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Gender affects skin wound healing in plasminogen deficient mice
Birgitte Rønø,
Lars Henning Engelholm
, Leif Røge Lund, Andreas Hald
14
Citations (Scopus)
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Dive into the research topics of 'Gender affects skin wound healing in plasminogen deficient mice'. Together they form a unique fingerprint.
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Keyphrases
Skin Wound Healing
100%
Plasminogen
100%
Gene-deficient Mice
100%
Plasmin
100%
Skin Cancer
15%
Male Mice
15%
Tumor Growth
15%
Female Mice
15%
Fibrin
15%
Extravascular
7%
Metastasis
7%
Damaged Tissue
7%
Fibrin Deposition
7%
Blood Clot
7%
Female Sex Hormones
7%
Cancer Model
7%
Provisional Matrix
7%
Granulation Tissue
7%
Blood Clearance
7%
Gender-dependent
7%
Cell Infiltration
7%
Ovariectomy
7%
Histological Examination
7%
Phenotypic Characteristics
7%
Skin Wound
7%
Vital Functions
7%
Wound Healing
7%
Skin Thickness
7%
Malignant Cells
7%
Wound Closure
7%
Fibrinolytic Activity
7%
Pharmacology, Toxicology and Pharmaceutical Science
Skin Injury
100%
Plasmin
100%
Wound Healing
100%
Plasminogen
100%
Tumor Growth
15%
Wound
15%
Skin Cancer
15%
Cancer Model
7%
Obstruction
7%
Granulation Tissue
7%
Sex Hormone
7%
Fibrinolytic Agent
7%
Immunology and Microbiology
Wound Healing
100%
Plasmin
100%
Immunocompetent Cell
15%
Cell Migration
15%
Fibrinolysis
7%
Granulation Tissue
7%
Fibrin Deposition
7%
Blood Clot
7%
Cell Infiltration
7%
Plasma Clearance
7%
Neuroscience
Plasminogen
100%
Fibrinolysin
100%
Cell Migration
15%
Cell Infiltration
7%
Cancer Model
7%
Sex Hormone
7%