三维生物打印人体皮肤的设计与制造

Rabia Sannam Khan, Qudoos Yousuf
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引用次数: 0

摘要

皮肤作为人体最大的组成部分,在维持体内平衡和维护人体安全方面起着至关重要的作用。皮肤的分层、分类和复杂的排列,通过维持和调节代谢产物和水分离开身体的运输,为身体提供物理保护。化学或物理创伤后产生的损伤可引起皮肤屏障及其生理功能的损害在皮肤损伤中,相当多的皮肤可能会丢失,因此替换受损皮肤的损伤至关重要。为了保护身体大量的水分和保护身体免受机会性病原体的侵害,移植可以取代受损的皮肤。皮肤移植还可以加快创面的恢复过程,支持和修复创面屏障,维持创面的调节功能。2,3除了移植物外,组织工程皮肤在体外阶段对皮肤渗透性和不良炎症反应的评估中起着非常有益的作用。与动物皮肤相比,组织工程皮肤具有几个优点,其主要意义在于模仿皮肤生理学和减轻动物使用的伦理问题。此外,组织工程皮肤模型也为了解皮肤病的病因提供了重要的见解,从而阐明了皮肤病的病理生理机制,以便了解病情的进展,并有助于皮肤病的治疗。人们已经看到,许多工具已经可以用于组织工程,并且正在采用不同的新方法和技术,其中3D生物打印提供了许多显着的优势,因为它可以分配活细胞,相变水凝胶,不溶性因子并在期望的模式下保持高细胞活力
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and fabrication of human skin by threedimensional bioprinti
Skin has an essential role in preserving homeostasis and in maintaining the safety of the human body from outside environment by playing its role as the largest body part of human. The stratified, categorized and complex arrangement of skin gives a physical protection to the body by maintaining and regulate the transportation of metabolites and water off the body. The injuries that can originate after any chemical or physical trauma can cause impairment of skin barrier and its physiological functions.1 In skin injuries, considerable amount of skin can be lost, and it develops extremely critical to replace injury caused impaired skin. Transplants in order to protect the lots of water from body and to save the body from opportunistic pathogens can replace the impaired skin. Skin grafts can also expedite the wound recovery procedure and support and restore the barrier and can maintain the regulatory functions on the site of wound.2,3 Apart from grafts tissue engineered skin plays an exceptionally beneficial role and in vitro stage for the evaluation of skin permeability and adverse inflammation response. The tissue-engineered skin has several advantages in comparison to animal skin by having the major significance by mimicking the skin physiology and easing the ethical concerns of animal use. Additionally, tissue engineered skin models also give the significant insights into the causes of skin diseases, hence, explicate the pathophysiological mechanisms in order to see the progression, and can help in the treatment of skin disease.4,5 It has been seen that numerous tools have become accessible for the tissue engineering and are adopting different novel approaches and technologies, and amongst these 3D bioprinting offers many significant advantages Since it is possible of dispensing live cells, phase changing hydrogels, insoluble factors and maintaining high cell viability in a desired pattern.6
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