Research Techniques Made Simple: Animal Models of Wound Healing

Animal models have been developed to study the complex cellular and biochemical processes of wound repair and to evaluate the efficacy and safety of potential therapeutic agents. Several factors can influence wound healing. These include aging, infection, medications, nutrition, obesity, diabetes, v...

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Vydáno v:	Journal of investigative dermatology Ročník 138; číslo 10; s. 2095
Hlavní autoři:	Grada, Ayman, Mervis, Joshua, Falanga, Vincent
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	United States 01.10.2018
ISSN:	1523-1747, 1523-1747
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Abstract	Animal models have been developed to study the complex cellular and biochemical processes of wound repair and to evaluate the efficacy and safety of potential therapeutic agents. Several factors can influence wound healing. These include aging, infection, medications, nutrition, obesity, diabetes, venous insufficiency, and peripheral arterial disease. Lack of optimal preclinical models that are capable of properly recapitulating human wounds remains a significant translational challenge. Animal models should strive for reproducibility, quantitative interpretation, clinical relevance, and successful translation into clinical use. In this concise review, we discuss animal models used in wound experiments including mouse, rat, rabbit, pig, and zebrafish, with a special emphasis on impaired wound healing models.
AbstractList	Animal models have been developed to study the complex cellular and biochemical processes of wound repair and to evaluate the efficacy and safety of potential therapeutic agents. Several factors can influence wound healing. These include aging, infection, medications, nutrition, obesity, diabetes, venous insufficiency, and peripheral arterial disease. Lack of optimal preclinical models that are capable of properly recapitulating human wounds remains a significant translational challenge. Animal models should strive for reproducibility, quantitative interpretation, clinical relevance, and successful translation into clinical use. In this concise review, we discuss animal models used in wound experiments including mouse, rat, rabbit, pig, and zebrafish, with a special emphasis on impaired wound healing models.Animal models have been developed to study the complex cellular and biochemical processes of wound repair and to evaluate the efficacy and safety of potential therapeutic agents. Several factors can influence wound healing. These include aging, infection, medications, nutrition, obesity, diabetes, venous insufficiency, and peripheral arterial disease. Lack of optimal preclinical models that are capable of properly recapitulating human wounds remains a significant translational challenge. Animal models should strive for reproducibility, quantitative interpretation, clinical relevance, and successful translation into clinical use. In this concise review, we discuss animal models used in wound experiments including mouse, rat, rabbit, pig, and zebrafish, with a special emphasis on impaired wound healing models. Animal models have been developed to study the complex cellular and biochemical processes of wound repair and to evaluate the efficacy and safety of potential therapeutic agents. Several factors can influence wound healing. These include aging, infection, medications, nutrition, obesity, diabetes, venous insufficiency, and peripheral arterial disease. Lack of optimal preclinical models that are capable of properly recapitulating human wounds remains a significant translational challenge. Animal models should strive for reproducibility, quantitative interpretation, clinical relevance, and successful translation into clinical use. In this concise review, we discuss animal models used in wound experiments including mouse, rat, rabbit, pig, and zebrafish, with a special emphasis on impaired wound healing models.
Author	Falanga, Vincent Grada, Ayman Mervis, Joshua
Author_xml	– sequence: 1 givenname: Ayman surname: Grada fullname: Grada, Ayman email: Grada@bu.edu organization: Department of Dermatology, Boston University School of Medicine, Boston, Massachusetts, USA. Electronic address: Grada@bu.edu – sequence: 2 givenname: Joshua surname: Mervis fullname: Mervis, Joshua organization: Boston University School of Medicine, Boston, Massachusetts, USA – sequence: 3 givenname: Vincent surname: Falanga fullname: Falanga, Vincent organization: Department of Dermatology, Boston University School of Medicine, Boston, Massachusetts, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/30244718$$D View this record in MEDLINE/PubMed
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