所需的生物学复杂性。在这篇综述中,我们调查了体外PNS模型系统,并提出3D生物工程微物理神经组织可以改进体外-体内推断,并扩展体外PNS疾病建模的能力。
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Neural microphysiological systems for in vitro modeling of peripheral nervous system disorders
PNS disease pathology is diverse and underappreciated. Peripheral neuropathy may result in sensory, motor or autonomic nerve dysfunction and can be induced by metabolic dysfunction, inflammatory dysfunction, cytotoxic pharmaceuticals, rare hereditary disorders or may be idiopathic. Current preclinical PNS disease research relies heavily on the use of rodent models. In vivo methods are effective but too time-consuming and expensive for high-throughput experimentation. Conventional in vitro methods can be performed with high throughput but lack the biological complexity necessary to directly model in vivo nerve structure and function. In this review, we survey in vitro PNS model systems and propose that 3D-bioengineered microphysiological nerve tissue can improve in vitro–in vivo extrapolation and expand the capabilities of in vitro PNS disease modeling.
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