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Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine
Published in: Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine 1/2018

Open Access 01-12-2018 | Original research

Factors associated with acute kidney injury in the Helsinki Burn Centre in 2006–2015

Authors: I. Rakkolainen, J. V. Lindbohm, J. Vuola

Published in: Scandinavian Journal of Trauma, Resuscitation and Emergency Medicine | Issue 1/2018

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Abstract

Background

Acute kidney injury (AKI) is a common complication in severe burns and can lead to significantly poorer outcomes. Although the prognosis has improved in recent decades, the mortality of AKI remains considerable. We investigated the factors that increase the risk of AKI and death after severe burn injury.

Methods

Intensive care patients with ≥20% burned total body surface area (TBSA%) between January 2006 and December 2015 treated in Helsinki Burn Centre were enrolled retrospectively. Patients who arrived > 36 h after burn injury or died < 48 h from arrival were excluded. A total of 187 patients were included in the final analysis. Serum creatinine ≥120 μmol/l (1.4 mg/dl) was the criterion for AKI.

Results

Fifty-one patients (27.3%) developed AKI during hospital stay and 21 (11.2%) required renal replacement therapy (RRT); 37 patients (19.8%) died during hospital stay. Mortality was significantly higher in the AKI group (52.9%) than in the AKI-negative group (7.4%). The Abbreviated Burn Severity Index (ABSI), Baux, and the modified Baux score were nearly equivalent in predicting mortality during ICU stay (AUC: 0.83–0.84). The risk of death and AKI were minimal with Baux scores < 80. LD50 was 112 for Baux score in all patients. In flame burns, the risk of death increased rapidly after Baux score > 80. Multivariate logistic regression model detected age, TBSA%, sepsis, and rhabdomyolysis as independent risk factors for AKI. Age (per 10 yrs. OR 1.99), TBSA% (per 10% OR 1.64), and AKI predicted mortality during hospital stay; AKI had an odds ratio of (OR) of 5.97 (95% confidence interval [CI] 2.2–16.2).

Conclusions

Age, TBSA%, and AKI were the strongest independent factors in predicting outcome in severe burns. Even a major burn (> 50% TBSA) has a relatively good prognosis without simultaneous AKI. Prognosis is poorer even in minor burns for patients with AKI.
Appendix
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Literature
1.
Wu G, Xiao Y, Wang C, Hong X, Sun Y, Ma B, et al. Risk factors for acute kidney injury in patients with burn injury: a meta-analysis and systematic review. J Burn Care Res. 2017;38(5):271–82.
2.
Brusselaers N, Monstrey S, Colpaert K, Decruyenaere J, Blot SI, Hoste EAJ. Outcome of acute kidney injury in severe burns: a systematic review and meta-analysis. Intensive Care Med Springer-Verlag. 2010;36(6):915–25.CrossRef
3.
Mustonen K-M, Vuola J. Acute renal failure in intensive care burn patients (ARF in burn patients). J Burn Care Res. 2008;29(1):227–37.CrossRef
4.
Palmieri T, Lavrentieva A, Greenhalgh DG. Acute kidney injury in critically ill burn patients. Risk factors, progression and impact on mortality. Burns. 2010;36(2):205–11.CrossRef
5.
Clemens MS, Stewart IJ, Sosnov JA, Howard JT, Belenkiy SM, Sine CR, et al. Reciprocal risk of acute kidney injury and acute respiratory distress syndrome in critically ill burn patients. Crit Care Med. 2016;44(10):e915–22.CrossRef
6.
Holm C, Hörbrand F, Donnersmarck von GH, Mühlbauer W. Acute renal failure in severely burned patients. Burns. 1999;25(2):171–8.CrossRef
7.
Clark A, Neyra JA, Madni T, Imran J, Phelan H, Arnoldo B, et al. Acute kidney injury after burn. Burns. 2017;43(5):898–908.CrossRef
8.
Witkowski W, Kawecki M, Surowiecka-Pastewka A, Klimm W, Szamotulska K, Niemczyk S. Early and late acute kidney injury in severely burned patients. Med Sci Monit. 2016;22:3755–63.CrossRef
9.
Schneider DF, Dobrowolsky A, Shakir IA, Sinacore JM, Mosier MJ, Gamelli RL. Predicting acute kidney injury among burn patients in the 21st century: a classification and regression tree analysis. J Burn Care Res. 2012;33(2):242–51.CrossRef
10.
Kym D, Cho YS, Yoon J, Yim H, Yang HT. Evaluation of diagnostic biomarkers for acute kidney injury in major burn patients. Ann Surg Treat Res. 2015;88(5):281–8.CrossRef
11.
Mosier MJ, Pham TN, Klein MB, Gibran NS, Arnoldo BD, Gamelli RL, et al. Early acute kidney injury predicts progressive renal dysfunction and higher mortality in severely burned adults. J Burn Care Res. 2010;31(1):83–92.CrossRef
12.
Aikawa N, Wakabayashi G, Ueda M, Shinozawa Y. Regulation of renal function in thermal injury. J Trauma. 1990;30(12 Suppl):S174–8.CrossRef
13.
Davies MP, Evans J, McGonigle RJ. The dialysis debate: acute renal failure in burns patients. Burns. 1994;20(1):71–3.CrossRef
14.
Tobiasen J, Hiebert JM, Edlich RF. The abbreviated burn severity index. Ann Emerg Med. 1982;11(5):260–2.CrossRef
15.
Baux S. Contribution a l’Etude du traitement local des brulures thermigues etendues. Paris: These; 1961.
16.
Osler T, Glance LG, Hosmer DW. Simplified estimates of the probability of death after burn injuries: extending and updating the baux score. J Trauma. 2010;68(3):690–7.CrossRef
17.
Sharp LS, Rozycki GS, Feliciano DV. Rhabdomyolysis and secondary renal failure in critically ill surgical patients. Am J Surg. 2004;188(6):801–6.CrossRef
18.
Thalji SZ, Kothari AN, Kuo PC, Mosier MJ. Acute kidney injury in burn patients: clinically significant over the initial hospitalization and 1 year after injury: an original retrospective cohort study. Ann Surg. 2017;266(2):376-82.
19.
Mehta RL, Kellum JA, Shah SV, Molitoris BA, Ronco C, Warnock DG, et al. Acute kidney injury network: report of an initiative to improve outcomes in acute kidney injury. Crit Care. 2007;11(2)R31
20.
Nguyen MT, Devarajan P. Biomarkers for the early detection of acute kidney injury. Pediatr Nephrol Springer-Verlag. 2008;23(12):2151–7.CrossRef
21.
Queiroz LFT, Anami EHT, Zampar EF, Tanita MT, Cardoso LTQ, Grion CMC. Epidemiology and outcome analysis of burn patients admitted to an intensive care unit in a university hospital. Burns. 2016 May;42(3):655–62.CrossRef
22.
Thombs BD, Singh VA, Halonen J, Diallo A, Milner SM. The effects of preexisting medical comorbidities on mortality and length of hospital stay in acute burn injury: evidence from a national sample of 31,338 adult patients. Ann Surg. 2007;245(4):629–34.CrossRef
23.
Pompermaier L, Steinvall I, Fredrikson M, Sjöberg F. Inclusion of coexisting morbidity in a TBSA% and age based model for the prediction of mortality after burns does not increase its predictive power. Burns. 2015;41(8):1868–76.CrossRef
24.
Stewart IJ, Cotant CL, Tilley MA, Huzar TF, Aden JK, Snow BD, et al. Association of rhabdomyolysis with renal outcomes and mortality in burn patients. J Burn Care Res. 2013;34(3):318–25.CrossRef
25.
Koski A, Koljonen V, Vuola J. Rhabdomyolysis caused by hot air sauna burn. Burns. 2005;31(6):776–9.CrossRef
26.
Koljonen V. Hot air sauna burns--review of their etiology and treatment. J Burn Care Res. 2009;30(4):705–10.CrossRef
27.
Aldemir M, Kara IH, Girgin S, Güloglu C. Factors affecting mortality and epidemiological data in patients hospitalised with burns in Diyarbakir. Turkey S Afr J Surg. 2005;43(4):159–62.PubMed
28.
Coca SG, Bauling P, Schifftner T, Howard CS, Teitelbaum I, Parikh CR. Contribution of acute kidney injury toward morbidity and mortality in burns: a contemporary analysis. Am J Kidney Dis. 2007;49(4):517–23.CrossRef
29.
McGwin G, George RL, Cross JM, Reiff DA, Chaudry IH, Rue LW. Gender differences in mortality following burn injury. Shock. 2002;18(4):311–5.CrossRef
30.
Steinvall I, Fredrikson M, Bak Z, Sjöberg F. Mortality after thermal injury: no sex-related difference. J Trauma. 2011;70(4):959–64.CrossRef
31.
Dokter J, Meijs J, Oen IMMH, van Baar ME, van der Vlies CH, Boxma H. External validation of the revised Baux score for the prediction of mortality in patients with acute burn injury. J Trauma Acute Care Surg. 2014;76(3):840–5.CrossRef
32.
Heng JS, Clancy O, Atkins J, Leon-Villapalos J, Williams AJ, Keays R, et al. Revised Baux score and updated Charlson comorbidity index are independently associated with mortality in burns intensive care patients. Burns. 2015;41(7):1420–7.CrossRef
33.
Pantet O, Faouzi M, Brusselaers N, Vernay A, Berger MM. Comparison of mortality prediction models and validation of SAPS II in critically ill burns patients. Ann Burns Fire Disasters. 2016;29(2):123–9.PubMedPubMedCentral
34.
Brusselaers N, Agbenorku P, Hoyte-Williams PE. Assessment of mortality prediction models in a Ghanaian burn population. Burns. 2013;39(5):997–1003.CrossRef
35.
Tsurumi A, Que Y-A, Yan S, Tompkins RG, Rahme LG, Ryan CM. Do standard burn mortality formulae work on a population of severely burned children and adults? Burns. 2015;41(5):935–45.CrossRef
36.
Wibbenmeyer LA, Amelon MJ, Morgan LJ, Robinson BK, Chang PX, Lewis R, et al. Predicting survival in an elderly burn patient population. Burns. 2001;27(6):583–90.CrossRef
37.
Pompermaier L, Steinvall I, Elmasry M, Thorfinn J, Sjöberg F. Burned patients who die from causes other than the burn affect the model used to predict mortality: a national exploratory study. Burns. 2017;44(2):280–7.CrossRef
38.
Akerlund E, Huss FRM, Sjöberg F. Burns in Sweden: an analysis of 24,538 cases during the period 1987-2004. Burns. 2007;33(1):31–6.CrossRef
39.
Bang RL, Ghoneim IE. Epidemiology and mortality of 162 major burns in Kuwait. Burns. 1996;22(6):433–8.CrossRef
40.
Roberts G, Lloyd M, Parker M, Martin R, Philp B, Shelley O, et al. The Baux score is dead. Long live the Baux score: a 27-year retrospective cohort study of mortality at a regional burns service. J Trauma Acute Care Surg. 2012;72(1):251–6.CrossRef
41.
Steinvall I, Elmasry M, Fredrikson M, Sjöberg F. Standardised mortality ratio based on the sum of age and percentage total body surface area burned is an adequate quality indicator in burn care: an exploratory review. Burns. 2016;42(1):28–40.CrossRef
Metadata
Title
Factors associated with acute kidney injury in the Helsinki Burn Centre in 2006–2015
Authors
I. Rakkolainen
J. V. Lindbohm
J. Vuola
Publication date
01-12-2018
Publisher
BioMed Central
DOI
https://doi.org/10.1186/s13049-018-0573-3

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