Machine learning-based dynamic mortality prediction after traumatic brain injury

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dc.contributor.authorRahul Raj
dc.contributor.authorTeemu Luostarinen
dc.contributor.authorEetu Pursiainen
dc.contributor.authorJussi P. Posti
dc.contributor.authorRiikka S. K. Takala
dc.contributor.authorStepani Bendel
dc.contributor.authorTeijo Konttila
dc.contributor.authorMiikka Korja
dc.contributor.organizationfi=anestesiologia ja tehohoito|en=Anaesthesiology, Intensive Care|
dc.contributor.organizationfi=kliiniset neurotieteet|en=Clinical Neurosciences|
dc.contributor.organizationfi=tyks, vsshp|en=tyks, varha|
dc.contributor.organization-code1.2.246.10.2458963.20.74845969893
dc.contributor.organization-code1.2.246.10.2458963.20.82197219338
dc.converis.publication-id44334525
dc.converis.urlhttps://research.utu.fi/converis/portal/Publication/44334525
dc.date.accessioned2022-10-28T14:39:37Z
dc.date.available2022-10-28T14:39:37Z
dc.description.abstractOur aim was to create simple and largely scalable machine learning-based algorithms that could predict mortality in a real-time fashion during intensive care after traumatic brain injury. We performed an observational multicenter study including adult TBI patients that were monitored for intracranial pressure (ICP) for at least 24 h in three ICUs. We used machine learning-based logistic regression modeling to create two algorithms (based on ICP, mean arterial pressure [MAP], cerebral perfusion pressure [CPP] and Glasgow Coma Scale [GCS]) to predict 30-day mortality. We used a stratified crossvalidation technique for internal validation. Of 472 included patients, 92 patients (19%) died within 30 days. Following cross-validation, the ICP-MAP-CPP algorithm's area under the receiver operating characteristic curve (AUC) increased from 0.67 (95% confidence interval [CI] 0.60-0.74) on day 1 to 0.81 (95% CI 0.75-0.87) on day 5. The ICP-MAP-CPP-GCS algorithm's AUC increased from 0.72 (95% CI 0.64-0.78) on day 1 to 0.84 (95% CI 0.78-0.90) on day 5. Algorithm misclassification was seen among patients undergoing decompressive craniectomy. In conclusion, we present a new concept of dynamic prognostication for patients with TBI treated in the ICU. Our simple algorithms, based on only three and four main variables, discriminated between survivors and non-survivors with accuracies up to 81% and 84%. These open-sourced simple algorithms can likely be further developed, also in low and middleincome countries.
dc.identifier.eissn2045-2322
dc.identifier.jour-issn2045-2322
dc.identifier.olddbid189537
dc.identifier.oldhandle10024/172631
dc.identifier.urihttps://www.utupub.fi/handle/11111/40503
dc.identifier.urnURN:NBN:fi-fe2021042827457
dc.language.isoen
dc.okm.affiliatedauthorPosti, Jussi
dc.okm.affiliatedauthorTakala, Riikka
dc.okm.affiliatedauthorDataimport, tyks, vsshp
dc.okm.discipline3124 Neurology and psychiatryen_GB
dc.okm.discipline3126 Surgery, anesthesiology, intensive care, radiologyen_GB
dc.okm.discipline3124 Neurologia ja psykiatriafi_FI
dc.okm.discipline3126 Kirurgia, anestesiologia, tehohoito, radiologiafi_FI
dc.okm.internationalcopublicationnot an international co-publication
dc.okm.internationalityInternational publication
dc.okm.typeA1 ScientificArticle
dc.publisherNATURE PUBLISHING GROUP
dc.publisher.countryUnited Kingdomen_GB
dc.publisher.countryBritanniafi_FI
dc.publisher.country-codeGB
dc.relation.articlenumberARTN 17672
dc.relation.doi10.1038/s41598-019-53889-6
dc.relation.ispartofjournalScientific Reports
dc.relation.volume9
dc.source.identifierhttps://www.utupub.fi/handle/10024/172631
dc.titleMachine learning-based dynamic mortality prediction after traumatic brain injury
dc.year.issued2019

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