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Determination of energy requirements after minor burns using indirect calorimetry: A descriptive cohort study

代谢亢进 量热法 医学 四分位间距 体质指数 动物科学 队列 内科学 物理 热力学 生物
作者
Anne‐Françoise Rousseau,Marjorie Fadeur,Jean‐Philippe Fauville,Nadine Hans,F. Martín,Benoît Misset
出处
期刊:Journal of Parenteral and Enteral Nutrition [Wiley]
卷期号:48 (3): 284-290 被引量:2
标识
DOI:10.1002/jpen.2614
摘要

Abstract Background Minor burns could be associated with moderate hypermetabolism. In this study, the primary outcome was measured energy expenditure (mEE) determined by indirect calorimetry in patients with minor burns. We also compared mEE with predictive values and actual energy intakes. Methods Adults with minor burns exclusively treated on an outpatient basis were included. During the week following injury, a dietitian performed indirect calorimetry (Q‐NRG in canopy mode), calculated the estimated energy expenditure (eEE) based on the Harris‐Benedict (HB) and Henry formulas, and evaluated daily energy intakes using a food anamnesis. Results Forty‐nine patients (59.2% male; median age: 35 [interquartile range: 29–46.5] years; body mass index [BMI]: 26.2 [22.3–29.6] kg/m 2 ; burn surface area [BSA]: 1.5% [1%–2%]) were included 4 (2–6) days after injury. The mEE was 1863 (1568–2199) kcal or 25 (22.4–28.5) kcal/kg and 1838 (1686–2026) kcal or 26.1 (23.7–27.7) kcal/kg in patients who were respectively fasting for >10 h or not ( P = 0.991 or P = 0.805). The total mEE was 104% (95%–116%) and 108% (99%–122%) of the total eEE using the HB and Henry formulas, respectively, with diet‐induced thermogenesis and physical activity level. Hypermetabolism (ie, oxygen consumption at rest ≥3.5 ml/kg/min) was observed in 21/49 (42.9%) patients. Energy intakes corresponded to 71% (60%–86%) of the total mEE. Conclusion Performing indirect calorimetry in adults with minor burns revealed that ≥40% of the tested adults presented a hypermetabolism and that their mEE was not covered by their energy intakes.
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