Ioannis Malagaris1, David N Herndon2, Efstathia Polychronopoulou1, Victoria G Rontoyanni3, Clark R Andersen4, Oscar E Suman3, Craig Porter5, Labros S Sidossis3. 1. Rehabilitation Sciences, University of Texas Medical Branch, Galveston, TX, USA; Metabolism Unit, Shriners Hospitals for Children, Galveston, Texas, USA. 2. Department of Surgery, University of Texas Medical Branch, Galveston, TX, USA; Metabolism Unit, Shriners Hospitals for Children, Galveston, Texas, USA; Institute of Translational Sciences, University of Texas Medical Branch, Galveston, TX, USA. Electronic address: dherndon@UTMB.edu. 3. Department of Surgery, University of Texas Medical Branch, Galveston, TX, USA; Metabolism Unit, Shriners Hospitals for Children, Galveston, Texas, USA. 4. Department of Surgery, University of Texas Medical Branch, Galveston, TX, USA. 5. Department of Surgery, University of Texas Medical Branch, Galveston, TX, USA; Metabolism Unit, Shriners Hospitals for Children, Galveston, Texas, USA; Institute of Translational Sciences, University of Texas Medical Branch, Galveston, TX, USA.
Abstract
BACKGROUND & AIMS: Burns remain the fifth cause of non-fatal pediatric injuries globally, with muscle cachexia being a hallmark of the stress response to burns. Burn-induced muscle wasting is associated with morbidity, yet the determinants of muscle protein catabolism in response to burn trauma remains unclear. Our objective was to determine the effect of patient and injury characteristics on muscle protein kinetics in burn patients. METHODS: This retrospective, observational study was performed using protein kinetic data from pediatric patients who had severe burns (>30% of the total body surface area burned) and underwent cross-limb stable isotope infusions between 1999 and 2008 as part of prospective clinical trials. Mixed multiple regression models were used to assess associations between patient/injury characteristics and muscle protein fractional synthesis rate (FSR), net balance (NB), and rates of phenylalanine appearance (Ra; index of protein breakdown) and disappearance (Rd; index of protein synthesis) across the leg. RESULTS: A total of 268 patients who underwent 499 studies were analyzed. Increasing time post injury was associated with greater FSR (p < 0.001) and NB (p = 0.01). Males were more catabolic than females (as indicated by lower NB, p = 0.04 and greater Ra, p = 0.008), a consequence of higher protein breakdown rather than lower synthesis. Increasing burn size was associated with higher protein synthesis rate (as indicated by higher FSR, p = 0.019) and higher protein breakdown rates (as indicated by greater Ra, p = 0.001). FSR was negatively associated with age (p < 0.001). CONCLUSIONS: Data from this large patient cohort show that injury severity, sex, and time post injury influence skeletal muscle wasting in burned children. These findings suggest that individual patient characteristics should be considered when devising therapies to improve the acute care and rehabilitation of burn survivors.
BACKGROUND & AIMS: Burns remain the fifth cause of non-fatal pediatric injuries globally, with muscle cachexia being a hallmark of the stress response to burns. Burn-induced muscle wasting is associated with morbidity, yet the determinants of muscle protein catabolism in response to burn trauma remains unclear. Our objective was to determine the effect of patient and injury characteristics on muscle protein kinetics in burn patients. METHODS: This retrospective, observational study was performed using protein kinetic data from pediatric patients who had severe burns (>30% of the total body surface area burned) and underwent cross-limb stable isotope infusions between 1999 and 2008 as part of prospective clinical trials. Mixed multiple regression models were used to assess associations between patient/injury characteristics and muscle protein fractional synthesis rate (FSR), net balance (NB), and rates of phenylalanine appearance (Ra; index of protein breakdown) and disappearance (Rd; index of protein synthesis) across the leg. RESULTS: A total of 268 patients who underwent 499 studies were analyzed. Increasing time post injury was associated with greater FSR (p < 0.001) and NB (p = 0.01). Males were more catabolic than females (as indicated by lower NB, p = 0.04 and greater Ra, p = 0.008), a consequence of higher protein breakdown rather than lower synthesis. Increasing burn size was associated with higher protein synthesis rate (as indicated by higher FSR, p = 0.019) and higher protein breakdown rates (as indicated by greater Ra, p = 0.001). FSR was negatively associated with age (p < 0.001). CONCLUSIONS: Data from this large patient cohort show that injury severity, sex, and time post injury influence skeletal muscle wasting in burned children. These findings suggest that individual patient characteristics should be considered when devising therapies to improve the acute care and rehabilitation of burn survivors.
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