ABSTRACT
Objective:
To evaluate the influence of patient characteristics on hyperlactatemia in an infected population admitted to intensive care units and the influence of hyperlactatemia severity on hospital mortality.
Methods:
A post hoc analysis of hyperlactatemia in the INFAUCI study, a national prospective, observational, multicenter study, was conducted in 14 Portuguese intensive care units. Infected patients admitted to intensive care units with a lactate measurement in the first 12 hours of admission were selected. Sepsis was identified according to the Sepsis-2 definition accepted at the time of data collection. The severity of hyperlactatemia was classified as mild (2 - 3.9mmol/L), moderate (4.0 - 9.9mmol/L) or severe (> 10mmol/L).
Results:
In a total of 1,640 patients infected on admission, hyperlactatemia occurred in 934 patients (57%), classified as mild, moderate and severe in 57.0%, 34.4% and 8.7% of patients, respectively. The presence of hyperlactatemia and a higher degree of hyperlactatemia were both associated with a higher Simplified Acute Physiology Score II, a higher Charlson Comorbidity Index and the presence of septic shock. The lactate Receiver Operating Characteristic curve for hospital mortality had an area under the curve of 0.64 (95%CI 0.61 - 0.72), which increased to 0.71 (95%CI 0.68 - 0.74) when combined with Sequential Organ Failure Assessment score. In-hospital mortality with other covariates adjusted by Simplified Acute Physiology Score II was associated with moderate and severe hyperlactatemia, with odds ratio of 1.95 (95%CI 1.4 - 2.7; p < 0.001) and 4.54 (95%CI 2.4 - 8.5; p < 0.001), respectively.
Conclusion:
Blood lactate levels correlate independently with in-hospital mortality for moderate and severe degrees of hyperlactatemia.
Keywords:
Hyperlactatemia; Infections; Lactate; Hospital mortality; Prognosis; Intensive care units
RESUMO
Objetivo:
Avaliar a influência das características dos pacientes na hiperlactatemia em uma população admitida com infecção em unidades de terapia intensiva, bem como a influência da gravidade da hiperlactatemia na mortalidade hospitalar.
Metódos:
Foi realizada uma análise post hoc da hiperlactatemia no INFAUCI, um estudo nacional prospectivo, observacional e multicêntrico, que incluiu 14 unidades de terapia intensiva portuguesas. Foram selecionados pacientes admitidos com infecção em unidades de terapia intensiva com dosagem de lactato nas primeiras 12 horas de admissão. A sepse foi identificada de acordo com a definição Sepsis-2 aceita no momento da coleta de dados. A gravidade da hiperlactatemia foi classificada como leve (2 - 3,9mmol/L), moderada (4,0 - 9,9mmol/L) ou grave (> 10mmol/L).
Resultados:
De 1.640 pacientes admitidos com infecção, a hiperlactatemia ocorreu em 934 (57%) e foi classificada como leve, moderada e grave em 57,0%, 34,4% e 8,7% dos pacientes, respectivamente. A presença de hiperlactatemia e um maior grau de hiperlactatemia se associaram a um maior Simplified Acute Physiology Score II, a maior Índice de Comorbidade de Charlson e à presença de choque séptico. Em relação à curva Receiver Operating Characteristic do lactato para mortalidade hospitalar, foi encontrada área sob a curva de 0,64 (IC95% 0,61 - 0,72), que aumentou para 0,71 (IC95% 0,68 - 0,74) quando se combinou o Sequential Organ Failure Assessment. A mortalidade intra-hospitalar com outras covariáveis ajustadas pelo Simplified Acute Physiology Score II se associou à hiperlactatemia moderada e grave, com razão de chances de 1,95 (IC95% 1,4 - 2,7; p < 0,001) e 4,54 (IC95% 2,4 - 8,5; p < 0,001), respectivamente.
Conclusão:
Os níveis de lactato sanguíneo correlacionam-se independentemente com a mortalidade intra-hospitalar para graus moderados e graves de hiperlactatemia.
Descritores:
Hiperlactatemia; Infecções; Lactato; Mortalidade hospitalar; Prognóstico; Unidades de terapia intensiva
INTRODUCTION
Since its first description, hyperlactatemia has been related to morbidity and mortality.(11 Bakker J, Nijsten MW, Jansen TC. Clinical use of lactate monitoring in critically ill patients. Ann Intensive Care. 2013;3(1):12.) Increased lactate production in the early presentation of sepsis is frequently related to inadequate oxygen delivery and anaerobic glycolysis (type A hyperlactatemia).(22 Bakker J. Lactate is THE target for early resuscitation in sepsis. Rev Bras Ter Intensiva. 2017;29(2):124-7.) However, there are other causes not driven by hypoperfusion, such as drug effects, diabetic ketoacidosis, liver failure, malignancy and thiamine deficiency (type B hyperlactatemia).(33 Kruse O, Grunnet N, Barfod C. Blood lactate as a predictor for in-hospital mortality in patients admitted acutely to hospital: a systematic review. Scand J Trauma Resusc Emerg Med. 2011;19:74.) In septic shock, in addition to hypoperfusion, adrenergic-driven aerobic lactate production and impaired hepatic lactate clearance have also been suggested to contribute to hyperlactatemia.(44 Garcia-Alvarez M, Marik P, Bellomo R. Sepsis-associated hyperlactatemia. Crit Care. 2014;18(5):503.)
Previous studies investigated the impact of hyperlactatemia on admission mortality in patients admitted to the intensive care unit (ICU) and reported cumulative prevalence rates varying from 10 to 91%.(55 Godinjak A, Jusufovic S, Rama A, Iglica A, Zvizdic F, Kukuljac A, et al. Hyperlactatemia and the importance of repeated lactate measurements in critically ill patients. Med Arch. 2017;71(6):404-7.) On ICU admission, a higher lactate concentration within the normal reference range (relative hyperlactatemia) has been shown to be an independent predictor of hospital mortality in critically ill patients.(66 Nichol AD, Egi M, Pettila V, Bellomo R, French C, Hart G, et al. Relative hyperlactatemia and hospital mortality in critically ill patients: a retrospective multi-centre study. Crit Care. 2010;14(1):R25.,77 Rishu AH, Khan R, Al-Dorzi HM, Tamim HM, Al-Qahtani S, Al-Ghamdi G, et al. Even mild hyperlactatemia is associated with increased mortality in critically ill patients. Crit Care. 2013;17(5):R197.) Lactate levels between 2.0 - 3.9mmol/L in patients with suspected infection were associated with significant mortality, even in the absence of hypotension.(88 Puskarich MA, Illich BM, Jones AE. Prognosis of emergency department patients with suspected infection and intermediate lactate levels: a systematic review. J Crit Care. 2014;29(3):334-9.) Haas et al.(99 Haas SA, Lange T, Saugel B, Petzoldt M, Fuhrmann V, Metschke M, et al. Severe hyperlactatemia, lactate clearance and mortality in unselected critically ill patients. Intensive Care Med. 2016;42(2):202-10.) found that the degree of hyperlactatemia was directly related to the severity of shock and to the mortality rate, which reached 80% in patients with lactate levels >10mmol/L.
Although hyperlactatemia on ICU admission has been shown to be a good prognostic marker, dynamic changes in lactate concentration have also proven to be independent predictive values.(1010 Nichol A, Bailey M, Egi M, Pettila V, French C, Stachowski E, et al. Dynamic lactate indices as predictors of outcome in critically ill patients. Crit Care. 2011;15(5):R242.) In fact, lactate level and lactate clearance were both useful targets in patients with suspected infection(1111 Lokhandwala S, Andersen LW, Nair S, Patel P, Cocchi MN, Donnino MW. Absolute lactate value vs relative reduction as a predictor of mortality in severe sepsis and septic shock. J Crit Care. 2017;37:179-84.) or septic shock defined by Sepsis-3(1212 Ryoo SM, Lee J, Lee YS, Lee JH, Lim KS, Huh JW, et al. Lactate level versus lactate clearance for predicting mortality in patients with septic shock defined by Sepsis-3. Crit Care Med. 2018;46(6):e489-95.) in the emergency department, and in a recent study, 6-hour lactate level was more accurate than 6-hour lactate clearance in predicting 30-day mortality.(1313 Lee SG, Song J, Park DW, Moon S, Cho HJ, Kim JY, et al. Prognostic value of lactate levels and lactate clearance in sepsis and septic shock with initial hyperlactatemia: a retrospective cohort study according to the Sepsis-3 definitions. Medicine (Baltimore). 2021;100(7):e24835.)
Many factors confound the clinical use of lactate level. The most common in clinical practice are the use of catecholamines in septic shock patients, alkalosisinduced increases in glucose metabolism, lactate-buffered continuous hemofiltration, liver dysfunction, and lung lactate production.(1414 Hernandez G, Bellomo R, Bakker J. The ten pitfalls of lactate clearance in sepsis. Intensive Care Med. 2019;45(1):82-5.) Medical literature is limited regarding how patient and disease characteristics may influence blood lactate values and whether those factors are determinants of outcomes.
The aims of this study were to evaluate the influence of patient characteristics on the presence of hyperlactatemia in an infected population on ICU admission and determine differences in outcomes and to investigate the association between the severity of hyperlactatemia and mortality.
METHODS
Study protocol
We carried out a post hoc analysis of the Infection on Admission to the ICU (INFAUCI) study, which was an observational, multicenter, prospective cohort study conducted in 14 Portuguese ICUs with data collected between 1st May 2009 and 31 December 2010.(1515 Gonçalves-Pereira J, Pereira JM, Ribeiro O, Baptista JP, Froes F, Paiva JA. Impact of infection on admission and of the process of care on mortality of patients admitted to the Intensive Care Unit: the INFAUCI study. Clin Microbiol Infect. 2014;20(12):1308-15.) The study protocol was described elsewhere.(1515 Gonçalves-Pereira J, Pereira JM, Ribeiro O, Baptista JP, Froes F, Paiva JA. Impact of infection on admission and of the process of care on mortality of patients admitted to the Intensive Care Unit: the INFAUCI study. Clin Microbiol Infect. 2014;20(12):1308-15.) Briefly, all adult patients (age ≥ 18 years) consecutively admitted during one followed until death or 6 months after ICU admission. The Hospital Research and Ethics Committee of Centro Hospitalar São João approved the study design. Informed consent was waived due to the observational nature of the study. For the purpose of this study, we analyzed arterial blood lactate levels on ICU admission in infected patients. The highest value of lactate within the first 12 hours of admission was recorded. Infection and sepsis criteria were identified at the time of admission to the ICU according to commonly used definitions accepted at the time of data collection, the Sepsis-2 definition(1616 Levy MM, Fink MP, Marshall JC, Abraham E, Angus D, Cook D, Cohen J, Opal SM, Vincent JL, Ramsay G; SCCM/ESICM/ACCP/ATS/SIS. 2001 SCCM/ESICM/ACCP/ATS/SIS International Sepsis Definitions Conference. Crit Care Med. 2003;31(4):1250-6.) According to this consensus, septic shock is defined as a state of acute circulatory failure characterized by persistent arterial hypotension unexplained by other causes. Data were collected on patient demographic and clinical characteristics, such as sex, age, Simplified Acute Physiology Score II (SAPS II), Sequential Organ Failure Assessment (SOFA) score, Charlson Comorbidity Index score,(1717 Charlson ME, Pompei P, Ales KL, MacKenzie CR. A new method of classifying prognostic comorbidity in longitudinal studies: development and validation. J Chronic Dis. 1987;40(5):373-83.) comorbidities, functional status, origin and diagnosis on admission, ICU length of stay (LOS) and hospital LOS. Primary outcome was in-hospital mortality. Arterial blood lactate was measured using a blood gas analyzer.
Statistical analysis
Continuous variables SAPS II, SOFA score, Charlson Comorbidity Index score, ICU LOS and hospital LOS were dichotomized around the mean/median values found for all populations.(1515 Gonçalves-Pereira J, Pereira JM, Ribeiro O, Baptista JP, Froes F, Paiva JA. Impact of infection on admission and of the process of care on mortality of patients admitted to the Intensive Care Unit: the INFAUCI study. Clin Microbiol Infect. 2014;20(12):1308-15.) Age was categorized into two groups: less than 65 years and 65 years and higher. A cutoff value of 2mmol/L was used to define hyperlactatemia. Hyperlactatemia was categorized into three groups according to severity: mild (2.0 - 3.9mmol/L), moderate (4.0 - 9.9mmol/L) and severe (>10.0mmol/L).
Categorical variables were described as absolute and relative frequencies, and continuous variables were expressed as median (percentile - P25 - P75) or mean ± standard deviation, according to data distribution. Comparisons between groups were performed with t-tests for independent samples, Mann-Whitney U tests or Kruskal-Wallis tests for continuous variables and Chisquared tests for categorical variables, as appropriate. Logistic regression was applied, and patient demographic and clinical characteristics were included in the univariate analysis considering the categories previously established: age (< 65, ≥ 65); SAPS II score (< 45, ≥ 45); SOFA score on admission (< 7, ≥ 7); Charlson Comorbidity Index score (< 4, ≥ 4); comorbidities (no/yes); infection source (pneumonia, tracheobronchitis, endovascular, intraemergency surgery, trauma); septic shock (no/yes); bacteremia (no, primary, secondary) and hyperlactatemia (< 2; 2 - 3.9; 4 - 9.9, ≥ 10). All variables with p < 0.05 in the univariate analysis were included in the final multivariate regression modeling (enter method). The associations between patient characteristics and primary outcome were assessed by the odds ratio (OR) with a 95% confidence interval (95%CI) estimated by the multivariate models developed, and goodness-of-fit was assessed by the Hosmer-Lemeshow statistic and test. Two models were fitted adjusting for other covariates by either the SAPS II or the SOFA score. Age, chronic liver disease, chronic respiratory disease and cancer were not included in the multivariate analysis concerning collinearity with the Charlson Comorbidity Index.
The Receiver Operating Characteristic (ROC) area under the curve (AUC) was used to evaluate the ability of blood lactate to predict in-hospital mortality, and ROC curves were compared using 95%CIs for the AUC. All reported p-values were two-sided, and the significance level was set at 5%. Data were statistically analyzed using IBM Statistical Package for the Social Science (SPSS),® version 24.0, software (IBM Corp., Armonk, NY, USA).
RESULTS
Population characteristics
A total of 3,766 patients admitted consecutively were included in the INFAUCI study. Blood lactate was measured on admission in 3,259 patients, with 1,640 patients being included in the infected group on ICU admission (Figure 1).
The median blood lactate level was 2.15mmol/L and significantly increased with age, SAPS II score, SOFA score on admission and Charlson Comorbidity Index score (Table 1S - Supplementary material). In regard to patients’ comorbidities, significantly higher blood lactate levels were observed in patients with chronic liver disease, immunosuppression and cancer. Septic shock and bacteremia were present in 49% and 20% of patients, respectively, and both were associated with higher blood lactate levels (p < 0.001). A longer ICU LOS was associated with significantly lower levels of lactate. Nonsurvivors had higher blood lactate levels than patients who survived. Intensive care unit and hospital nonsurvivors had median (P25 - P75) values of 3.4 (1.9 - 7.0) mmol/L and 3.0 (1.7 - 3.0) mmol/L, respectively, compared to 2.0 (1.2 - 3.1) and 1.9 (1.2 - 3.0) mmol/L in ICU and hospital survivors (p < 0.001).
In our cohort, 934 patients (57%) had hyperlactatemia on admission. Patient characteristics were evaluated in the univariate analysis for association with hyperlactatemia (Table 1), and significant variables were included in the multivariate logistic regression analysis adjusted by either SOFA score or SAPS II. A SAPS II ≥ 45, SOFA score ≥ 7, Charlson Comorbidity Index score ≥ 4, infections with intra-abdominal origin and presence of septic shock remained significantly associated with hyperlactatemia. Of these, the presence of septic shock was the factor that was most related to hyperlactatemia, with ORs (95%CIs) of 2.63 (1.99 - 3.45) and 2.72 (2.15 - 3.45), when adjusted for SOFA score and SAPS II, respectively.
Univariate and multivariate logistic regression analysis of patient characteristics for hyperlactatemia (blood lactate level ≥ 2mmol/L; n = 934)
Hyperlactatemia severity
Patients presented with mild, moderate and severe hyperlactatemia in 57%, 34% and 9% of cases, respectively (Table 2). Higher degrees of severity of hyperlactatemia showed higher values of SAPS II (p < 0.001), SOFA score (p < 0.001) and Charlson Comorbidity Index score (p = 0.001), higher incidence of chronic liver disease as a comorbidity (p = 0.018), presence of septic shock (p < 0.001) and bacteremia (p < 0.001) (Table 2). On the other hand, the degree of hyperlactatemia was significantly inversely associated with chronic respiratory disease (p = 0.007). The hospital mortality rate showed a significant increase with the severity of hyperlactatemia, with values of 36%, 55% and 79% for mild, moderate and severe hyperlactatemia (p < 0.001), respectively. Intensive care unit and hospital LOS decreased with increased hyperlactatemia (p < 0.001). Figure 1S (Supplementary material) shows that this effect was more evident in the nonsurvivors. The difference in ICU and hospital LOS between survivors and nonsurvivors was statistically significant in all 3 categories of hyperlactatemia.
Effect of hyperlactatemia severity on mortality
The ROC curve for hospital mortality had an AUC of 0.64 (95%CI 0.61 - 0.67) for blood lactate values compared with 0.75 (95%CI 0.72 - 0.77) for SAPS II and 0.69 (95%CI 0.67 - 0.72) for SOFA score (Figure 2S - Supplementary material). In regard to hospital mortality, for a cutoff value of 2mmol/L for lactate levels, specificity was 51% and sensitivity was 69%, and for a cutoff value of 4mmol/L, specificity was 84% and sensitivity was 38%. Comparing the 95%CIs for the respective AUCs, we concluded that the combination of lactate with SOFA score did not significantly improve the performance of each variable alone, increasing the AUC to 0.71 (95%CI 0.68 - 0.74) for hospital mortality.
In a multivariate logistic regression, in-hospital mortality was correlated with moderate and severe hyperlactatemia but not with mild hyperlactatemia, with adjusted ORs of 2.07 (95%CI 1.47 - 2.92; p < 0.001) and 4.66 (95%CI 2.42 - 8.98; p < 0.001) for hospital mortality modeled with SOFA score in moderate and severe hyperlactatemia, respectively (Table 3). Similar values were obtained when the multivariate analysis was modeled with SAPS II, with ORs of 1.95 (95%CI 1.4 - 2.7; p < 0.001) and 4.54 (95%CI 2.4 - 8.5; p < 0.001) for moderate and severe hyperlactatemia, respectively.
Univariate and multivariate logistic regression analysis of patient characteristics for hospital mortality
DISCUSSION
In this large multicenter national study, clinical and epidemiological data from 14 Portuguese ICUs were collected, providing reliable and robust data that represent a picture of the country. We evaluated factors influencing hyperlactatemia on ICU admission of infected patients and its prognostic value. In some of the previous studies that used a single value of lactate on ICU admission, the first value measured on admission was selected;(1818 Filho RR, Rocha LL, Corrêa TD, Pessoa CM, Colombo G, Assuncao MS. Blood lactate levels cutoff and mortality prediction in sepsis-time for a reappraisal? A retrospective cohort study. Shock. 2016;46(5):480-5.
19 Soliman HM, Vincent JL. Prognostic value of admission serum lactate concentrations in intensive care unit patients. Acta Clin Belg. 2010;65(3):176-81.-2020 Varis E, Pettilä V, Poukkanen M, Jakob SM, Karlsson S, Perner A, Takala J, Wilkman E; FINNAKI Study Group. Evolution of blood lactate and 90-day mortality in septic shock. A post hoc analysis of the FINNAKI study. Shock. 2017;47(5):574-81.) others used the highest value in the first 24 hours.(2121 Khosravani H, Shahpori R, Stelfox HT, Kirkpatrick AW, Laupland KB. Occurrence and adverse effect on outcome of hyperlactatemia in the critically ill. Crit Care. 2009;13(3):R90.
22 Thomas-Rueddel DO, Poidinger B, Weiss M, Bach F, Dey K, Häberle H, Kaisers U, Rüddel H, Schädler D, Scheer C, Schreiber T, Schürholz T, Simon P, Sommerer A, Schwarzkopf D, Weyland A, Wöbker G, Reinhart K, Bloos F; Medical Education for Sepsis Source Control and Antibiotics Study Group. Hyperlactatemia is an independent predictor of mortality and denotes distinct subtypes of severe sepsis and septic shock. J Crit Care. 2015;30(2):439.e1-6.-2323 Chebl RB, Tamim H, Dagher GA, Sadat M, Enezi FA, Arabi YM. Serum lactate as an independent predictor of in-hospital mortality in intensive care patients. J Intensive Care Med. 2020;35(11):1257-64.) In our investigation, the highest value in the first 12 hours of ICU admission was considered. We found that in a heterogeneous group of infected patients admitted to the ICU, hyperlactatemia was highly prevalent (57% of patients). In this group of critically ill patients, nearly half presented with septic shock. In the literature, the incidence of hyperlactatemia on admission in patients with severe infection has been shown to vary between 52% and 76%.(1818 Filho RR, Rocha LL, Corrêa TD, Pessoa CM, Colombo G, Assuncao MS. Blood lactate levels cutoff and mortality prediction in sepsis-time for a reappraisal? A retrospective cohort study. Shock. 2016;46(5):480-5.,2424 Mikkelsen ME, Miltiades AN, Gaieski DF, Goyal M, Fuchs BD, Shah CV, et al. Serum lactate is associated with mortality in severe sepsis independent of organ failure and shock. Crit Care Med. 2009;37(5):1670-7.
25 Casserly B, Phillips GS, Schorr C, Dellinger RP, Townsend SR, Osborn TM, et al. Lactate measurements in sepsis-induced tissue hypoperfusion: results from the Surviving Sepsis Campaign database. Crit Care Med. 2015;43(3):567-73.-2626 Cheng HH, Chen FC, Change MW, Kung CT, Cheng CY, Tsai TC, et al. Difference between elderly and non-elderly patients in using serum lactate level to predict mortality caused by sepsis in the emergency department. Medicine (Baltimore). 2018;97(13):e0209.)
Medical literature has demonstrated variable results related to the influence of hyperlactatemia on ICU or hospital LOS. Van den Nouland et al.(2727 van den Nouland DP, Brouwers MC, Stassen PM. Prognostic value of plasma lactate levels in a retrospective cohort presenting at a university hospital emergency department. BMJ Open. 2017;7(1):e011450.) found no differences in hospital LOS between patients admitted to the emergency department with lactate levels < 4mmol/L and ≥ 4mmol/L. In contrast, Chebl et al.(2828 Chebl RB, El Khuri C, Shami A, Rajha E, Faris N, Bachir R, et al. Serum lactate is an independent predictor of hospital mortality in critically ill patients in the emergency department: a retrospective study. Scand J Trauma Resusc Emerg Med. 2017;25(1):69.) observed that hospital LOS was longer for patients presenting to the emergency department with lactate levels > 4 mmol/L in comparison to 2 - 4mmol/L (10.4 ± 12.6 versus 8.1 ± 8.8 days), with a significantly higher mortality in the first group (40.7% versus 12%). In another study by Chebl et al.(2323 Chebl RB, Tamim H, Dagher GA, Sadat M, Enezi FA, Arabi YM. Serum lactate as an independent predictor of in-hospital mortality in intensive care patients. J Intensive Care Med. 2020;35(11):1257-64.) with a total of 16,447 patients admitted to the ICU, patients with lactate levels between 2 - 3.99mmol/L had a shorter hospital and ICU LOS than those with normal lactate levels; however, when restricted to survivors, differences in LOS were not statistically significant. Soliman et al.(1919 Soliman HM, Vincent JL. Prognostic value of admission serum lactate concentrations in intensive care unit patients. Acta Clin Belg. 2010;65(3):176-81.) studied the relationship between blood lactate and LOS in a mixed ICU. They concluded that survivor patients with hyperlactatemia had a longer LOS than patients with normal lactate levels; on the other hand, hyperlactatemic nonsurvivors had a shorter LOS than nonsurvivors in the normal lactate level group. In our study, ICU and hospital LOS both decreased within classes of hyperlactatemia; however, after considering only survivors, an increase in ICU LOS was observed. The shorter LOS associated with higher lactate levels seems to be driven mainly by a higher mortality, as illustrated by the finding that the effect is limited to nonsurvivors. These findings highlight the importance of interpreting the effect of hyperlactatemia on LOS based on survival due to a competing risk bias.
The prognostic value of hyperlactatemia for mortality was first suggested by Broder et al. in 1964(2929 Broder G, Weil MH. Excess lactate: an index of reversibility of shock in human patients. Science. 1964;143(3613):1457-9.) when they found that a lactate level > 4mmol/L in patients with shock from different causes was associated with death. Optimal cutoffs of single value lactate measurements in terms of prediction of outcome vary considerably in the literature, which in part may be justified by differences in the choice of lactate value for analysis, type of patients, severity on admission and outcome selection. Rivers et al.(3030 Rivers E, Nguyen B, Havstad S, Ressler J, Muzzin A, Knoblich B, Peterson E, Tomlanovich M; Early Goal-Directed Therapy Collaborative Group. Early goaldirected therapy in the treatment of severe sepsis and septic shock. N Engl J Med. 2001;345(19):1368-77.) selected a serum lactate level of ≥ 4mmol/L to identify patients with severe sepsis or septic shock in the emergency department. In one study published in 2007, including patients infected on admission, an initial lactate level ≥ 4mmol/L was associated with a risk of in-hospital death three times higher than patients with a lactate level < 4mmol/L;(3131 Trzeciak S, Dellinger RP, Chansky ME, Arnold RC, Schorr C, Milcarek B, et al. Serum lactate as a predictor of mortality in patients with infection. Intensive Care Med. 2007;33(6):970-7.) in another study also published in 2007, including infected patients, a lactate level ≥ 4mmol/L showed an adjusted (for age and blood pressure) OR of 7.1 for 28-day inhospital death in comparison to patients with a lactate level < 2.5mmol/L.(3232 Howell MD, Donnino M, Clardy P, Talmor D, Shapiro NI. Occult hypoperfusion and mortality in patients with suspected infection. Intensive Care Med. 2007;33(11):1892-9.) Of note, this cutoff of the lactate level (4mmol/L) was incorporated in the second edition of the Surviving Sepsis Campaign(3333 Dellinger RP, Levy MM, Carlet JM, Bion J, Parker MM, Jaeschke R, et al. Surviving Sepsis Campaign: international guidelines for management of severe sepsis and septic shock: 2008. Intensive Care Med. 2008;34(1):17-60.) as an indicator of the need for fluid resuscitation in septic patients. In an analysis of the Surviving Sepsis Campaign database,(2525 Casserly B, Phillips GS, Schorr C, Dellinger RP, Townsend SR, Osborn TM, et al. Lactate measurements in sepsis-induced tissue hypoperfusion: results from the Surviving Sepsis Campaign database. Crit Care Med. 2015;43(3):567-73.) serum lactate values greater than 4mmol/L were significantly associated with in-hospital mortality. In the group that had lactate measured within 6 hours, only patients with both a lactate value greater than 4mmol/L and hypotension maintained a statistically significant association after risk adjustment. However, in the Sepsis-3 consensus, the lactate cutoff for septic shock identification was changed from 4 to 2mmol/L, in order to improve sensitivity.(3434 Singer M, Deutschman CS, Seymour CW, Shankar-Hari M, Annane D, Bauer M, et al. The Third International Consensus Definitions for Sepsis and Septic Shock (Sepsis-3). JAMA. 2016;315(8):801-10.) In a recent retrospective study including 363 patients with sepsis and septic shock according to the Sepsis-3 definitions, a 6-hour lactate level of ≥ 3.5mmol/L was the optimal cutoff for 30day mortality.(1313 Lee SG, Song J, Park DW, Moon S, Cho HJ, Kim JY, et al. Prognostic value of lactate levels and lactate clearance in sepsis and septic shock with initial hyperlactatemia: a retrospective cohort study according to the Sepsis-3 definitions. Medicine (Baltimore). 2021;100(7):e24835.) These results reinforce our findings that in-hospital mortality was correlated with hyperlactatemia above 4mmol/L but not with mild hyperlactatemia.
Mild hyperlactatemia and even values below the usual cutoff for hyperlactatemia of 2mmol/L have also been described as predictors of mortality. In a retrospective analysis using two septic shock cohorts,(3535 Wacharasint P, Nakada TA, Boyd JH, Russell JA, Walley KR. Normal-range blood lactate concentration in septic shock is prognostic and predictive. Shock. 2012;38(1):4-10.) patients with initial lactate values between 1.4 and 2.3mmol/L had significantly greater 28-day mortality than patients who had baseline lactate values ≤ 1.4 mmol/L in both cohorts; however, the hazard ratio was not different from that obtained with blood lactate values between 2.3 and 4.4mmol/L (1.78 versus 1.65). Only for lactate values ≥ 4.4mmol/L was a significantly higher hazard ratio of 3.52 obtained.
Several studies have described an augmented risk of death related to an increase in blood lactate values.(1818 Filho RR, Rocha LL, Corrêa TD, Pessoa CM, Colombo G, Assuncao MS. Blood lactate levels cutoff and mortality prediction in sepsis-time for a reappraisal? A retrospective cohort study. Shock. 2016;46(5):480-5.,2222 Thomas-Rueddel DO, Poidinger B, Weiss M, Bach F, Dey K, Häberle H, Kaisers U, Rüddel H, Schädler D, Scheer C, Schreiber T, Schürholz T, Simon P, Sommerer A, Schwarzkopf D, Weyland A, Wöbker G, Reinhart K, Bloos F; Medical Education for Sepsis Source Control and Antibiotics Study Group. Hyperlactatemia is an independent predictor of mortality and denotes distinct subtypes of severe sepsis and septic shock. J Crit Care. 2015;30(2):439.e1-6.,2323 Chebl RB, Tamim H, Dagher GA, Sadat M, Enezi FA, Arabi YM. Serum lactate as an independent predictor of in-hospital mortality in intensive care patients. J Intensive Care Med. 2020;35(11):1257-64.,3030 Rivers E, Nguyen B, Havstad S, Ressler J, Muzzin A, Knoblich B, Peterson E, Tomlanovich M; Early Goal-Directed Therapy Collaborative Group. Early goaldirected therapy in the treatment of severe sepsis and septic shock. N Engl J Med. 2001;345(19):1368-77.) Ferreruela et al.(3636 Ferreruela M, Raurich JM, Ayestarán I, Llompart-Pou JA. Hyperlactatemia in ICU patients: incidence, causes and associated mortality. J Crit Care. 2017;42:200-5.) observed an in-hospital mortality of 32.5% for critically ill patients in a mixed ICU for lactate concentrations during the ICU stay between 5 and 10mmol/L, which increased to 74.6% (p < 0.001) for hyperlactatemia > 10mmol/L. Haas et al.(99 Haas SA, Lange T, Saugel B, Petzoldt M, Fuhrmann V, Metschke M, et al. Severe hyperlactatemia, lactate clearance and mortality in unselected critically ill patients. Intensive Care Med. 2016;42(2):202-10.) found an ICU mortality approaching 80% for patients with lactate levels > 10mmol/L, on at least one occasion in a retrospective study with 14,040 ICU patients. In our study, moderate (4 - 9.9mmol/L) hyperlactatemia was the lowest category predicting in-hospital mortality. Hospital mortality for lactate values > 10mmol/L reached 79%, which is in accordance with the previously mentioned studies.(99 Haas SA, Lange T, Saugel B, Petzoldt M, Fuhrmann V, Metschke M, et al. Severe hyperlactatemia, lactate clearance and mortality in unselected critically ill patients. Intensive Care Med. 2016;42(2):202-10.,3636 Ferreruela M, Raurich JM, Ayestarán I, Llompart-Pou JA. Hyperlactatemia in ICU patients: incidence, causes and associated mortality. J Crit Care. 2017;42:200-5.)
In the literature, values described for AUC of ROC curves of admission lactate and for in-hospital and 28day mortality have varied between 0.63 and 0.70 in patients with suspected infection,(3737 Shapiro NI, Howell MD, Talmor D, Nathanson LA, Lisbon A, Wolfe RE, et al. Serum lactate as a predictor of mortality in emergency department patients with infection. Ann Emerg Med. 2005;45(5):524-8.) sepsis(1818 Filho RR, Rocha LL, Corrêa TD, Pessoa CM, Colombo G, Assuncao MS. Blood lactate levels cutoff and mortality prediction in sepsis-time for a reappraisal? A retrospective cohort study. Shock. 2016;46(5):480-5.,2626 Cheng HH, Chen FC, Change MW, Kung CT, Cheng CY, Tsai TC, et al. Difference between elderly and non-elderly patients in using serum lactate level to predict mortality caused by sepsis in the emergency department. Medicine (Baltimore). 2018;97(13):e0209.,3838 Liu Z, Meng Z, Li Y, Zhao J, Wu S, Gou S, et al. Prognostic accuracy of the serum lactate level, the SOFA score and the qSOFA score for mortality among adults with Sepsis. Scand J Trauma Resusc Emerg Med. 2019;27(1):51.) and septic shock.(1212 Ryoo SM, Lee J, Lee YS, Lee JH, Lim KS, Huh JW, et al. Lactate level versus lactate clearance for predicting mortality in patients with septic shock defined by Sepsis-3. Crit Care Med. 2018;46(6):e489-95.,3535 Wacharasint P, Nakada TA, Boyd JH, Russell JA, Walley KR. Normal-range blood lactate concentration in septic shock is prognostic and predictive. Shock. 2012;38(1):4-10.) In our study, the AUC value for the ROC curve of lactate level for in-hospital mortality was in the range of previously described values (0.64). The AUC of the ROC curve of lactate was lower than that obtained with the scores for organ dysfunction, SAPS II and SOFA. The addition of lactate level to the SOFA score resulted in a marginally higher AUC of the ROC curve for hospital mortality (0.71).
Our study has several limitations. First, it is a post hoc analysis and for that reason not designed for this purpose. In the original protocol, the value of lactate collected was the highest in the first 12 hours of admission without any definition for the time of first lactate measurement or time to repeat measurements. However, our study was prospective, with a large sample size, and was conducted over a complete year. In the literature, most of the studies are retrospective, and some establish even higher intervals (24 hours) for defining lactate level at admission.(77 Rishu AH, Khan R, Al-Dorzi HM, Tamim HM, Al-Qahtani S, Al-Ghamdi G, et al. Even mild hyperlactatemia is associated with increased mortality in critically ill patients. Crit Care. 2013;17(5):R197.,2222 Thomas-Rueddel DO, Poidinger B, Weiss M, Bach F, Dey K, Häberle H, Kaisers U, Rüddel H, Schädler D, Scheer C, Schreiber T, Schürholz T, Simon P, Sommerer A, Schwarzkopf D, Weyland A, Wöbker G, Reinhart K, Bloos F; Medical Education for Sepsis Source Control and Antibiotics Study Group. Hyperlactatemia is an independent predictor of mortality and denotes distinct subtypes of severe sepsis and septic shock. J Crit Care. 2015;30(2):439.e1-6.,2323 Chebl RB, Tamim H, Dagher GA, Sadat M, Enezi FA, Arabi YM. Serum lactate as an independent predictor of in-hospital mortality in intensive care patients. J Intensive Care Med. 2020;35(11):1257-64.) Additionally, data on the possible pathophysiology or underlying mechanism of hyperlactatemia were not collected. There are multiple reasons for lactate elevation with different clinical relevance, and these confounders were not all categorized in this study; however, it was observed that in a general ICU population, hyperlactatemia is associated with mortality irrespective of underlying disease. Second, our study did not collect any data about lactate kinetics over time. However, lactate level and lactate clearance have both been shown to be useful targets in patients with suspected infection(1111 Lokhandwala S, Andersen LW, Nair S, Patel P, Cocchi MN, Donnino MW. Absolute lactate value vs relative reduction as a predictor of mortality in severe sepsis and septic shock. J Crit Care. 2017;37:179-84.) or septic shock.(1212 Ryoo SM, Lee J, Lee YS, Lee JH, Lim KS, Huh JW, et al. Lactate level versus lactate clearance for predicting mortality in patients with septic shock defined by Sepsis-3. Crit Care Med. 2018;46(6):e489-95.) On the other hand, using a single value of lactate can be an easier and still valid method for predicting outcome. Third, septic shock patients were classified according to the Sepsis-2 definition(1515 Gonçalves-Pereira J, Pereira JM, Ribeiro O, Baptista JP, Froes F, Paiva JA. Impact of infection on admission and of the process of care on mortality of patients admitted to the Intensive Care Unit: the INFAUCI study. Clin Microbiol Infect. 2014;20(12):1308-15.) accepted at the time of data collection, which has now been replaced by the Sepsis-3 definition.(3636 Ferreruela M, Raurich JM, Ayestarán I, Llompart-Pou JA. Hyperlactatemia in ICU patients: incidence, causes and associated mortality. J Crit Care. 2017;42:200-5.) Although there was no direct correspondence between these two definitions, we maintained the septic shock subgroup in the analysis since it allowed us to identify the more seriously ill patients. Fourth, since this was a multicenter study, lactate measurements were not performed using similar equipment in the different institutions, which could induce some bias in the values obtained in different centers. However, this was a multicenter study with a large sample size allowing robust and statistically supported conclusions that can be generalized to other mixed ICUs.
CONCLUSION
Hyperlactatemia on intensive care unit admission was present in more than half of a heterogeneous group of infected patients admitted to the intensive care unit and was a strong predictor of mortality. Blood lactate levels correlate independently with in-hospital mortality for moderate and severe degrees of hyperlactatemia.
ACKNOWLEDGMENTS
This work was supported by an unrestricted grant from Grupo de Infeção e Sépsis (GIS), Porto, Portugal.
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Members of the INFAUCI study group: Conceição Sousa Dias, José Manuel Pereira, José-Artur Paiva, Serviço Medicina Intensiva, Centro Hospitalar S. João (Porto); Lurdes Santos, Alcina Ferreira, UCI - Doenças Infeciosas, Centro Hospitalar S. João (Porto); Richard Maul, Serviço de Medicina Intensiva, Centro Hospitalar Funchal (Funchal); Vasco Tavares, Ana Josefina Mendes, Serviço de Cuidados Intensivos, Centro Hospitalar Vila Nova Gaia/Espinho (Gaia); Paulo Marçal, Piedade Amaro, Unidade de Cuidados Intensivos Polivalente, Centro Hospitalar Entre Douro e Vouga (Vila da Feira); Anabela Bártolo, Ruth Milheiro, Serviço de Cuidados Intensivos, Centro Hospitalar Alto Ave (Guimarães); Filomena Faria, Serviço de Cuidados Intensivos, Instituto Português de Oncologia-Norte (Porto); João Pedro Baptista, Eduardo Sousa, Serviço de Medicina Intensiva, Hospitais Universidade de Coimbra (Coimbra); Sofia Beirão, Ana Marques, Serviço de Medicina Intensiva, Centro Hospitalar Covões (Coimbra); Eduardo Melo, Unidade de Cuidados Intensivos Polivalente, Hospital São Teotónio (Viseu); João Gonçalves-Pereira, Joana Silvestre, Unidade de Cuidados Intensivos Polivalente, Hospital S. Francisco Xavier (Lisboa); Filipe Froes, Unidade de Cuidados Intensivos Respiratórios, Centro Hospitalar Lisboa Norte (Lisboa); Maria João Vilas, Unidade de Cuidados Intensivos, Hospital do Litoral Alentejano (Santiago do Cacém); José Vaz, Unidade de Cuidados Intensivos, Hospital José Joaquim Fernandes (Beja); Luís Bento, Unidade de Cuidados Intensivos Polivalente 2, Centro Hospitalar de Lisboa Central (Lisboa); Orquídea Ribeiro, Faculdade de Medicina da Universidade do Porto (Porto).
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29Broder G, Weil MH. Excess lactate: an index of reversibility of shock in human patients. Science. 1964;143(3613):1457-9.
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Publication Dates
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Publication in this collection
24 June 2022 -
Date of issue
Jan-Mar 2022
History
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Received
08 Nov 2020 -
Accepted
30 Oct 2021