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Low flow oxygenation of full-excisional skin wounds on diabetic mice improves wound healing by accelerating wound closure and reepithelialization
Reto Asmis, Mu Qiao, Qingwei Zhao
Department of Biochemistry & Structural Biology
Department of Medicine
Research output
:
Contribution to journal
›
Article
›
peer-review
22
Scopus citations
Overview
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Dive into the research topics of 'Low flow oxygenation of full-excisional skin wounds on diabetic mice improves wound healing by accelerating wound closure and reepithelialization'. Together they form a unique fingerprint.
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Nursing and Health Professions
Wound
100%
Oxygen
85%
Diabetes Mellitus
57%
Wound Healing
42%
Flow
42%
Combination Therapy
28%
Oxygenation
28%
Flow Rate
28%
Oxygen Therapy
28%
Wound Closure
28%
Control
28%
Patient
28%
Wound Care
14%
Healing
14%
Medicine and Dentistry
Wound
100%
Oxygen
85%
Skin Injury
71%
Diabetes Mellitus
57%
Wound Healing
42%
Combination Therapy
28%
Wound Closure
28%
Epithelization
28%
Oxygen Therapy
28%
Therapeutic Procedure
28%
Wound Care
14%
Healing
14%
Pharmacology, Toxicology and Pharmaceutical Science
Wound
100%
Oxygen
85%
Mouse
71%
Skin Injury
71%
Diabetes Mellitus
57%
Wound Healing
42%
Db/Db Mouse
14%
Healing
14%
Biochemistry, Genetics and Molecular Biology
Mouse
71%
Wound Healing
42%
Flow
42%
Flow Rate
28%
Oxygenation
28%
Epithelization
28%
Db/Db Mouse
14%
Reduction (Chemistry)
14%