The metabolic basis of the increase of the increase in energy expenditure in severely burned patients.
about
The Therapeutic Potential of Brown Adipocytes in HumansThe impact of severe burns on skeletal muscle mitochondrial functionNutrition and metabolism in burn patients.iNOS inhibitor, L-NIL, reverses burn-induced glycogen synthase kinase-3β activation in skeletal muscle of rats.Burn injury causes mitochondrial dysfunction in skeletal muscle.Long-term persistance of the pathophysiologic response to severe burn injury.Uncoupled skeletal muscle mitochondria contribute to hypermetabolism in severely burned adults.Propranolol decreases cardiac work in a dose-dependent manner in severely burned children.The role of exercise in the rehabilitation of patients with severe burns.Effects of glucagon-like peptide 1 on glycemia control and its metabolic consequence after severe thermal injury--studies in an animal modelChanges in fat distribution in children following severe burn injurySignificance of transthyretin in protein metabolism.Microarray analysis suggests that burn injury results in mitochondrial dysfunction in human skeletal muscle.Functional significance of inducible nitric oxide synthase induction and protein nitration in the thermally injured cutaneous microvasculature.Inducible nitric oxide synthase deficiency ameliorates skeletal muscle insulin resistance but does not alter unexpected lower blood glucose levels after burn injury in C57BL/6 miceSevere Burn Injury Induces Thermogenically Functional Mitochondria in Murine White Adipose Tissue.Browning of Subcutaneous White Adipose Tissue in Humans after Severe Adrenergic Stress.Skeletal Muscle Protein Breakdown Remains Elevated in Pediatric Burn Survivors up to One-Year Post-Injury.Human mitochondrial oxidative capacity is acutely impaired after burn trauma.Long-Term Skeletal Muscle Mitochondrial Dysfunction is Associated with Hypermetabolism in Severely Burned Children.Differential acute and chronic effects of burn trauma on murine skeletal muscle bioenergeticsUrinary cortisol and catecholamine excretion after burn injury in childrenWhole body and skeletal muscle protein turnover in recovery from burns.Brown adipose tissue and its modulation by a mitochondria-targeted peptide in rat burn injury-induced hypermetabolism.Kidney and Liver Injuries After Major Burns in Rats Are Prevented by Resolvin D2.Does adipose tissue thermogenesis play a role in metabolic health?Mitochondria-targeted antioxidant promotes recovery of skeletal muscle mitochondrial function after burn trauma assessed by in vivo 31P nuclear magnetic resonance and electron paramagnetic resonance spectroscopyNutrition and metabolism in the rehabilitative phase of recovery in burn children: a review of clinical and research findings in a speciality pediatric burn hospital.Modulation of the hypermetabolic response to trauma: temperature, nutrition, and drugsThe hypermetabolic response to burn injury and interventions to modify this responseNutrition in burns: Galveston contributionsAbnormal insulin sensitivity persists up to three years in pediatric patients post-burnInsulin resistance postburn: underlying mechanisms and current therapeutic strategies.The impact of non-severe burn injury on cardiac function and long-term cardiovascular pathologyOxandrolone treatment in adults with severe thermal injury.What, how, and how much should patients with burns be fed?Nutrition and anabolic pharmacotherapies in the care of burn patients.The Impact of Multimorbidity on Resting Metabolic Rate in Community-Dwelling Women over a Ten-Year Period: A Cross-Sectional and Longitudinal Study.Progress in burns research: a review of advances in burn pathophysiology.The metabolic stress response to burn trauma: current understanding and therapies.
P2860
Q26777229-1A2DF5C5-17E0-4D0E-BD1F-A2D6517E366DQ27026797-4EBE90E2-D012-445A-AB1B-4AFBBC9AEB3AQ33568722-FB6C7AEC-87E3-4E9F-9A2E-2662792CA6A3Q33878118-B4114AD9-04C9-422F-ADEC-C1AB2BA43910Q33936721-B1A3CD18-7030-4390-AD9A-6E556EF497E0Q33971060-44D0FEE4-31C9-4177-9B9D-E5061DD354AEQ34130829-1A906FF7-227D-4FAD-B30A-3A0C7D3FDD63Q34433355-71C1DF1D-68F8-43FE-A4E5-669A0E4838E5Q34747041-7475818F-3B88-420A-95E9-1AACE6D04422Q34810392-A3E2E8AA-A630-4A61-B054-416ED60D4E49Q34920165-48C34AD0-5531-430F-86CA-35440F5CFD2BQ35054946-EA55D3C8-B9C2-4FA8-AAA3-4EDEAB1308B2Q35513839-97BE5AF1-E002-45D4-BAD8-9CC33BD28F5BQ35749222-FDF2D3A4-2BEB-4A2F-9502-140B6245B070Q35832665-8DEA019A-FB11-4FDB-8F3D-98B6F02ACB56Q35957477-A1784DE3-5A9C-47C6-86ED-4960566334E3Q35970831-7ED56CF4-41D1-4E10-82D3-58A64E8782DDQ36190868-E238FD54-0342-47C7-A09A-0AA46F5818C5Q36344871-EFBA7792-67C5-4154-90CC-7383EFC684FEQ36404885-347225EE-D55A-4F4A-AC03-8246795B094EQ36495119-8D2D5163-4D61-4191-8312-939D1D1666C7Q36536757-6DFD4CBE-A977-4F45-8015-77308627343FQ36576536-7B9339F1-00A4-4B99-A10E-C46E72700EDFQ36593117-D766EF85-60BF-488F-A647-BCB36ECC7728Q36803237-2DFE3D2E-AC90-4BD2-877E-26DD16C8E483Q36838192-DDEEF4FB-199B-4B6B-8A22-2AA45050B53EQ36860285-D7D8C670-ED89-4D50-89EB-D1C6CA9B659AQ37133591-8A12B8FE-6DA3-44A5-8190-9EC478BFACDDQ37178361-B9A61AF9-FCF7-42A8-A9CD-3C00089F2141Q37181299-841578FB-BF46-4C7A-A545-8BC9649D1BECQ37186721-2B7DF30D-F8C7-4FFF-A4E7-52A45BDE2820Q37198029-314F4895-1554-41C5-8401-5FE73CD7F1B2Q37241722-E38B41D4-574A-4C68-8742-190263128A23Q37303628-902FF7A3-3048-4AA6-8156-D1F58382C1D4Q37377946-279BAFB5-7538-44BE-AB44-DC65225D048FQ37881472-86256952-B7F6-4F9B-89A4-F184E5756C84Q38326632-C9212ECD-1A4D-4EEA-85FF-35113D6C94E4Q38674547-2A84BA9B-59E8-4345-8886-44384E1A968FQ38851267-A9FD6B90-2501-4878-A51A-C3015FE79DB4Q38972966-0B76AC05-5464-43E0-AA8E-F5A0FF1C62CB
P2860
The metabolic basis of the increase of the increase in energy expenditure in severely burned patients.
description
1999 nî lūn-bûn
@nan
1999 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
The metabolic basis of the inc ...... e in severely burned patients.
@ast
The metabolic basis of the inc ...... e in severely burned patients.
@en
type
label
The metabolic basis of the inc ...... e in severely burned patients.
@ast
The metabolic basis of the inc ...... e in severely burned patients.
@en
prefLabel
The metabolic basis of the inc ...... e in severely burned patients.
@ast
The metabolic basis of the inc ...... e in severely burned patients.
@en
P2093
P1476
The metabolic basis of the inc ...... e in severely burned patients.
@en
P2093
P304
P356
10.1177/0148607199023003160
P577
1999-05-01T00:00:00Z