Development and validation of deep learning algorithms for detection of critical findings in head CT scans

S Chilamkurthy, R Ghosh, S Tanamala, M Biviji… - arXiv preprint arXiv …, 2018 - arxiv.org
arXiv preprint arXiv:1803.05854, 2018arxiv.org
Importance: Non-contrast head CT scan is the current standard for initial imaging of patients
with head trauma or stroke symptoms. Objective: To develop and validate a set of deep
learning algorithms for automated detection of following key findings from non-contrast head
CT scans: intracranial hemorrhage (ICH) and its types, intraparenchymal (IPH),
intraventricular (IVH), subdural (SDH), extradural (EDH) and subarachnoid (SAH)
hemorrhages, calvarial fractures, midline shift and mass effect. Design and Settings: We …
Importance
Non-contrast head CT scan is the current standard for initial imaging of patients with head trauma or stroke symptoms.
Objective
To develop and validate a set of deep learning algorithms for automated detection of following key findings from non-contrast head CT scans: intracranial hemorrhage (ICH) and its types, intraparenchymal (IPH), intraventricular (IVH), subdural (SDH), extradural (EDH) and subarachnoid (SAH) hemorrhages, calvarial fractures, midline shift and mass effect.
Design and Settings
We retrospectively collected a dataset containing 313,318 head CT scans along with their clinical reports from various centers. A part of this dataset (Qure25k dataset) was used to validate and the rest to develop algorithms. Additionally, a dataset (CQ500 dataset) was collected from different centers in two batches B1 & B2 to clinically validate the algorithms.
Main Outcomes and Measures
Original clinical radiology report and consensus of three independent radiologists were considered as gold standard for Qure25k and CQ500 datasets respectively. Area under receiver operating characteristics curve (AUC) for each finding was primarily used to evaluate the algorithms.
Results
Qure25k dataset contained 21,095 scans (mean age 43.31; 42.87% female) while batches B1 and B2 of CQ500 dataset consisted of 214 (mean age 43.40; 43.92% female) and 277 (mean age 51.70; 30.31% female) scans respectively. On Qure25k dataset, the algorithms achieved AUCs of 0.9194, 0.8977, 0.9559, 0.9161, 0.9288 and 0.9044 for detecting ICH, IPH, IVH, SDH, EDH and SAH respectively. AUCs for the same on CQ500 dataset were 0.9419, 0.9544, 0.9310, 0.9521, 0.9731 and 0.9574 respectively. For detecting calvarial fractures, midline shift and mass effect, AUCs on Qure25k dataset were 0.9244, 0.9276 and 0.8583 respectively, while AUCs on CQ500 dataset were 0.9624, 0.9697 and 0.9216 respectively.
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