Evaluation of TEG® and RoTEM® inter-changeability in trauma patients

Abstract Background Massive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma, and is associated with increased mortality. A number of recent trials suggest that viscoelastic haemostatic assays (VHA), such as thromboelasto...

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Published inInjury Vol. 44; no. 5; pp. 600 - 605
Main Authors Hagemo, Jostein S, Næss, Paal A, Johansson, Pär, Windeløv, Nis A, Cohen, Mitchell Jay, Røislien, Jo, Brohi, Karim, Heier, Hans Erik, Hestnes, Morten, Gaarder, Christine
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ltd 01.05.2013
Subjects
Adult
Blood Coagulation
Blood Coagulation Disorders - blood
Blood Coagulation Disorders - etiology
Blood Coagulation Disorders - genetics
Blood Coagulation Disorders - therapy
Coagulopathy
Denmark - epidemiology
Female
Haemorrhage
Hemorrhage - blood
Hemorrhage - diagnosis
Hemorrhage - therapy
Hemostasis
Humans
Inter-changeability
Male
Middle Aged
Norway - epidemiology
Orthopedics
Reproducibility of Results
RoTEM
San Francisco - epidemiology
TEG
Thrombelastography - instrumentation
Thrombelastography - methods
Trauma
Trauma Centers
Whole Blood Coagulation Time
Wounds and Injuries - blood
Wounds and Injuries - complications
Wounds and Injuries - therapy
San Francisco
Denmark
Norway
RoTEM
Inter-changeability
Haemorrhage
Trauma
Coagulopathy
TEG
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Abstract Abstract Background Massive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma, and is associated with increased mortality. A number of recent trials suggest that viscoelastic haemostatic assays (VHA), such as thromboelastography and thromboelastometry, are useful tools in guiding transfusion. Treatment algorithms exist for the use of VHAs but are not validated in traumatic haemorrhage. In this study we examined the inter-changeability of two commonly used VHAs, TEG® and RoTEM®. Methods A total of 184 trauma patients over the age of 18, requiring full trauma team activation, were included at three different hospitals in three different countries (Copenhagen, Denmark, San Francisco, CA, USA and Oslo, Norway). Blood samples were drawn immediately upon arrival, and TEG® and RoTEM® analyzed simultaneously. Correlations were calculated using. Spearman's rank correlation coefficient. Agreement was evaluated by Bland–Altman plots and calculation of limits of agreement. Results The mean ISS in the total population was 17, and the mortality was 16.5%. Mean base excess was −2.8 (SD: 4.2). The correlation coefficient for corresponding values for the two devices was 0.24 for the R -time vs CT in all centres combined. For the K -time vs CFT the correlation was 0.48, for the α -angleTEG vs α -angleRoTEM 0.44, and for MA vs MCF 0.76. Limits of agreement exceeded the preset clinically acceptable deviation of 10% for all variables in all centres except for MA/MCF in one centre (Copenhagen). Generally, correlation coefficients were lower and agreement poorer in the one centre (Oslo) where measurements were performed bedside by clinicians. Conclusion Inter-changeability between TEG® and RoTEM® is limited in the trauma setting. Agreement seems poorer when clinicians operate the devices. Development and validation of separate treatment algorithms for the two devices is required.
AbstractList BACKGROUNDMassive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma, and is associated with increased mortality. A number of recent trials suggest that viscoelastic haemostatic assays (VHA), such as thromboelastography and thromboelastometry, are useful tools in guiding transfusion. Treatment algorithms exist for the use of VHAs but are not validated in traumatic haemorrhage. In this study we examined the inter-changeability of two commonly used VHAs, TEG(®) and RoTEM(®). METHODSA total of 184 trauma patients over the age of 18, requiring full trauma team activation, were included at three different hospitals in three different countries (Copenhagen, Denmark, San Francisco, CA, USA and Oslo, Norway). Blood samples were drawn immediately upon arrival, and TEG(®) and RoTEM(®) analyzed simultaneously. Correlations were calculated using. Spearman's rank correlation coefficient. Agreement was evaluated by Bland-Altman plots and calculation of limits of agreement. RESULTSThe mean ISS in the total population was 17, and the mortality was 16.5%. Mean base excess was -2.8 (SD: 4.2). The correlation coefficient for corresponding values for the two devices was 0.24 for the R-time vs CT in all centres combined. For the K-time vs CFT the correlation was 0.48, for the α-angleTEG vs α-angleRoTEM 0.44, and for MA vs MCF 0.76. Limits of agreement exceeded the preset clinically acceptable deviation of 10% for all variables in all centres except for MA/MCF in one centre (Copenhagen). Generally, correlation coefficients were lower and agreement poorer in the one centre (Oslo) where measurements were performed bedside by clinicians. CONCLUSIONInter-changeability between TEG(®) and RoTEM(®) is limited in the trauma setting. Agreement seems poorer when clinicians operate the devices. Development and validation of separate treatment algorithms for the two devices is required.
Abstract Background Massive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma, and is associated with increased mortality. A number of recent trials suggest that viscoelastic haemostatic assays (VHA), such as thromboelastography and thromboelastometry, are useful tools in guiding transfusion. Treatment algorithms exist for the use of VHAs but are not validated in traumatic haemorrhage. In this study we examined the inter-changeability of two commonly used VHAs, TEG® and RoTEM®. Methods A total of 184 trauma patients over the age of 18, requiring full trauma team activation, were included at three different hospitals in three different countries (Copenhagen, Denmark, San Francisco, CA, USA and Oslo, Norway). Blood samples were drawn immediately upon arrival, and TEG® and RoTEM® analyzed simultaneously. Correlations were calculated using. Spearman's rank correlation coefficient. Agreement was evaluated by Bland–Altman plots and calculation of limits of agreement. Results The mean ISS in the total population was 17, and the mortality was 16.5%. Mean base excess was −2.8 (SD: 4.2). The correlation coefficient for corresponding values for the two devices was 0.24 for the R -time vs CT in all centres combined. For the K -time vs CFT the correlation was 0.48, for the α -angleTEG vs α -angleRoTEM 0.44, and for MA vs MCF 0.76. Limits of agreement exceeded the preset clinically acceptable deviation of 10% for all variables in all centres except for MA/MCF in one centre (Copenhagen). Generally, correlation coefficients were lower and agreement poorer in the one centre (Oslo) where measurements were performed bedside by clinicians. Conclusion Inter-changeability between TEG® and RoTEM® is limited in the trauma setting. Agreement seems poorer when clinicians operate the devices. Development and validation of separate treatment algorithms for the two devices is required.
Massive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma, and is associated with increased mortality. A number of recent trials suggest that viscoelastic haemostatic assays (VHA), such as thromboelastography and thromboelastometry, are useful tools in guiding transfusion. Treatment algorithms exist for the use of VHAs but are not validated in traumatic haemorrhage. In this study we examined the inter-changeability of two commonly used VHAs, TEG® and RoTEM®. A total of 184 trauma patients over the age of 18, requiring full trauma team activation, were included at three different hospitals in three different countries (Copenhagen, Denmark, San Francisco, CA, USA and Oslo, Norway). Blood samples were drawn immediately upon arrival, and TEG® and RoTEM® analyzed simultaneously. Correlations were calculated using. Spearman's rank correlation coefficient. Agreement was evaluated by Bland–Altman plots and calculation of limits of agreement. The mean ISS in the total population was 17, and the mortality was 16.5%. Mean base excess was −2.8 (SD: 4.2). The correlation coefficient for corresponding values for the two devices was 0.24 for the R-time vs CT in all centres combined. For the K-time vs CFT the correlation was 0.48, for the α-angleTEG vs α-angleRoTEM 0.44, and for MA vs MCF 0.76. Limits of agreement exceeded the preset clinically acceptable deviation of 10% for all variables in all centres except for MA/MCF in one centre (Copenhagen). Generally, correlation coefficients were lower and agreement poorer in the one centre (Oslo) where measurements were performed bedside by clinicians. Inter-changeability between TEG® and RoTEM® is limited in the trauma setting. Agreement seems poorer when clinicians operate the devices. Development and validation of separate treatment algorithms for the two devices is required.
Massive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma, and is associated with increased mortality. A number of recent trials suggest that viscoelastic haemostatic assays (VHA), such as thromboelastography and thromboelastometry, are useful tools in guiding transfusion. Treatment algorithms exist for the use of VHAs but are not validated in traumatic haemorrhage. In this study we examined the inter-changeability of two commonly used VHAs, TEG(®) and RoTEM(®). A total of 184 trauma patients over the age of 18, requiring full trauma team activation, were included at three different hospitals in three different countries (Copenhagen, Denmark, San Francisco, CA, USA and Oslo, Norway). Blood samples were drawn immediately upon arrival, and TEG(®) and RoTEM(®) analyzed simultaneously. Correlations were calculated using. Spearman's rank correlation coefficient. Agreement was evaluated by Bland-Altman plots and calculation of limits of agreement. The mean ISS in the total population was 17, and the mortality was 16.5%. Mean base excess was -2.8 (SD: 4.2). The correlation coefficient for corresponding values for the two devices was 0.24 for the R-time vs CT in all centres combined. For the K-time vs CFT the correlation was 0.48, for the α-angleTEG vs α-angleRoTEM 0.44, and for MA vs MCF 0.76. Limits of agreement exceeded the preset clinically acceptable deviation of 10% for all variables in all centres except for MA/MCF in one centre (Copenhagen). Generally, correlation coefficients were lower and agreement poorer in the one centre (Oslo) where measurements were performed bedside by clinicians. Inter-changeability between TEG(®) and RoTEM(®) is limited in the trauma setting. Agreement seems poorer when clinicians operate the devices. Development and validation of separate treatment algorithms for the two devices is required.
Author Hestnes, Morten
Hagemo, Jostein S
Næss, Paal A
Gaarder, Christine
Røislien, Jo
Cohen, Mitchell Jay
Windeløv, Nis A
Johansson, Pär
Brohi, Karim
Heier, Hans Erik
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  fullname: Hestnes, Morten
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  fullname: Gaarder, Christine
BackLink https://www.ncbi.nlm.nih.gov/pubmed/23260867$$D View this record in MEDLINE/PubMed
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Issue 5
Keywords RoTEM
Inter-changeability
Haemorrhage
Trauma
Coagulopathy
TEG
Language English
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Snippet Abstract Background Massive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma,...
Massive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma, and is associated with...
BACKGROUNDMassive haemorrhage is a leading cause of preventable deaths in trauma. Traumatic coagulopathy is frequently present early after trauma, and is...
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pubmed
elsevier
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Publisher
StartPage 600
SubjectTerms Adult
Blood Coagulation
Blood Coagulation Disorders - blood
Blood Coagulation Disorders - etiology
Blood Coagulation Disorders - genetics
Blood Coagulation Disorders - therapy
Coagulopathy
Denmark - epidemiology
Female
Haemorrhage
Hemorrhage - blood
Hemorrhage - diagnosis
Hemorrhage - therapy
Hemostasis
Humans
Inter-changeability
Male
Middle Aged
Norway - epidemiology
Orthopedics
Reproducibility of Results
RoTEM
San Francisco - epidemiology
TEG
Thrombelastography - instrumentation
Thrombelastography - methods
Trauma
Trauma Centers
Whole Blood Coagulation Time
Wounds and Injuries - blood
Wounds and Injuries - complications
Wounds and Injuries - therapy
Title Evaluation of TEG® and RoTEM® inter-changeability in trauma patients
URI https://www.clinicalkey.es/playcontent/1-s2.0-S0020138312005141
https://dx.doi.org/10.1016/j.injury.2012.11.016
https://www.ncbi.nlm.nih.gov/pubmed/23260867
https://search.proquest.com/docview/1325332809
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