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Mathematical modelling of nitric oxide activity in wound healing can explain keloid and hypertrophic scarring
C. A. Cobbold,
J. A. Sherratt
School of Mathematical & Computer Sciences
Mathematics
Research output
:
Contribution to journal
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Article
›
peer-review
43
Citations (Scopus)
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Dive into the research topics of 'Mathematical modelling of nitric oxide activity in wound healing can explain keloid and hypertrophic scarring'. Together they form a unique fingerprint.
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INIS
mathematical models
100%
healing
100%
wounds
100%
nitric oxide
100%
collagen
33%
tissues
16%
applications
16%
hypothesis
16%
concentration
16%
synthesis
16%
surgery
16%
deposition
16%
steady-state conditions
16%
doses
16%
pathology
16%
free radicals
16%
fibroblasts
16%
Computer Science
Effective Treatment
100%
Healing Process
100%
Treatment Strategy
100%
State Analysis
100%
Mathematical Modeling
100%
Medicine and Dentistry
Scar Formation
100%
Wound Healing
100%
Nitric Oxide
100%
Keloid
100%
Steady State
14%
Fibroblast
14%
Low Drug Dose
14%
Free Radical
14%
Mathematics
Mathematical Modeling
100%
Extended Model
50%
Treatment Strategy
50%