2020
DOI: 10.3390/jcm9092718
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Neural Networks to Predict Radiographic Brain Injury in Pediatric Patients Treated with Extracorporeal Membrane Oxygenation

Abstract: Brain injury is a significant source of morbidity and mortality for pediatric patients treated with Extracorporeal Membrane Oxygenation (ECMO). Our objective was to utilize neural networks to predict radiographic evidence of brain injury in pediatric ECMO-supported patients and identify specific variables that can be explored for future research. Data from 174 ECMO-supported patients were collected up to 24 h prior to, and for the duration of, the ECMO course. Thirty-five variables were collected, including ph… Show more

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Cited by 8 publications
(5 citation statements)
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“…This is supported by a single-center pediatric ECMO study (68 VV-ECMO and 106 VA-ECMO patients) demonstrating a high prevalence of ABI (51%) where standardized neuromonitoring with neuroimaging protocol was implemented. 16 This study also used artificial intelligence to predict ABI primarily in VA-ECMO patients and demonstrated a better AUC-ROC (0.76) 16 versus our AUC-ROC with the ELSO Registry (0.67 in VV-ECMO patients).…”
Section: Discussionmentioning
confidence: 78%
“…This is supported by a single-center pediatric ECMO study (68 VV-ECMO and 106 VA-ECMO patients) demonstrating a high prevalence of ABI (51%) where standardized neuromonitoring with neuroimaging protocol was implemented. 16 This study also used artificial intelligence to predict ABI primarily in VA-ECMO patients and demonstrated a better AUC-ROC (0.76) 16 versus our AUC-ROC with the ELSO Registry (0.67 in VV-ECMO patients).…”
Section: Discussionmentioning
confidence: 78%
“…In fact, a single-center study of 106 VA-ECMO and 68 VV-ECMO pediatric patients using ML to predict CNS ischemia and ICH showed a superior AUC-ROC (0.76) than ours with the ELSO Registry (0.67). ( 36 ) This result may not be surprising given the institution’s rigorous advanced neuroimaging technique to determine ABI and adjudication system by multiple clinicians. Accordingly, their prevalence of ABI (51% in VA/VV-ECMO mixed population) was much higher than ours with the ELSO Registry (7.7% in VA-ECMO and 16.5% in ECPR).…”
Section: Discussionmentioning
confidence: 99%
“…40 Two common types of neural networks include recurrent neural networks-which can process large amounts of data and "learn" from missed predictions and convolutional neural networks which specialize in transforming imaging data. 40 While several applications have been published, [41][42][43] historic limitations include their "black box" nature and difficulty in determining clinical importance. Recent advances such as detector randomized input sampling or generative adversarial networks have substantially reduced the "black box" nature of neural networks, these techniques have allowed researchers to even determine which portions of an x-ray were important to an algorithm in predicting if an image belonged to a COVID-19 positive or negative patient.…”
Section: Neural Networkmentioning
confidence: 99%