Machine Learning Algorithm Identifies Patients at High Risk for Early Complications After Intracranial Tumor Surgery: Registry-Based Cohort Study

Publikation

Machine Learning Algorithm Identifies Patients at High Risk for Early Complications After Intracranial Tumor Surgery: Registry-Based Cohort Study

Wissenschaftlicher Artikel/Review - 01.01.2019

van Niftrik Christiaan H B, Regli Luca, Krayenbühl Niklaus, Bozinov Oliver, Sarnthein Johannes, Fedele Tommaso, Sebök Martina, Akeret Kevin, Stienen Martin N., Fierstra Jorn, Staartjes Victor E, van der Wouden Frank, Serra Carlo

Zitation

van Niftrik C, Regli L, Krayenbühl N, Bozinov O, Sarnthein J, Fedele T, Sebök M, Akeret K, Stienen M, Fierstra J, Staartjes V, van der Wouden F, Serra C. Machine Learning Algorithm Identifies Patients at High Risk for Early Complications After Intracranial Tumor Surgery: Registry-Based Cohort Study. Neurosurgery 2019; 85:E756-E764.

Art

Wissenschaftlicher Artikel/Review (Englisch)

Zeitschrift

Neurosurgery 2019; 85

Veröffentlichungsdatum

01.01.2019

eISSN (Online)

1524-4040

Seiten

E756-E764

Kurzbeschreibung/Zielsetzung

INTRODUCTION
Reliable preoperative identification of patients at high risk for early postoperative complications occurring within 24 h (EPC) of intracranial tumor surgery can improve patient safety and postoperative management. Statistical analysis using machine learning algorithms may generate models that predict EPC better than conventional statistical methods.

OBJECTIVE
To train such a model and to assess its predictive ability.

METHODS
This cohort study included patients from an ongoing prospective patient registry at a single tertiary care center with an intracranial tumor that underwent elective neurosurgery between June 2015 and May 2017. EPC were categorized based on the Clavien-Dindo classification score. Conventional statistical methods and different machine learning algorithms were used to predict EPC using preoperatively available patient, clinical, and surgery-related variables. The performance of each model was derived from examining classification performance metrics on an out-of-sample test dataset.

RESULTS
EPC occurred in 174 (26%) of 668 patients included in the analysis. Gradient boosting machine learning algorithms provided the model best predicting the probability of an EPC. The model scored an accuracy of 0.70 (confidence interval [CI] 0.59-0.79) with an area under the curve (AUC) of 0.73 and a sensitivity and specificity of 0.80 (CI 0.58-0.91) and 0.67 (CI 0.53-0.77) on the test set. The conventional statistical model showed inferior predictive power (test set: accuracy: 0.59 (CI 0.47-0.71); AUC: 0.64; sensitivity: 0.76 (CI 0.64-0.85); specificity: 0.53 (CI 0.41-0.64)).

CONCLUSION
Using gradient boosting machine learning algorithms, it was possible to create a prediction model superior to conventional statistical methods. While conventional statistical methods favor patients' characteristics, we found the pathology and surgery-related (histology, anatomical localization, surgical access) variables to be better predictors of EPC.