BACKGROUND: There is a need for practical, efficient and effective prognostic markers for patients admitted to the intensive care unit (ICU) with sepsis, to identify patients at highest risk and guide and monitor treatment. Although many biomarkers and scoring systems have been advocated, none have yet achieved this elusive combination. Most ICUs already use blood lactate concentrations to monitor patients but the evidence base for this application is unclear. METHODS: A systematic review of the last five years of evidence of effectiveness of lactate measurement in prediction of outcome in ICUs was performed. RESULTS: It was found that there is a lack of high-quality evidence, and no specific studies of prognostic accuracy. D- or L-Lactate concentrations measured in plasma, serum, whole blood or colonic washings were raised at admission in almost all patient groups, and were higher in patient groups who had the worst outcomes (in-hospital mortality, sequential organ failure). However, there was significant overlap in individual concentrations measured in those who died within 28 days of admission, or who developed multiple organ failure, and those who did not. For serum L-lactate concentrations, no specific cut-off value capable of predicting in-hospital mortality or sequential organ failure could be recommended. CONCLUSIONS: The evidence reviewed suggested that whole blood, plasma or serum lactate measurement could not provide specific prognostic information for individual patients. There may be a role for monitoring for normalization of serum D- or L-lactate concentrations during goal-directed therapy in the ICU but further good-quality studies are needed. Measurement of the D-lactate stereoisomer shows promise, such that further studies are warranted.
BACKGROUND: There is a need for practical, efficient and effective prognostic markers for patients admitted to the intensive care unit (ICU) with sepsis, to identify patients at highest risk and guide and monitor treatment. Although many biomarkers and scoring systems have been advocated, none have yet achieved this elusive combination. Most ICUs already use blood lactate concentrations to monitor patients but the evidence base for this application is unclear. METHODS: A systematic review of the last five years of evidence of effectiveness of lactate measurement in prediction of outcome in ICUs was performed. RESULTS: It was found that there is a lack of high-quality evidence, and no specific studies of prognostic accuracy. D- or L-Lactate concentrations measured in plasma, serum, whole blood or colonic washings were raised at admission in almost all patient groups, and were higher in patient groups who had the worst outcomes (in-hospital mortality, sequential organ failure). However, there was significant overlap in individual concentrations measured in those who died within 28 days of admission, or who developed multiple organ failure, and those who did not. For serum L-lactate concentrations, no specific cut-off value capable of predicting in-hospital mortality or sequential organ failure could be recommended. CONCLUSIONS: The evidence reviewed suggested that whole blood, plasma or serum lactate measurement could not provide specific prognostic information for individual patients. There may be a role for monitoring for normalization of serum D- or L-lactate concentrations during goal-directed therapy in the ICU but further good-quality studies are needed. Measurement of the D-lactate stereoisomer shows promise, such that further studies are warranted.
Authors: Laura Evans; Andrew Rhodes; Waleed Alhazzani; Massimo Antonelli; Craig M Coopersmith; Craig French; Flávia R Machado; Lauralyn Mcintyre; Marlies Ostermann; Hallie C Prescott; Christa Schorr; Steven Simpson; W Joost Wiersinga; Fayez Alshamsi; Derek C Angus; Yaseen Arabi; Luciano Azevedo; Richard Beale; Gregory Beilman; Emilie Belley-Cote; Lisa Burry; Maurizio Cecconi; John Centofanti; Angel Coz Yataco; Jan De Waele; R Phillip Dellinger; Kent Doi; Bin Du; Elisa Estenssoro; Ricard Ferrer; Charles Gomersall; Carol Hodgson; Morten Hylander Møller; Theodore Iwashyna; Shevin Jacob; Ruth Kleinpell; Michael Klompas; Younsuck Koh; Anand Kumar; Arthur Kwizera; Suzana Lobo; Henry Masur; Steven McGloughlin; Sangeeta Mehta; Yatin Mehta; Mervyn Mer; Mark Nunnally; Simon Oczkowski; Tiffany Osborn; Elizabeth Papathanassoglou; Anders Perner; Michael Puskarich; Jason Roberts; William Schweickert; Maureen Seckel; Jonathan Sevransky; Charles L Sprung; Tobias Welte; Janice Zimmerman; Mitchell Levy Journal: Intensive Care Med Date: 2021-10-02 Impact factor: 17.440
Authors: Luiz Guilherme V da Costa; Maria José C Carmona; Luiz M Malbouisson; Sandro Rizoli; Joel Avancini Rocha-Filho; Ricardo Galesso Cardoso; José Otávio C Auler-Junior Journal: Clinics (Sao Paulo) Date: 2017-08 Impact factor: 2.365
Authors: Charles R Evans; Alla Karnovsky; Melissa A Kovach; Theodore J Standiford; Charles F Burant; Kathleen A Stringer Journal: J Proteome Res Date: 2013-12-09 Impact factor: 4.466
Authors: Elena Berg; Janel Paukovits; Jennifer Axelband; Jonathan Trager; Dina Ryan; Kathleen Cichonski; Mark Kopnitsky; Daniel Zweitzig; Rebecca Jeanmonod Journal: J Emerg Trauma Shock Date: 2018 Apr-Jun