Multiple organ dysfunction after trauma

E. Cole; S. Gillespie; P. Vulliamy; K. Brohi; H. Akkad; K. Apostolidou; R. Ardley; C. Aylwin; C. Bassford; S. Bonner; A. Brooks; T. Cairns; M. Cecconi; F. Clark; G. Dempsey; E. Denison Davies; R. Docking; J. Eddlestone; D. Ellis; J. Evans; M. Galea; M. Healy; D. Horner; R. Howarth; J. Jansen; J. Jones; C. Kaye; J. Keep; D. Kerslake; J. Kilic; M. Leong; V. Martinson; B. McIldowie; S. Michael; J. Millo; M. Morgan; R. O'Leary; J. Oram; L. Ortiz-Ruiz De Gordoa; K. Porter; S. Raby; J. Service; D. Shaw; J. D. Smith; N. Smith; M. Stotz; E. Thomas; M. Thomas; A. Vincent; G. Ward

doi:10.1002/bjs.11361

Multiple organ dysfunction after trauma

E. Cole, S. Gillespie, P. Vulliamy, K. Brohi, H. Akkad, K. Apostolidou, R. Ardley, C. Aylwin, C. Bassford, S. Bonner, A. Brooks, T. Cairns, M. Cecconi, F. Clark, G. Dempsey, E. Denison Davies, R. Docking, J. Eddlestone, D. Ellis, J. EvansM. Galea, M. Healy, D. Horner, R. Howarth, J. Jansen, J. Jones, C. Kaye, J. Keep, D. Kerslake, J. Kilic, M. Leong, V. Martinson, B. McIldowie, S. Michael, J. Millo, M. Morgan, R. O'Leary, J. Oram, L. Ortiz-Ruiz De Gordoa, K. Porter, S. Raby, J. Service, D. Shaw, J. D. Smith, N. Smith, M. Stotz, E. Thomas, M. Thomas, A. Vincent, G. Ward

Health Sciences & Kinesiology

Queen Mary University of London

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

81 Scopus citations

Abstract

Background: The nature of multiple organ dysfunction syndrome (MODS) after traumatic injury is evolving as resuscitation practices advance and more patients survive their injuries to reach critical care. The aim of this study was to characterize contemporary MODS subtypes in trauma critical care at a population level. Methods: Adult patients admitted to major trauma centre critical care units were enrolled in this 4-week point-prevalence study. MODS was defined by a daily total Sequential Organ Failure Assessment (SOFA) score of more than 5. Hierarchical clustering of SOFA scores over time was used to identify MODS subtypes. Results: Some 440 patients were enrolled, of whom 245 (55·7 per cent) developed MODS. MODS carried a high mortality rate (22·0 per cent versus 0·5 per cent in those without MODS; P < 0·001) and 24·0 per cent of deaths occurred within the first 48 h after injury. Three patterns of MODS were identified, all present on admission. Cluster 1 MODS resolved early with a median time to recovery of 4 days and a mortality rate of 14·4 per cent. Cluster 2 had a delayed recovery (median 13 days) and a mortality rate of 35 per cent. Cluster 3 had a prolonged recovery (median 25 days) and high associated mortality rate of 46 per cent. Multivariable analysis revealed distinct clinical associations for each form of MODS; 24-hour crystalloid administration was associated strongly with cluster 1 (P = 0·009), traumatic brain injury with cluster 2 (P = 0·002) and admission shock severity with cluster 3 (P = 0·003). Conclusion: Contemporary MODS has at least three distinct types based on patterns of severity and recovery. Further characterization of MODS subtypes and their underlying pathophysiology may lead to future opportunities for early stratification and targeted interventions.

Original language	English
Pages (from-to)	402-412
Number of pages	11
Journal	British Journal of Surgery
Volume	107
Issue number	4
DOIs	https://doi.org/10.1002/bjs.11361
State	Published - Mar 1 2020

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Surgery

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10.1002/bjs.11361

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Cole, E., Gillespie, S., Vulliamy, P., Brohi, K., Akkad, H., Apostolidou, K., Ardley, R., Aylwin, C., Bassford, C., Bonner, S., Brooks, A., Cairns, T., Cecconi, M., Clark, F., Dempsey, G., Denison Davies, E., Docking, R., Eddlestone, J., Ellis, D., ... Ward, G. (2020). Multiple organ dysfunction after trauma. British Journal of Surgery, 107(4), 402-412. https://doi.org/10.1002/bjs.11361

@article{b6607cb909b74fa2a7ae833fd73c415b,

title = "Multiple organ dysfunction after trauma",

abstract = "Background: The nature of multiple organ dysfunction syndrome (MODS) after traumatic injury is evolving as resuscitation practices advance and more patients survive their injuries to reach critical care. The aim of this study was to characterize contemporary MODS subtypes in trauma critical care at a population level. Methods: Adult patients admitted to major trauma centre critical care units were enrolled in this 4-week point-prevalence study. MODS was defined by a daily total Sequential Organ Failure Assessment (SOFA) score of more than 5. Hierarchical clustering of SOFA scores over time was used to identify MODS subtypes. Results: Some 440 patients were enrolled, of whom 245 (55·7 per cent) developed MODS. MODS carried a high mortality rate (22·0 per cent versus 0·5 per cent in those without MODS; P < 0·001) and 24·0 per cent of deaths occurred within the first 48 h after injury. Three patterns of MODS were identified, all present on admission. Cluster 1 MODS resolved early with a median time to recovery of 4 days and a mortality rate of 14·4 per cent. Cluster 2 had a delayed recovery (median 13 days) and a mortality rate of 35 per cent. Cluster 3 had a prolonged recovery (median 25 days) and high associated mortality rate of 46 per cent. Multivariable analysis revealed distinct clinical associations for each form of MODS; 24-hour crystalloid administration was associated strongly with cluster 1 (P = 0·009), traumatic brain injury with cluster 2 (P = 0·002) and admission shock severity with cluster 3 (P = 0·003). Conclusion: Contemporary MODS has at least three distinct types based on patterns of severity and recovery. Further characterization of MODS subtypes and their underlying pathophysiology may lead to future opportunities for early stratification and targeted interventions.",

author = "E. Cole and S. Gillespie and P. Vulliamy and K. Brohi and H. Akkad and K. Apostolidou and R. Ardley and C. Aylwin and C. Bassford and S. Bonner and A. Brooks and T. Cairns and M. Cecconi and F. Clark and G. Dempsey and {Denison Davies}, E. and R. Docking and J. Eddlestone and D. Ellis and J. Evans and M. Galea and M. Healy and D. Horner and R. Howarth and J. Jansen and J. Jones and C. Kaye and J. Keep and D. Kerslake and J. Kilic and M. Leong and V. Martinson and B. McIldowie and S. Michael and J. Millo and M. Morgan and R. O'Leary and J. Oram and {Ortiz-Ruiz De Gordoa}, L. and K. Porter and S. Raby and J. Service and D. Shaw and Smith, {J. D.} and N. Smith and M. Stotz and E. Thomas and M. Thomas and A. Vincent and G. Ward",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors. BJS published by John Wiley & Sons Ltd on behalf of BJS Society Ltd.",

year = "2020",

month = mar,

day = "1",

doi = "10.1002/bjs.11361",

language = "English",

volume = "107",

pages = "402--412",

journal = "British Journal of Surgery",

issn = "0007-1323",

publisher = "Oxford University Press",

number = "4",

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Cole, E, Gillespie, S, Vulliamy, P, Brohi, K, Akkad, H, Apostolidou, K, Ardley, R, Aylwin, C, Bassford, C, Bonner, S, Brooks, A, Cairns, T, Cecconi, M, Clark, F, Dempsey, G, Denison Davies, E, Docking, R, Eddlestone, J, Ellis, D, Evans, J, Galea, M, Healy, M, Horner, D, Howarth, R, Jansen, J, Jones, J, Kaye, C, Keep, J, Kerslake, D, Kilic, J, Leong, M, Martinson, V, McIldowie, B, Michael, S, Millo, J, Morgan, M, O'Leary, R, Oram, J, Ortiz-Ruiz De Gordoa, L, Porter, K, Raby, S, Service, J, Shaw, D, Smith, JD, Smith, N, Stotz, M, Thomas, E, Thomas, M, Vincent, A & Ward, G 2020, 'Multiple organ dysfunction after trauma', British Journal of Surgery, vol. 107, no. 4, pp. 402-412. https://doi.org/10.1002/bjs.11361

TY - JOUR

T1 - Multiple organ dysfunction after trauma

AU - Cole, E.

AU - Gillespie, S.

AU - Vulliamy, P.

AU - Brohi, K.

AU - Akkad, H.

AU - Apostolidou, K.

AU - Ardley, R.

AU - Aylwin, C.

AU - Bassford, C.

AU - Bonner, S.

AU - Brooks, A.

AU - Cairns, T.

AU - Cecconi, M.

AU - Clark, F.

AU - Dempsey, G.

AU - Denison Davies, E.

AU - Docking, R.

AU - Eddlestone, J.

AU - Ellis, D.

AU - Evans, J.

AU - Galea, M.

AU - Healy, M.

AU - Horner, D.

AU - Howarth, R.

AU - Jansen, J.

AU - Jones, J.

AU - Kaye, C.

AU - Keep, J.

AU - Kerslake, D.

AU - Kilic, J.

AU - Leong, M.

AU - Martinson, V.

AU - McIldowie, B.

AU - Michael, S.

AU - Millo, J.

AU - Morgan, M.

AU - O'Leary, R.

AU - Oram, J.

AU - Ortiz-Ruiz De Gordoa, L.

AU - Porter, K.

AU - Raby, S.

AU - Service, J.

AU - Shaw, D.

AU - Smith, J. D.

AU - Smith, N.

AU - Stotz, M.

AU - Thomas, E.

AU - Thomas, M.

AU - Vincent, A.

AU - Ward, G.

PY - 2020/3/1

Y1 - 2020/3/1

N2 - Background: The nature of multiple organ dysfunction syndrome (MODS) after traumatic injury is evolving as resuscitation practices advance and more patients survive their injuries to reach critical care. The aim of this study was to characterize contemporary MODS subtypes in trauma critical care at a population level. Methods: Adult patients admitted to major trauma centre critical care units were enrolled in this 4-week point-prevalence study. MODS was defined by a daily total Sequential Organ Failure Assessment (SOFA) score of more than 5. Hierarchical clustering of SOFA scores over time was used to identify MODS subtypes. Results: Some 440 patients were enrolled, of whom 245 (55·7 per cent) developed MODS. MODS carried a high mortality rate (22·0 per cent versus 0·5 per cent in those without MODS; P < 0·001) and 24·0 per cent of deaths occurred within the first 48 h after injury. Three patterns of MODS were identified, all present on admission. Cluster 1 MODS resolved early with a median time to recovery of 4 days and a mortality rate of 14·4 per cent. Cluster 2 had a delayed recovery (median 13 days) and a mortality rate of 35 per cent. Cluster 3 had a prolonged recovery (median 25 days) and high associated mortality rate of 46 per cent. Multivariable analysis revealed distinct clinical associations for each form of MODS; 24-hour crystalloid administration was associated strongly with cluster 1 (P = 0·009), traumatic brain injury with cluster 2 (P = 0·002) and admission shock severity with cluster 3 (P = 0·003). Conclusion: Contemporary MODS has at least three distinct types based on patterns of severity and recovery. Further characterization of MODS subtypes and their underlying pathophysiology may lead to future opportunities for early stratification and targeted interventions.

AB - Background: The nature of multiple organ dysfunction syndrome (MODS) after traumatic injury is evolving as resuscitation practices advance and more patients survive their injuries to reach critical care. The aim of this study was to characterize contemporary MODS subtypes in trauma critical care at a population level. Methods: Adult patients admitted to major trauma centre critical care units were enrolled in this 4-week point-prevalence study. MODS was defined by a daily total Sequential Organ Failure Assessment (SOFA) score of more than 5. Hierarchical clustering of SOFA scores over time was used to identify MODS subtypes. Results: Some 440 patients were enrolled, of whom 245 (55·7 per cent) developed MODS. MODS carried a high mortality rate (22·0 per cent versus 0·5 per cent in those without MODS; P < 0·001) and 24·0 per cent of deaths occurred within the first 48 h after injury. Three patterns of MODS were identified, all present on admission. Cluster 1 MODS resolved early with a median time to recovery of 4 days and a mortality rate of 14·4 per cent. Cluster 2 had a delayed recovery (median 13 days) and a mortality rate of 35 per cent. Cluster 3 had a prolonged recovery (median 25 days) and high associated mortality rate of 46 per cent. Multivariable analysis revealed distinct clinical associations for each form of MODS; 24-hour crystalloid administration was associated strongly with cluster 1 (P = 0·009), traumatic brain injury with cluster 2 (P = 0·002) and admission shock severity with cluster 3 (P = 0·003). Conclusion: Contemporary MODS has at least three distinct types based on patterns of severity and recovery. Further characterization of MODS subtypes and their underlying pathophysiology may lead to future opportunities for early stratification and targeted interventions.

UR - http://www.scopus.com/inward/record.url?scp=85074776466&partnerID=8YFLogxK

U2 - 10.1002/bjs.11361

DO - 10.1002/bjs.11361

M3 - Article

C2 - 31691956

AN - SCOPUS:85074776466

SN - 0007-1323

VL - 107

SP - 402

EP - 412

JO - British Journal of Surgery

JF - British Journal of Surgery

IS - 4

ER -

Multiple organ dysfunction after trauma

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