Department of Materials Science and Engineering, Monash University, 22 Alliance Lane, Clayton, VIC 3800, Australia.
CSIRO Manufacturing, Bag 10, Clayton South MDC, VIC 3168, Australia; Australian Regenerative Medicine Institute, Science, Technology, Research and Innovation Precinct (STRIP), Monash University, Clayton Campus, Wellington Road, Clayton, VIC 3800, Australia.
Acta Biomater. 2017 May;54:1-20. doi: 10.1016/j.actbio.2017.02.046. Epub 2017 Mar 1.
Understanding how neurodegenerative disorders develop is not only a key challenge for researchers but also for the wider society, given the rapidly aging populations in developed countries. Advances in this field require new tools with which to recreate neural tissue in vitro and produce realistic disease models. This in turn requires robust and reliable systems for performing 3D in vitro culture of neural lineage cells. This review provides a state of the art update on three-dimensional culture systems for in vitro development of neural tissue, employing a wide range of scaffold types including hydrogels, solid porous polymers, fibrous materials and decellularised tissues as well as microfluidic devices and lab-on-a-chip systems. To provide some context with in vivo development of the central nervous system (CNS), we also provide a brief overview of the neural stem cell niche, neural development and neural differentiation in vitro. We conclude with a discussion of future directions for this exciting and important field of biomaterials research.
Neurodegenerative diseases, including dementia, Parkinson's and Alzheimer's diseases and motor neuron diseases, are a major societal challenge for aging populations. Understanding these conditions and developing therapies against them will require the development of new physical models of healthy and diseased neural tissue. Cellular models resembling neural tissue can be cultured in the laboratory with the help of 3D scaffolds - materials that allow the organization of neural cells into tissue-like structures. This review presents recent work on the development of different types of scaffolds for the 3D culture of neural lineage cells and the generation of functioning neural-like tissue. These in vitro culture systems are enabling the development of new approaches for modelling and tackling diseases of the brain and CNS.
了解神经退行性疾病的发展不仅是研究人员的关键挑战,也是发达国家人口迅速老龄化的社会的关键挑战。该领域的进展需要新的工具来在体外重现神经组织并产生逼真的疾病模型。这反过来又需要强大可靠的系统来进行神经谱系细胞的 3D 体外培养。这篇综述提供了有关用于体外神经组织发育的三维培养系统的最新技术更新,使用了广泛的支架类型,包括水凝胶、固体多孔聚合物、纤维材料和去细胞组织以及微流控设备和芯片上实验室系统。为了提供与中枢神经系统(CNS)体内发育的一些背景信息,我们还简要概述了神经干细胞龛、体外神经发育和神经分化。我们最后讨论了这个令人兴奋和重要的生物材料研究领域的未来方向。
神经退行性疾病,包括痴呆、帕金森病和阿尔茨海默病以及运动神经元疾病,是老龄化人口面临的重大社会挑战。了解这些疾病并开发针对它们的疗法将需要开发健康和患病神经组织的新物理模型。在 3D 支架的帮助下,可以在实验室中培养类似于神经组织的细胞模型 - 这些材料允许将神经细胞组织成类似组织的结构。这篇综述介绍了用于 3D 培养神经谱系细胞和生成功能性类神经组织的不同类型支架的最新研究进展。这些体外培养系统正在为模拟和解决大脑和中枢神经系统疾病的新方法的发展提供支持。
