Massive transfusion in trauma patients: Tissue hemoglobin oxygen saturation predicts poor outcome

Frederick A. Moore; Teresa Nelson; Bruce A. McKinley; Ernest E. Moore; Avery B. Nathens; Peter Rhee; Juan Carlos Puyana; Gregory J. Beilman; Stephen M. Cohn; Janet McCarthy; Rachelle Babbitt Jonas; Joseph Johnston; Peter Lopez; Avery B. Nathen; Dian Nuxoll; Huawei Tang; Burapat Sangthong; Constantinos Constantinou; Patricio Polanco; Andrew B. Peitzman; Stephanie Huls; Jeffrey L. Johnson; Catherine C. Cothren; Melissa Thorson; Alan Beal; G. Pearl Ronald; Larry M. Gentilello; Anthony A. Meyer; Leann Anderson; Barbara Gallea; Diane Rupp; Becky Saar; Michelle McGraw; V. A. Diaz; Kristi Carlson; Greg Wheatley

doi:10.1097/TA.0b013e31816a2417

Massive transfusion in trauma patients: Tissue hemoglobin oxygen saturation predicts poor outcome

Frederick A. Moore, Teresa Nelson, Bruce A. McKinley, Ernest E. Moore, Avery B. Nathens, Peter Rhee, Juan Carlos Puyana, Gregory J. Beilman, Stephen M. Cohn, Janet McCarthy, Rachelle Babbitt Jonas, Joseph Johnston, Peter Lopez, Avery B. Nathen, Dian Nuxoll, Huawei Tang, Burapat Sangthong, Constantinos Constantinou, Patricio Polanco, Andrew B. PeitzmanStephanie Huls, Jeffrey L. Johnson, Catherine C. Cothren, Melissa Thorson, Alan Beal, G. Pearl Ronald, Larry M. Gentilello, Anthony A. Meyer, Leann Anderson, Barbara Gallea, Diane Rupp, Becky Saar, Michelle McGraw, V. A. Diaz, Kristi Carlson, Greg Wheatley

Research output: Contribution to journal › Article › peer-review

108 Scopus citations

Abstract

BACKGROUND: Severely bleeding trauma patients requiring massive transfusion (MT) often experience poor outcomes. Our purpose was to determine the potential role of near infrared spectrometry derived tissue hemoglobin oxygen saturation (StO2) monitoring in early prediction of MT, and in the identification of those MT patients who will have poor outcomes. METHODS: Data from a prospective multi-institution StO2 monitoring study were analyzed to determine the current epidemiology of MT (defined as transfusion volume ≥10 units packed red blood cells in 24 hours of hospitalization). Multivariate logistic regression was used to develop prediction models. RESULTS: Seven US level I trauma centers (TC) enrolled 383 patients. 114 (30%) required MT. MT progressed rapidly (40% exceeded MT threshold 2 hours after TC arrival, 80% after 6 hours). One third of MT patients died. Two thirds of deaths were due to early exsanguination and two thirds of early exsanguination patients died within 6 hours. One third of the early MT survivors developed multiple organ dysfunction syndrome. MT could be predicted with standard, readily available clinical data within 30 minutes and 60 minutes of TC arrival (area under the receiver operating characteristic curve = 0.78 and 0.80). In patients who required MT, StO2 was the only consistent predictor of poor outcome (multiple organ dysfunction syndrome or death). CONCLUSION: MT progresses rapidly to significant morbidity and mortality despite level I TC care. Patients who require MT can be predicted early, and persistent low StO2 identifies those MT patients destined to have poor outcome. The ultimate goal is to identify these high risk patients as early as possible to test new strategies to improve outcome. Further validation studies are needed to analyze appropriate allocation and study appropriate use of damage control interventions.

Original language	English (US)
Pages (from-to)	1010-1023
Number of pages	14
Journal	Journal of Trauma - Injury, Infection and Critical Care
Volume	64
Issue number	4
DOIs	https://doi.org/10.1097/TA.0b013e31816a2417
State	Published - Apr 2008

Keywords

Coagulopathy
Massive transfusion
Multiple organ dysfunction
NIR
NIRS
Near infrared spectrometry
Shock
StO
Tissue hemoglobin oxygen saturation
Trauma

ASJC Scopus subject areas

Surgery
Critical Care and Intensive Care Medicine

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10.1097/TA.0b013e31816a2417

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Moore, F. A., Nelson, T., McKinley, B. A., Moore, E. E., Nathens, A. B., Rhee, P., Puyana, J. C., Beilman, G. J., Cohn, S. M., McCarthy, J., Jonas, R. B., Johnston, J., Lopez, P., Nathen, A. B., Nuxoll, D., Tang, H., Sangthong, B., Constantinou, C., Polanco, P., ... Wheatley, G. (2008). Massive transfusion in trauma patients: Tissue hemoglobin oxygen saturation predicts poor outcome. Journal of Trauma - Injury, Infection and Critical Care, 64(4), 1010-1023. https://doi.org/10.1097/TA.0b013e31816a2417

Moore, FA, Nelson, T, McKinley, BA, Moore, EE, Nathens, AB, Rhee, P, Puyana, JC, Beilman, GJ, Cohn, SM, McCarthy, J, Jonas, RB, Johnston, J, Lopez, P, Nathen, AB, Nuxoll, D, Tang, H, Sangthong, B, Constantinou, C, Polanco, P, Peitzman, AB, Huls, S, Johnson, JL, Cothren, CC, Thorson, M, Beal, A, Ronald, GP, Gentilello, LM, Meyer, AA, Anderson, L, Gallea, B, Rupp, D, Saar, B, McGraw, M, Diaz, VA, Carlson, K & Wheatley, G 2008, 'Massive transfusion in trauma patients: Tissue hemoglobin oxygen saturation predicts poor outcome', Journal of Trauma - Injury, Infection and Critical Care, vol. 64, no. 4, pp. 1010-1023. https://doi.org/10.1097/TA.0b013e31816a2417

@article{1aaa67d435d64309b07b4665f83796d8,

title = "Massive transfusion in trauma patients: Tissue hemoglobin oxygen saturation predicts poor outcome",

abstract = "BACKGROUND: Severely bleeding trauma patients requiring massive transfusion (MT) often experience poor outcomes. Our purpose was to determine the potential role of near infrared spectrometry derived tissue hemoglobin oxygen saturation (StO2) monitoring in early prediction of MT, and in the identification of those MT patients who will have poor outcomes. METHODS: Data from a prospective multi-institution StO2 monitoring study were analyzed to determine the current epidemiology of MT (defined as transfusion volume ≥10 units packed red blood cells in 24 hours of hospitalization). Multivariate logistic regression was used to develop prediction models. RESULTS: Seven US level I trauma centers (TC) enrolled 383 patients. 114 (30%) required MT. MT progressed rapidly (40% exceeded MT threshold 2 hours after TC arrival, 80% after 6 hours). One third of MT patients died. Two thirds of deaths were due to early exsanguination and two thirds of early exsanguination patients died within 6 hours. One third of the early MT survivors developed multiple organ dysfunction syndrome. MT could be predicted with standard, readily available clinical data within 30 minutes and 60 minutes of TC arrival (area under the receiver operating characteristic curve = 0.78 and 0.80). In patients who required MT, StO2 was the only consistent predictor of poor outcome (multiple organ dysfunction syndrome or death). CONCLUSION: MT progresses rapidly to significant morbidity and mortality despite level I TC care. Patients who require MT can be predicted early, and persistent low StO2 identifies those MT patients destined to have poor outcome. The ultimate goal is to identify these high risk patients as early as possible to test new strategies to improve outcome. Further validation studies are needed to analyze appropriate allocation and study appropriate use of damage control interventions.",

keywords = "Coagulopathy, Massive transfusion, Multiple organ dysfunction, NIR, NIRS, Near infrared spectrometry, Shock, StO, Tissue hemoglobin oxygen saturation, Trauma",

author = "Moore, {Frederick A.} and Teresa Nelson and McKinley, {Bruce A.} and Moore, {Ernest E.} and Nathens, {Avery B.} and Peter Rhee and Puyana, {Juan Carlos} and Beilman, {Gregory J.} and Cohn, {Stephen M.} and Janet McCarthy and Jonas, {Rachelle Babbitt} and Joseph Johnston and Peter Lopez and Nathen, {Avery B.} and Dian Nuxoll and Huawei Tang and Burapat Sangthong and Constantinos Constantinou and Patricio Polanco and Peitzman, {Andrew B.} and Stephanie Huls and Johnson, {Jeffrey L.} and Cothren, {Catherine C.} and Melissa Thorson and Alan Beal and Ronald, {G. Pearl} and Gentilello, {Larry M.} and Meyer, {Anthony A.} and Leann Anderson and Barbara Gallea and Diane Rupp and Becky Saar and Michelle McGraw and Diaz, {V. A.} and Kristi Carlson and Greg Wheatley",

year = "2008",

month = apr,

doi = "10.1097/TA.0b013e31816a2417",

language = "English (US)",

volume = "64",

pages = "1010--1023",

journal = "Journal of Trauma - Injury, Infection and Critical Care",

issn = "0022-5282",

publisher = "Lippincott Williams and Wilkins",

number = "4",

}

TY - JOUR

T1 - Massive transfusion in trauma patients

T2 - Tissue hemoglobin oxygen saturation predicts poor outcome

AU - Moore, Frederick A.

AU - Nelson, Teresa

AU - McKinley, Bruce A.

AU - Moore, Ernest E.

AU - Nathens, Avery B.

AU - Rhee, Peter

AU - Puyana, Juan Carlos

AU - Beilman, Gregory J.

AU - Cohn, Stephen M.

AU - McCarthy, Janet

AU - Jonas, Rachelle Babbitt

AU - Johnston, Joseph

AU - Lopez, Peter

AU - Nathen, Avery B.

AU - Nuxoll, Dian

AU - Tang, Huawei

AU - Sangthong, Burapat

AU - Constantinou, Constantinos

AU - Polanco, Patricio

AU - Peitzman, Andrew B.

AU - Huls, Stephanie

AU - Johnson, Jeffrey L.

AU - Cothren, Catherine C.

AU - Thorson, Melissa

AU - Beal, Alan

AU - Ronald, G. Pearl

AU - Gentilello, Larry M.

AU - Meyer, Anthony A.

AU - Anderson, Leann

AU - Gallea, Barbara

AU - Rupp, Diane

AU - Saar, Becky

AU - McGraw, Michelle

AU - Diaz, V. A.

AU - Carlson, Kristi

AU - Wheatley, Greg

PY - 2008/4

Y1 - 2008/4

N2 - BACKGROUND: Severely bleeding trauma patients requiring massive transfusion (MT) often experience poor outcomes. Our purpose was to determine the potential role of near infrared spectrometry derived tissue hemoglobin oxygen saturation (StO2) monitoring in early prediction of MT, and in the identification of those MT patients who will have poor outcomes. METHODS: Data from a prospective multi-institution StO2 monitoring study were analyzed to determine the current epidemiology of MT (defined as transfusion volume ≥10 units packed red blood cells in 24 hours of hospitalization). Multivariate logistic regression was used to develop prediction models. RESULTS: Seven US level I trauma centers (TC) enrolled 383 patients. 114 (30%) required MT. MT progressed rapidly (40% exceeded MT threshold 2 hours after TC arrival, 80% after 6 hours). One third of MT patients died. Two thirds of deaths were due to early exsanguination and two thirds of early exsanguination patients died within 6 hours. One third of the early MT survivors developed multiple organ dysfunction syndrome. MT could be predicted with standard, readily available clinical data within 30 minutes and 60 minutes of TC arrival (area under the receiver operating characteristic curve = 0.78 and 0.80). In patients who required MT, StO2 was the only consistent predictor of poor outcome (multiple organ dysfunction syndrome or death). CONCLUSION: MT progresses rapidly to significant morbidity and mortality despite level I TC care. Patients who require MT can be predicted early, and persistent low StO2 identifies those MT patients destined to have poor outcome. The ultimate goal is to identify these high risk patients as early as possible to test new strategies to improve outcome. Further validation studies are needed to analyze appropriate allocation and study appropriate use of damage control interventions.

AB - BACKGROUND: Severely bleeding trauma patients requiring massive transfusion (MT) often experience poor outcomes. Our purpose was to determine the potential role of near infrared spectrometry derived tissue hemoglobin oxygen saturation (StO2) monitoring in early prediction of MT, and in the identification of those MT patients who will have poor outcomes. METHODS: Data from a prospective multi-institution StO2 monitoring study were analyzed to determine the current epidemiology of MT (defined as transfusion volume ≥10 units packed red blood cells in 24 hours of hospitalization). Multivariate logistic regression was used to develop prediction models. RESULTS: Seven US level I trauma centers (TC) enrolled 383 patients. 114 (30%) required MT. MT progressed rapidly (40% exceeded MT threshold 2 hours after TC arrival, 80% after 6 hours). One third of MT patients died. Two thirds of deaths were due to early exsanguination and two thirds of early exsanguination patients died within 6 hours. One third of the early MT survivors developed multiple organ dysfunction syndrome. MT could be predicted with standard, readily available clinical data within 30 minutes and 60 minutes of TC arrival (area under the receiver operating characteristic curve = 0.78 and 0.80). In patients who required MT, StO2 was the only consistent predictor of poor outcome (multiple organ dysfunction syndrome or death). CONCLUSION: MT progresses rapidly to significant morbidity and mortality despite level I TC care. Patients who require MT can be predicted early, and persistent low StO2 identifies those MT patients destined to have poor outcome. The ultimate goal is to identify these high risk patients as early as possible to test new strategies to improve outcome. Further validation studies are needed to analyze appropriate allocation and study appropriate use of damage control interventions.

KW - Coagulopathy

KW - Massive transfusion

KW - Multiple organ dysfunction

KW - NIR

KW - NIRS

KW - Near infrared spectrometry

KW - Shock

KW - StO

KW - Tissue hemoglobin oxygen saturation

KW - Trauma

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U2 - 10.1097/TA.0b013e31816a2417

DO - 10.1097/TA.0b013e31816a2417

M3 - Article

C2 - 18404069

AN - SCOPUS:42049116521

SN - 0022-5282

VL - 64

SP - 1010

EP - 1023

JO - Journal of Trauma - Injury, Infection and Critical Care

JF - Journal of Trauma - Injury, Infection and Critical Care

IS - 4

ER -

Massive transfusion in trauma patients: Tissue hemoglobin oxygen saturation predicts poor outcome

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