The dorsal skinfold chamber: A versatile tool for preclinical research in tissue engineering and regenerative medicine

The dorsal skinfold chamber is a rodent model for non-invasive microcirculatory analyses of striated muscle and skin tissue throughout an observation period of 2-3 weeks. In combination with intravital fluorescence microscopy, this model allows the quantitative assessment of dynamic processes such a...

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Published in:	European cells & materials Vol. 32; pp. 202 - 215
Main Authors:	Laschke, M W, Menger, M D
Format:	Journal Article
Language:	English
Published:	Switzerland Forum Multimedia Publishing LLC 20-09-2016
Subjects:	angiogenesis Animals biocompatibility dermal substitute flap inflammation microcirculation Prostheses and Implants Regenerative Medicine - methods scaffold skin Skin - blood supply Skin Transplantation Tissue engineering Tissue Engineering - methods Wound Healing
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Abstract	The dorsal skinfold chamber is a rodent model for non-invasive microcirculatory analyses of striated muscle and skin tissue throughout an observation period of 2-3 weeks. In combination with intravital fluorescence microscopy, this model allows the quantitative assessment of dynamic processes such as inflammation, angiogenesis, vascular remodelling and microcirculation. Accordingly, the dorsal skinfold chamber is increasingly used for preclinical research in tissue engineering and regenerative medicine. This includes studies on biocompatibility, vascularisation and incorporation of medical implants and artificial tissue constructs. Moreover, the chamber implantation procedure has been modified to analyse primary and secondary wound healing as well as revascularisation and blood perfusion of dermal substitutes, skin grafts and myocutaneous flaps. Hence, the dorsal skinfold chamber model does not only provide deep insights into fundamental regenerative mechanisms but also represents a versatile tool for the development of novel therapeutic strategies.
AbstractList	The dorsal skinfold chamber is a rodent model for non-invasive microcirculatory analyses of striated muscle and skin tissue throughout an observation period of 2-3 weeks. In combination with intravital fluorescence microscopy, this model allows the quantitative assessment of dynamic processes such as inflammation, angiogenesis, vascular remodelling and microcirculation. Accordingly, the dorsal skinfold chamber is increasingly used for preclinical research in tissue engineering and regenerative medicine. This includes studies on biocompatibility, vascularisation and incorporation of medical implants and artificial tissue constructs. Moreover, the chamber implantation procedure has been modified to analyse primary and secondary wound healing as well as revascularisation and blood perfusion of dermal substitutes, skin grafts and myocutaneous flaps. Hence, the dorsal skinfold chamber model does not only provide deep insights into fundamental regenerative mechanisms but also represents a versatile tool for the development of novel therapeutic strategies.
Author	Laschke, M W Menger, M D
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SubjectTerms	angiogenesis Animals biocompatibility dermal substitute flap inflammation microcirculation Prostheses and Implants Regenerative Medicine - methods scaffold skin Skin - blood supply Skin Transplantation Tissue engineering Tissue Engineering - methods Wound Healing
Title	The dorsal skinfold chamber: A versatile tool for preclinical research in tissue engineering and regenerative medicine
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