TILTomorrow today: dynamic factors predicting changes in intracranial pressure treatment intensity after traumatic brain injury

Shubhayu Bhattacharyay; Florian D. van Leeuwen; Erta Beqiri; Cecilia A.I. Åkerlund; Lindsay Wilson; Ewout W. Steyerberg; David W. Nelson; Andrew I.R. Maas; David K. Menon; Ari Ercole; et al.; CENTER-TBI participants and investigators; Jean-Peter Ylén

doi:10.1038/s41598-024-83862-x

TILTomorrow today: dynamic factors predicting changes in intracranial pressure treatment intensity after traumatic brain injury

Shubhayu Bhattacharyay^*
, Florian D. van Leeuwen
, Erta Beqiri
, Cecilia A.I. Åkerlund
, Lindsay Wilson
, Ewout W. Steyerberg
, David W. Nelson
, Andrew I.R. Maas
, David K. Menon
, Ari Ercole
, et al.
, CENTER-TBI participants and investigators
, Jean-Peter Ylén

^*Corresponding author for this work

BA46 Foresight and data economy

University of Cambridge
Harvard University
Leiden University
Karolinska Institutet
University of Stirling
Erasmus University Rotterdam
University of Antwerp
University of Milan
Pauls Stradiņš Clinical University Hospital
University of Trnava
Heidelberg University
Broad Institute
Charité Universitätsmedizin Berlin
University of Florida
University of Novi Sad
University of Göttingen
Lithuanian University of Health Sciences
Norwegian University of Science and Technology (NTNU)
University of California Los Angeles (UCLA)
Icometrix
Université de Lille 2
San Gerardo Hospital
University Neurosurgical Center Holland (UNCH)
Oxford Brookes University
University of Groningen
University of Pecs
Monash University

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

3 Citations (Scopus)

Abstract

Practices for controlling intracranial pressure (ICP) in traumatic brain injury (TBI) patients admitted to the intensive care unit (ICU) vary considerably between centres. To help understand the rational basis for such variance in care, this study aims to identify the patient-level predictors of changes in ICP management. We extracted all heterogeneous data (2008 pre-ICU and ICU variables) collected from a prospective cohort (n = 844, 51 ICUs) of ICP-monitored TBI patients in the Collaborative European NeuroTrauma Effectiveness Research in TBI study. We developed the TILTomorrow modelling strategy, which leverages recurrent neural networks to map a token-embedded time series representation of all variables (including missing values) to an ordinal, dynamic prediction of the following day’s five-category therapy intensity level (TIL^(Basic)) score. With 20 repeats of fivefold cross-validation, we trained TILTomorrow on different variable sets and applied the TimeSHAP (temporal extension of SHapley Additive exPlanations) algorithm to estimate variable contributions towards predictions of next-day changes in TIL^(Basic). Based on Somers’ D_xy, the full range of variables explained 68% (95% CI 65–72%) of the ordinal variation in next-day changes in TIL^(Basic) on day one and up to 51% (95% CI 45–56%) thereafter, when changes in TIL^(Basic) became less frequent. Up to 81% (95% CI 78–85%) of this explanation could be derived from non-treatment variables (i.e., markers of pathophysiology and injury severity), but the prior trajectory of ICU management significantly improved prediction of future de-escalations in ICP-targeted treatment. Whilst there was no significant difference in the predictive discriminability (i.e., area under receiver operating characteristic curve) between next-day escalations (0.80 [95% CI 0.77–0.84]) and de-escalations (0.79 [95% CI 0.76–0.82]) in TIL^(Basic) after day two, we found specific predictor effects to be more robust with de-escalations. The most important predictors of day-to-day changes in ICP management included preceding treatments, age, space-occupying lesions, ICP, metabolic derangements, and neurological function. Serial protein biomarkers were also important and may serve a useful role in the clinical armamentarium for assessing therapeutic needs. Approximately half of the ordinal variation in day-to-day changes in TIL^(Basic) after day two remained unexplained, underscoring the significant contribution of unmeasured factors or clinicians’ personal preferences in ICP treatment. At the same time, specific dynamic markers of pathophysiology associated strongly with changes in treatment intensity and, upon mechanistic investigation, may improve the timing and personalised targeting of future care.

Original language	English
Article number	95
Journal	Scientific Reports
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41598-024-83862-x
Publication status	Published - 2 Jan 2025
MoE publication type	A1 Journal article-refereed

Funding

This research was supported by the National Institute for Health Research (NIHR) Brain Injury MedTech Co-operative. CENTER-TBI was supported by the European Union 7th Framework programme (EC grant 602150). Additional funding was obtained from the Hannelore Kohl Stiftung (Germany), from OneMind (USA), from Integra LifeSciences Corporation (USA), and from NeuroTrauma Sciences (USA). CENTER-TBI also acknowledges interactions and support from the International Initiative for TBI Research (InTBIR) investigators. S.B. is funded by a Gates Cambridge Scholarship and a Paul & Daisy Soros Fellowship. E.B. is funded by the Medical Research Council (MR N013433-1) and by a Gates Cambridge Scholarship.

Keywords

Data mining
Intensive care unit
Intracranial pressure
Machine learning
Therapy intensity level
Traumatic brain injury

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10.1038/s41598-024-83862-xLicence: CC BY

Cite this

Bhattacharyay, S., van Leeuwen, F. D., Beqiri, E., Åkerlund, C. A. I., Wilson, L., Steyerberg, E. W., Nelson, D. W., Maas, A. I. R., Menon, D. K., Ercole, A., et al., CENTER-TBI participants and investigators, & Ylén, J.-P. (2025). TILTomorrow today: dynamic factors predicting changes in intracranial pressure treatment intensity after traumatic brain injury. Scientific Reports, 15(1), Article 95. https://doi.org/10.1038/s41598-024-83862-x

@article{24f7620576704f6d94e4a9c163b25251,

title = "TILTomorrow today: dynamic factors predicting changes in intracranial pressure treatment intensity after traumatic brain injury",

abstract = "Practices for controlling intracranial pressure (ICP) in traumatic brain injury (TBI) patients admitted to the intensive care unit (ICU) vary considerably between centres. To help understand the rational basis for such variance in care, this study aims to identify the patient-level predictors of changes in ICP management. We extracted all heterogeneous data (2008 pre-ICU and ICU variables) collected from a prospective cohort (n = 844, 51 ICUs) of ICP-monitored TBI patients in the Collaborative European NeuroTrauma Effectiveness Research in TBI study. We developed the TILTomorrow modelling strategy, which leverages recurrent neural networks to map a token-embedded time series representation of all variables (including missing values) to an ordinal, dynamic prediction of the following day{\textquoteright}s five-category therapy intensity level (TIL(Basic)) score. With 20 repeats of fivefold cross-validation, we trained TILTomorrow on different variable sets and applied the TimeSHAP (temporal extension of SHapley Additive exPlanations) algorithm to estimate variable contributions towards predictions of next-day changes in TIL(Basic). Based on Somers{\textquoteright} Dxy, the full range of variables explained 68\% (95\% CI 65–72\%) of the ordinal variation in next-day changes in TIL(Basic) on day one and up to 51\% (95\% CI 45–56\%) thereafter, when changes in TIL(Basic) became less frequent. Up to 81\% (95\% CI 78–85\%) of this explanation could be derived from non-treatment variables (i.e., markers of pathophysiology and injury severity), but the prior trajectory of ICU management significantly improved prediction of future de-escalations in ICP-targeted treatment. Whilst there was no significant difference in the predictive discriminability (i.e., area under receiver operating characteristic curve) between next-day escalations (0.80 [95\% CI 0.77–0.84]) and de-escalations (0.79 [95\% CI 0.76–0.82]) in TIL(Basic) after day two, we found specific predictor effects to be more robust with de-escalations. The most important predictors of day-to-day changes in ICP management included preceding treatments, age, space-occupying lesions, ICP, metabolic derangements, and neurological function. Serial protein biomarkers were also important and may serve a useful role in the clinical armamentarium for assessing therapeutic needs. Approximately half of the ordinal variation in day-to-day changes in TIL(Basic) after day two remained unexplained, underscoring the significant contribution of unmeasured factors or clinicians{\textquoteright} personal preferences in ICP treatment. At the same time, specific dynamic markers of pathophysiology associated strongly with changes in treatment intensity and, upon mechanistic investigation, may improve the timing and personalised targeting of future care.",

keywords = "Data mining, Intensive care unit, Intracranial pressure, Machine learning, Therapy intensity level, Traumatic brain injury",

author = "Shubhayu Bhattacharyay and \{van Leeuwen\}, \{Florian D.\} and Erta Beqiri and {\AA}kerlund, \{Cecilia A.I.\} and Lindsay Wilson and Steyerberg, \{Ewout W.\} and Nelson, \{David W.\} and Maas, \{Andrew I.R.\} and Menon, \{David K.\} and Ari Ercole and Tommaso Zoerle and Agate Ziverte and Veronika Zelinkova and Zeiler, \{Frederick A.\} and Alexander Younsi and Zhihui Yang and Stefan Wolf and Stefan Winzeck and Guy Williams and Eveline Wiegers and Daniel Whitehouse and Wang, \{Kevin K.W.\} and Petar Vulekovic and Daphne Voormolen and \{von Steinb{\"u}chel\}, Nicole and Victor Volovici and Rimantas Vilcinis and Anne Vik and Vespa, \{Paul M.\} and Jan Verheyden and Kimberley Velt and Emmanuel Vega and Alessia Vargiolu and \{van Wijk\}, \{Roel P.J.\} and \{Vande Vyvere\}, Thijs and \{van Veen\}, Ernest and \{van Heugten\}, Caroline and \{Van Hecke\}, Wim and \{van Essen\}, \{Thomas A.\} and \{van Erp\}, \{Inge A.M.\} and \{van Dijck\}, \{Jeroen T.J.M.\} and \{van der Naalt\}, Joukje and \{Van der Steen\}, Gregory and \{van der Jagt\}, Mathieu and Zolt{\'a}n V{\'a}mos and Egils Valeinis and Shirley Vallance and Peter Vajkoczy and Andreas Unterberg and \{et al.\} and \{CENTER-TBI participants and investigators\} and Jean-Peter Yl{\'e}n",

year = "2025",

month = jan,

day = "2",

doi = "10.1038/s41598-024-83862-x",

language = "English",

volume = "15",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Springer Nature",

number = "1",

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Bhattacharyay, S, van Leeuwen, FD, Beqiri, E, Åkerlund, CAI, Wilson, L, Steyerberg, EW, Nelson, DW, Maas, AIR, Menon, DK, Ercole, A, et al., CENTER-TBI participants and investigators & Ylén, J-P 2025, 'TILTomorrow today: dynamic factors predicting changes in intracranial pressure treatment intensity after traumatic brain injury', Scientific Reports, vol. 15, no. 1, 95. https://doi.org/10.1038/s41598-024-83862-x

TY - JOUR

T1 - TILTomorrow today

T2 - dynamic factors predicting changes in intracranial pressure treatment intensity after traumatic brain injury

AU - Bhattacharyay, Shubhayu

AU - van Leeuwen, Florian D.

AU - Beqiri, Erta

AU - Åkerlund, Cecilia A.I.

AU - Wilson, Lindsay

AU - Steyerberg, Ewout W.

AU - Nelson, David W.

AU - Maas, Andrew I.R.

AU - Menon, David K.

AU - Ercole, Ari

AU - Zoerle, Tommaso

AU - Ziverte, Agate

AU - Zelinkova, Veronika

AU - Zeiler, Frederick A.

AU - Younsi, Alexander

AU - Yang, Zhihui

AU - Wolf, Stefan

AU - Winzeck, Stefan

AU - Williams, Guy

AU - Wiegers, Eveline

AU - Whitehouse, Daniel

AU - Wang, Kevin K.W.

AU - Vulekovic, Petar

AU - Voormolen, Daphne

AU - von Steinbüchel, Nicole

AU - Volovici, Victor

AU - Vilcinis, Rimantas

AU - Vik, Anne

AU - Vespa, Paul M.

AU - Verheyden, Jan

AU - Velt, Kimberley

AU - Vega, Emmanuel

AU - Vargiolu, Alessia

AU - van Wijk, Roel P.J.

AU - Vande Vyvere, Thijs

AU - van Veen, Ernest

AU - van Heugten, Caroline

AU - Van Hecke, Wim

AU - van Essen, Thomas A.

AU - van Erp, Inge A.M.

AU - van Dijck, Jeroen T.J.M.

AU - van der Naalt, Joukje

AU - Van der Steen, Gregory

AU - van der Jagt, Mathieu

AU - Vámos, Zoltán

AU - Valeinis, Egils

AU - Vallance, Shirley

AU - Vajkoczy, Peter

AU - Unterberg, Andreas

AU - et al.

AU - CENTER-TBI participants and investigators

AU - Ylén, Jean-Peter

PY - 2025/1/2

Y1 - 2025/1/2

N2 - Practices for controlling intracranial pressure (ICP) in traumatic brain injury (TBI) patients admitted to the intensive care unit (ICU) vary considerably between centres. To help understand the rational basis for such variance in care, this study aims to identify the patient-level predictors of changes in ICP management. We extracted all heterogeneous data (2008 pre-ICU and ICU variables) collected from a prospective cohort (n = 844, 51 ICUs) of ICP-monitored TBI patients in the Collaborative European NeuroTrauma Effectiveness Research in TBI study. We developed the TILTomorrow modelling strategy, which leverages recurrent neural networks to map a token-embedded time series representation of all variables (including missing values) to an ordinal, dynamic prediction of the following day’s five-category therapy intensity level (TIL(Basic)) score. With 20 repeats of fivefold cross-validation, we trained TILTomorrow on different variable sets and applied the TimeSHAP (temporal extension of SHapley Additive exPlanations) algorithm to estimate variable contributions towards predictions of next-day changes in TIL(Basic). Based on Somers’ Dxy, the full range of variables explained 68% (95% CI 65–72%) of the ordinal variation in next-day changes in TIL(Basic) on day one and up to 51% (95% CI 45–56%) thereafter, when changes in TIL(Basic) became less frequent. Up to 81% (95% CI 78–85%) of this explanation could be derived from non-treatment variables (i.e., markers of pathophysiology and injury severity), but the prior trajectory of ICU management significantly improved prediction of future de-escalations in ICP-targeted treatment. Whilst there was no significant difference in the predictive discriminability (i.e., area under receiver operating characteristic curve) between next-day escalations (0.80 [95% CI 0.77–0.84]) and de-escalations (0.79 [95% CI 0.76–0.82]) in TIL(Basic) after day two, we found specific predictor effects to be more robust with de-escalations. The most important predictors of day-to-day changes in ICP management included preceding treatments, age, space-occupying lesions, ICP, metabolic derangements, and neurological function. Serial protein biomarkers were also important and may serve a useful role in the clinical armamentarium for assessing therapeutic needs. Approximately half of the ordinal variation in day-to-day changes in TIL(Basic) after day two remained unexplained, underscoring the significant contribution of unmeasured factors or clinicians’ personal preferences in ICP treatment. At the same time, specific dynamic markers of pathophysiology associated strongly with changes in treatment intensity and, upon mechanistic investigation, may improve the timing and personalised targeting of future care.

AB - Practices for controlling intracranial pressure (ICP) in traumatic brain injury (TBI) patients admitted to the intensive care unit (ICU) vary considerably between centres. To help understand the rational basis for such variance in care, this study aims to identify the patient-level predictors of changes in ICP management. We extracted all heterogeneous data (2008 pre-ICU and ICU variables) collected from a prospective cohort (n = 844, 51 ICUs) of ICP-monitored TBI patients in the Collaborative European NeuroTrauma Effectiveness Research in TBI study. We developed the TILTomorrow modelling strategy, which leverages recurrent neural networks to map a token-embedded time series representation of all variables (including missing values) to an ordinal, dynamic prediction of the following day’s five-category therapy intensity level (TIL(Basic)) score. With 20 repeats of fivefold cross-validation, we trained TILTomorrow on different variable sets and applied the TimeSHAP (temporal extension of SHapley Additive exPlanations) algorithm to estimate variable contributions towards predictions of next-day changes in TIL(Basic). Based on Somers’ Dxy, the full range of variables explained 68% (95% CI 65–72%) of the ordinal variation in next-day changes in TIL(Basic) on day one and up to 51% (95% CI 45–56%) thereafter, when changes in TIL(Basic) became less frequent. Up to 81% (95% CI 78–85%) of this explanation could be derived from non-treatment variables (i.e., markers of pathophysiology and injury severity), but the prior trajectory of ICU management significantly improved prediction of future de-escalations in ICP-targeted treatment. Whilst there was no significant difference in the predictive discriminability (i.e., area under receiver operating characteristic curve) between next-day escalations (0.80 [95% CI 0.77–0.84]) and de-escalations (0.79 [95% CI 0.76–0.82]) in TIL(Basic) after day two, we found specific predictor effects to be more robust with de-escalations. The most important predictors of day-to-day changes in ICP management included preceding treatments, age, space-occupying lesions, ICP, metabolic derangements, and neurological function. Serial protein biomarkers were also important and may serve a useful role in the clinical armamentarium for assessing therapeutic needs. Approximately half of the ordinal variation in day-to-day changes in TIL(Basic) after day two remained unexplained, underscoring the significant contribution of unmeasured factors or clinicians’ personal preferences in ICP treatment. At the same time, specific dynamic markers of pathophysiology associated strongly with changes in treatment intensity and, upon mechanistic investigation, may improve the timing and personalised targeting of future care.

KW - Data mining

KW - Intensive care unit

KW - Intracranial pressure

KW - Machine learning

KW - Therapy intensity level

KW - Traumatic brain injury

UR - https://www.scopus.com/pages/publications/85213945582

U2 - 10.1038/s41598-024-83862-x

DO - 10.1038/s41598-024-83862-x

M3 - Article

C2 - 39747195

AN - SCOPUS:85213945582

SN - 2045-2322

VL - 15

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 95

ER -

TILTomorrow today: dynamic factors predicting changes in intracranial pressure treatment intensity after traumatic brain injury

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