Pathophysiologic Response to Severe Burn Injury

Overview

Journal Ann Surg

Specialty General Surgery

Date 2008 Sep 16

PMID 18791359

Citations 286

Authors

Marc G Jeschke

David L Chinkes

Celeste C Finnerty

Gabriela Kulp

Oscar E Suman

William B Norbury

Ludwik K Branski

Gerd G Gauglitz

Ronald P Mlcak

David N Herndon

Affiliations

Soon will be listed here.

Abstract

Objective: To improve clinical outcome and to determine new treatment options, we studied the pathophysiologic response postburn in a large prospective, single center, clinical trial.

Summary Background Data: A severe burn injury leads to marked hypermetabolism and catabolism, which are associated with morbidity and mortality. The underlying pathophysiology and the correlations between humoral changes and organ function have not been well delineated.

Methods: Two hundred forty-two severely burned pediatric patients [>30% total body surface area (TBSA)], who received no anabolic drugs, were enrolled in this study. Demographics, clinical data, serum hormones, serum cytokine expression profile, organ function, hypermetabolism, muscle protein synthesis, incidence of wound infection sepsis, and body composition were obtained throughout acute hospital course.

Results: Average age was 8 +/- 0.2 years, and average burn size was 56 +/- 1% TBSA with 43 +/- 1% third-degree TBSA. All patients were markedly hypermetabolic throughout acute hospital stay and had significant muscle protein loss as demonstrated by a negative muscle protein net balance (-0.05% +/- 0.007 nmol/100 mL leg/min) and loss of lean body mass (LBM) (-4.1% +/- 1.9%); P < 0.05. Patients lost 3% +/- 1% of their bone mineral content (BMC) and 2 +/- 1% of their bone mineral density (BMD). Serum proteome analysis demonstrated profound alterations immediately postburn, which remained abnormal throughout acute hospital stay; P < 0.05. Cardiac function was compromised immediately after burn and remained abnormal up to discharge; P < 0.05. Insulin resistance appeared during the first week postburn and persisted until discharge. Patients were hyperinflammatory with marked changes in IL-8, MCP-1, and IL-6, which were associated with 2.5 +/- 0.2 infections and 17% sepsis.

Conclusions: In this large prospective clinical trial, we delineated the complexity of the postburn pathophysiologic response and conclude that the postburn response is profound, occurring in a timely manner, with derangements that are greater and more protracted than previously thought.

Citing Articles

Early Detection, Diagnosis, Prevention, and Treatment of Infection to Avoid Sepsis and Septic Shock in Severely Burned Patients: A Narrative Review.

Honore P, Blackman S, Perriens E, de Schoutheete J, Jennes S Eur Burn J. 2025; 6(1).

PMID: 39982339 PMC: 11843831. DOI: 10.3390/ebj6010006.

Session Rating of Perceived Exertion Is a Valid Method to Monitor Intensity of Exercise in Adults with Acute Burn Injuries.

Page J, Edgar D, Grisbrook T, Jacques A, Gittings P, Wood F Eur Burn J. 2025; 6(1).

PMID: 39982337 PMC: 11843880. DOI: 10.3390/ebj6010004.

Salivary Proteome Is Altered in Children With Small Area Thermal Burns.

Carlton M, Zang T, Parker T, Punyadeera C, Voisey J, Cuttle L Proteomics Clin Appl. 2025; 19(2):e202300107.

PMID: 39895030 PMC: 11895759. DOI: 10.1002/prca.202300107.

Burn-induced mitochondrial dysfunction in hepatocytes: The role of methylation-controlled J protein silencing.

Pratap A, Meza Monge K, Qualman A, Kovacs E, Idrovo J J Trauma Acute Care Surg. 2025; 98(2):204-211.

PMID: 39760651 PMC: 11838791. DOI: 10.1097/TA.0000000000004537.

Decoding burn trauma: biomarkers for early diagnosis of burn-induced pathologies.

Khalaf F, Touma D, Pappas A, Hatim L, Wojtowicz-Piotrowski S, Jeschke M Biomark Res. 2024; 12(1):160.

PMID: 39716257 PMC: 11668120. DOI: 10.1186/s40364-024-00707-5.

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