000			02210cam a2200289zu 4500
001			88832045
003			FRCYB88832045
005			20250107103910.0
006			m o d
007			cr un
008			250107s2016 fr | o|||||0|0|||eng d
020			_a9780128016541
035			_aFRCYB88832045
040			_aFR-PaCSA _ben _c _erda
100	1		_aAlbanna, Mohammad
245	0	1	_aSkin Tissue Engineering and Regenerative Medicine _c['Albanna, Mohammad', 'Holmes Iv, James H']
264		1	_bElsevier Science _c2016
300			_a p.
336			_btxt _2rdacontent
337			_bc _2rdamdedia
338			_bc _2rdacarrier
650		0	_a
700	0		_aAlbanna, Mohammad
700	0		_aHolmes Iv, James H
856	4	0	_2Cyberlibris _uhttps://international.scholarvox.com/netsen/book/88832045 _qtext/html _a
520			_aThe skin is the largest human organ system. Loss of skin integrity due to injury or illness results in a substantial physiologic imbalance and ultimately in severe disability or death. From burn victims to surgical scars and plastic surgery, the therapies resulting from skin tissue engineering and regenerative medicine are important to a broad spectrum of patients. Skin Tissue Engineering and Regenerative Medicine provides a translational link for biomedical researchers across fields to understand the inter-disciplinary approaches which expanded available therapies for patients and additional research collaboration. This work expands on the primary literature on the state of the art of cell therapies and biomaterials to review the most widely used surgical therapies for the specific clinical scenarios. Explores cellular and molecular processes of wound healing, scar formation, and dermal repairIncludes examples of animal models for wound healing and translation to the clinical worldPresents the current state of, and clinical opportunities for, extracellular matrices, natural biomaterials, synthetic biomaterials, biologic skin substitutes, and adult and fetal stem and skin cells for skin regenerative therapies and wound managementDiscusses new innovative approaches for wound healing including skin bioprinting and directed cellular therapies
999			_c14598 _d14598