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The impact of severe burns on skeletal muscle mitochondrial function
Craig Porter
, David N. Herndon
, Labros S. Sidossis
, Elisabet Børsheim
Surgery
Internal Medicine
Research output
:
Contribution to journal
›
Review article
›
peer-review
64
Scopus citations
Overview
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Dive into the research topics of 'The impact of severe burns on skeletal muscle mitochondrial function'. Together they form a unique fingerprint.
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Keyphrases
Mitochondrial Function
100%
Skeletal muscle
100%
Severe Burns
100%
Functional Capacity
40%
Pathophysiological Responses
40%
Metabolism
20%
Burn Patients
20%
Inflammation
20%
Poor Outcome
20%
Insulin Resistance
20%
Skeletal muscle Function
20%
Contractile Proteins
20%
Glucose Disposal
20%
Muscle Wasting
20%
Per Se
20%
Acute Phase Proteins
20%
Hypermetabolism
20%
Metabolic Dysfunction
20%
Endogenous Amino Acid
20%
Physiological Systems
20%
Depot
20%
Lean Tissue
20%
Thermal Trauma
20%
Metabolic Health
20%
Mitochondrial number
20%
Mitochondrial Content
20%
Healthcare Capacity
20%
Renewing
20%
Metabolic Regulation
20%
Skeletal muscle Quality
20%
Medicine and Dentistry
Thermal Burn
100%
Skeletal Muscle
100%
Functional Status
28%
Thermal Injury
14%
Insulin Resistance
14%
Muscle Function
14%
Amino Acid
14%
Muscle Atrophy
14%
Acute Phase Protein
14%
Hypermetabolism
14%
Metabolic Regulation
14%
Lean Tissue
14%
Contractile Protein
14%
Pharmacology, Toxicology and Pharmaceutical Science
Burn
100%
Functional Status
33%
Thermal Injury
16%
Inflammation
16%
Amino Acid
16%
Contractile Protein
16%
Insulin Resistance
16%
Acute Phase Protein
16%
Muscle Atrophy
16%
Hypermetabolism
16%
Immunology and Microbiology
Skeletal Muscle
100%
Functional Status
28%
Acute Phase Protein
14%
Insulin Resistance
14%
Muscle Function
14%
Metabolic Regulation
14%
Lean Tissue
14%
Amino Acid
14%
Muscle
14%
Trauma
14%
Contractile Protein
14%