Growth factors: Bioactive macromolecular drugs for peripheral nerve injury treatment – Molecular mechanisms and delivery platforms

再生(生物学) 周围神经损伤 背景(考古学) 神经导管 血管生成 组织工程 神经营养因子 外周神经系统 轴突 神经损伤 药理学 医学 神经科学 细胞生物学 癌症研究 生物 内科学 生物医学工程 中枢神经系统 受体 古生物学
作者
Teng Wan,Fengshi Zhang,Ming-Yu Qin,Hao-Ran Jiang,Meng Zhang,Yang Qu,Yi-Lin Wang,Peixun Zhang
出处
期刊:Biomedicine & Pharmacotherapy [Elsevier BV]
卷期号:170: 116024-116024 被引量:58
标识
DOI:10.1016/j.biopha.2023.116024
摘要

Bioactive macromolecular drugs known as Growth Factors (GFs), approved by the Food and Drug Administration (FDA), have found successful application in clinical practice. They hold significant promise for addressing peripheral nerve injuries (PNIs). Peripheral nerve guidance conduits (NGCs) loaded with GFs, in the context of tissue engineering, can ensure sustained and efficient release of these bioactive compounds. This, in turn, maintains a stable, long-term, and effective GF concentration essential for treating damaged peripheral nerves. Peripheral nerve regeneration is a complex process that entails the secretion of various GFs. Following PNI, GFs play a pivotal role in promoting nerve cell growth and survival, axon and myelin sheath regeneration, cell differentiation, and angiogenesis. They also regulate the regenerative microenvironment, stimulate plasticity changes post-nerve injury, and, consequently, expedite nerve structure and function repair. Both exogenous and endogenous GFs, including NGF, BDNF, NT-3, GDNF, IGF-1, bFGF, and VEGF, have been successfully loaded onto NGCs using techniques like physical adsorption, blend doping, chemical covalent binding, and engineered transfection. These approaches have effectively promoted the repair of peripheral nerves. Numerous studies have demonstrated similar tissue functional therapeutic outcomes compared to autologous nerve transplantation. This evidence underscores the substantial clinical application potential of GFs in the domain of peripheral nerve repair. In this article, we provide an overview of GFs in the context of peripheral nerve regeneration and drug delivery systems utilizing NGCs. Looking ahead, commercial materials for peripheral nerve repair hold the potential to facilitate the effective regeneration of damaged peripheral nerves and maintain the functionality of distant target organs through the sustained release of GFs.
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