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Wound trauma mediated inflammatory signaling attenuates a tissue regenerative response in MRL/MpJ mice
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نویسنده
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zins s.r. ,amare m.f. ,anam k. ,elster e.a. ,davis t.a.
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منبع
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journal of inflammation - 2010 - دوره : 7 - شماره : 0
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چکیده
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Background. severe trauma can induce pathophysiological responses that have marked inflammatory components. the development of systemic inflammation following severe thermal injury has been implicated in immune dysfunction,delayed wound healing,multi-system organ failure and increased mortality. methods. in this study,we examined the impact of thermal injury-induced systemic inflammation on the healing response of a secondary wound in the mrl/mpj mouse model,which was anatomically remote from the primary site of trauma,a wound that typically undergoes scarless healing in this specific strain. ear-hole wounds in mrl/mpj mice have previously displayed accelerated healing and tissue regeneration in the absence of a secondary insult. results. severe thermal injury in addition to distal ear-hole wounds induced marked local and systemic inflammatory responses in the lungs and significantly augmented the expression of inflammatory mediators in the ear tissue. by day 14,61% of the ear-hole wounds from thermally injured mice demonstrated extensive inflammation with marked inflammatory cell infiltration,extensive ulceration,and various level of necrosis to the point where a large percentage (38%) had to be euthanized early during the study due to extensive necrosis,inflammation and ear deformation. by day 35,ear-hole wounds in mice not subjected to thermal injury were completely closed,while the ear-hole wounds in thermally injured mice exhibited less inflammation and necrosis and only closed partially (62%). thermal injury resulted in marked increases in serum levels of il-6,tnf,kc (cxcl1),and mip-2 (cxcl2). interestingly,attenuated early ear wound healing in the thermally injured mouse resulted in incomplete tissue regeneration in addition to a marked inflammatory response,as evidenced by the histological appearance of the wound and increased transcription of potent inflammatory mediators. conclusion. these findings suggest that the observed systemic inflammatory response of a severe thermal injury undoubtedly has an adverse effect on wound healing and tissue regeneration. © 2010 zins et al; licensee biomed central ltd.
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آدرس
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regenerative medicine department,operational and undersea medicine directorate,naval medical research center silver spring,md 20910-7500, United States, regenerative medicine department,operational and undersea medicine directorate,naval medical research center silver spring,md 20910-7500, United States, regenerative medicine department,operational and undersea medicine directorate,naval medical research center silver spring,md 20910-7500, United States, regenerative medicine department,operational and undersea medicine directorate,naval medical research center silver spring,md 20910-7500,united states,department of surgery,uniformed services university of the health sciences,bethesda,md 20814, United States, regenerative medicine department,operational and undersea medicine directorate,naval medical research center silver spring,md 20910-7500, United States
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Authors
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