富血小板血浆及其衍生物的最新进展:组织工程和再生医学的治疗剂

Sayanti Shome, M. Kodieswaran, Rajat Dadheech, Maheshwari Chevella, Sreemoyee Sensharma, Sanu Awasthi, Ashutosh Bandyopadhyay, B. Mandal
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摘要

富血小板血浆(PRP)是一种富含生物活性因子和趋化因子的血浆悬浮液。血小板是一种独特的膜结合蛋白和可溶性蛋白的来源,这些蛋白在被激活后被释放。较高的血小板计数使PRP具有一系列的组织再生能力。PRP可以以含血小板血浆、血小板裂解物血浆或预凝胶化纤维蛋白基质的形式使用。PRP已成为各种组织(如肌肉骨骼、心血管和真皮组织)愈合和再生中生长因子的重要替代来源,并在其他组织(如肝脏和神经组织)中有额外的应用。已经为实验室和商业规模的各种形式的PRP制定了广泛的制备和分离策略。与此同时,PRP已经发现其作为一种活性成分适用于几种组织再生方法,包括3D打印/生物打印构建、可注射水凝胶和交联支架。本文综述了PRP的各种形式及其制备方法,PRP在组织工程中的最新应用,以及利用PRP进行的各种组织特异性临床试验和研究结果。我们进一步讨论了PRP的制备、递送和长期储存方法的优化。因此,本文旨在通过对prp治疗药物在组织工程中的广泛应用提供全面的见解,从而有利于prp治疗药物在组织工程中的研究范围。我们相信PRP可以在临床前和临床环境中对未来患者特异性组织工程应用起到重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent advances in platelet-rich plasma and its derivatives: therapeutic agents for tissue engineering and regenerative medicine
Platelet rich plasma (PRP) is a suspension of bioactive factors and chemokine enriched plasma. Platelets are a distinctive source of membrane bound and soluble proteins that are released upon their activation. The higher count of platelets renders PRP with an array of tissue regenerative abilities. PRP can be employed in the form of platelet containing plasma, platelet lysate plasma, or in the form of a pre-gelled fibrin matrix. PRP has been an essential alternative source of growth factors in the healing and regeneration of various tissues, such as musculoskeletal, cardiovascular, and dermal tissue, with additional applications in other tissues, such as hepatic and neural. A wide range of preparative and isolation strategies have been developed for various forms of PRP at laboratory and commercial scales. Concomitantly, PRP has found its applicability as an active component in several tissue regenerative approaches, including 3D printed/bioprinted constructs, injectable hydrogels, and crosslinked scaffolds. This review focuses on the various forms of PRP and their preparation methods, the latest tissue engineering applications of PRP, and the various tissue-specific clinical trials and findings conducted using PRP. We have further discussed the optimizations required in the methods of preparation, delivery, and long-term storage of PRP. Therefore, this review seeks to benefit the scope of research on PRP-based therapeutic agents in tissue engineering by providing comprehensive insights into the widespread application. We believe PRP could be instrumental in future patient-specific tissue engineering applications in both pre-clinical and clinical settings.
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