人造皮肤。

M Föhn, H Bannasch
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引用次数: 0

摘要

自1871年引入皮肤移植以来,更换皮肤一直是外科医生最具挑战性的目标之一。一个多世纪后,1975年莱茵沃尔德和格林的突破为皮肤替代开辟了新的可能性。细胞培养和高分子化学的结合最终导致了组织工程领域的发展。世界各地的许多研究人员都着迷于创造出一种类似皮肤的体外替代品,而不会对患者造成任何进一步的伤害,尤其是那些大面积烧伤的患者。许多不同的方法创造了新的替代品,基因和干细胞研究的进一步改进导致了今天的皮肤等效物。但是,修复伤口的“金标准”仍然是自体裂厚皮肤移植。未来的研究将致力于开发生物和生理上平等的皮肤替代品来治疗严重烧伤和慢性溃疡。
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Artificial skin.

Replacement of skin has been one of the most challenging aims for surgeons ever since the introduction of skin grafts in 1871. It took more than one century until the breakthrough of Rheinwald and Green in 1975 that opened new possibilities of skin replacement. The combination of cell culture and polymer chemistry finally led to the field of tissue engineering. Many researchers all over the world have been fascinated by the chance of creating a skin-like substitute ex vivo without any further harm to the patients, especially those with massive burns. Many different approaches to create new substitutes and further improvements in genetical and stem cell research led to today's skin equivalents. But still, the "gold standard" for wound coverage is the autologous split-thickness skin graft. Future research will aim at originating biologically and physiologically equal skin substitutes for the treatment of severe burns and chronic ulcers.

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