Can machine learning complement traditional medical device surveillance? A case study of dual-chamber implantable cardioverter–defibrillators

BACKGROUND: Machine learning methods may complement traditional analytic methods for medical device surveillance. METHODS AND RESULTS: Using data from the National Cardiovascular Data Registry for implantable cardioverter–defibrillators (ICDs) linked to Medicare administrative claims for longitudina...

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Autores principales: Ross, Joseph S, Bates, Jonathan, Parzynski, Craig S, Akar, Joseph G, Curtis, Jeptha P, Desai, Nihar R, Freeman, James V, Gamble, Ginger M, Kuntz, Richard, Li, Shu-Xia, Marinac-Dabic, Danica, Masoudi, Frederick A, Normand, Sharon-Lise T, Ranasinghe, Isuru, Shaw, Richard E, Krumholz, Harlan M
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Dove Medical Press 2017
Materias:
Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5566316/
https://www.ncbi.nlm.nih.gov/pubmed/28860874
http://dx.doi.org/10.2147/MDER.S138158
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author Ross, Joseph S
Bates, Jonathan
Parzynski, Craig S
Akar, Joseph G
Curtis, Jeptha P
Desai, Nihar R
Freeman, James V
Gamble, Ginger M
Kuntz, Richard
Li, Shu-Xia
Marinac-Dabic, Danica
Masoudi, Frederick A
Normand, Sharon-Lise T
Ranasinghe, Isuru
Shaw, Richard E
Krumholz, Harlan M
author_facet Ross, Joseph S
Bates, Jonathan
Parzynski, Craig S
Akar, Joseph G
Curtis, Jeptha P
Desai, Nihar R
Freeman, James V
Gamble, Ginger M
Kuntz, Richard
Li, Shu-Xia
Marinac-Dabic, Danica
Masoudi, Frederick A
Normand, Sharon-Lise T
Ranasinghe, Isuru
Shaw, Richard E
Krumholz, Harlan M
author_sort Ross, Joseph S
collection PubMed
description BACKGROUND: Machine learning methods may complement traditional analytic methods for medical device surveillance. METHODS AND RESULTS: Using data from the National Cardiovascular Data Registry for implantable cardioverter–defibrillators (ICDs) linked to Medicare administrative claims for longitudinal follow-up, we applied three statistical approaches to safety-signal detection for commonly used dual-chamber ICDs that used two propensity score (PS) models: one specified by subject-matter experts (PS-SME), and the other one by machine learning-based selection (PS-ML). The first approach used PS-SME and cumulative incidence (time-to-event), the second approach used PS-SME and cumulative risk (Data Extraction and Longitudinal Trend Analysis [DELTA]), and the third approach used PS-ML and cumulative risk (embedded feature selection). Safety-signal surveillance was conducted for eleven dual-chamber ICD models implanted at least 2,000 times over 3 years. Between 2006 and 2010, there were 71,948 Medicare fee-for-service beneficiaries who received dual-chamber ICDs. Cumulative device-specific unadjusted 3-year event rates varied for three surveyed safety signals: death from any cause, 12.8%–20.9%; nonfatal ICD-related adverse events, 19.3%–26.3%; and death from any cause or nonfatal ICD-related adverse event, 27.1%–37.6%. Agreement among safety signals detected/not detected between the time-to-event and DELTA approaches was 90.9% (360 of 396, k=0.068), between the time-to-event and embedded feature-selection approaches was 91.7% (363 of 396, k=−0.028), and between the DELTA and embedded feature selection approaches was 88.1% (349 of 396, k=−0.042). CONCLUSION: Three statistical approaches, including one machine learning method, identified important safety signals, but without exact agreement. Ensemble methods may be needed to detect all safety signals for further evaluation during medical device surveillance.
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spelling pubmed-55663162017-08-31 Can machine learning complement traditional medical device surveillance? A case study of dual-chamber implantable cardioverter–defibrillators Ross, Joseph S Bates, Jonathan Parzynski, Craig S Akar, Joseph G Curtis, Jeptha P Desai, Nihar R Freeman, James V Gamble, Ginger M Kuntz, Richard Li, Shu-Xia Marinac-Dabic, Danica Masoudi, Frederick A Normand, Sharon-Lise T Ranasinghe, Isuru Shaw, Richard E Krumholz, Harlan M Med Devices (Auckl) Original Research BACKGROUND: Machine learning methods may complement traditional analytic methods for medical device surveillance. METHODS AND RESULTS: Using data from the National Cardiovascular Data Registry for implantable cardioverter–defibrillators (ICDs) linked to Medicare administrative claims for longitudinal follow-up, we applied three statistical approaches to safety-signal detection for commonly used dual-chamber ICDs that used two propensity score (PS) models: one specified by subject-matter experts (PS-SME), and the other one by machine learning-based selection (PS-ML). The first approach used PS-SME and cumulative incidence (time-to-event), the second approach used PS-SME and cumulative risk (Data Extraction and Longitudinal Trend Analysis [DELTA]), and the third approach used PS-ML and cumulative risk (embedded feature selection). Safety-signal surveillance was conducted for eleven dual-chamber ICD models implanted at least 2,000 times over 3 years. Between 2006 and 2010, there were 71,948 Medicare fee-for-service beneficiaries who received dual-chamber ICDs. Cumulative device-specific unadjusted 3-year event rates varied for three surveyed safety signals: death from any cause, 12.8%–20.9%; nonfatal ICD-related adverse events, 19.3%–26.3%; and death from any cause or nonfatal ICD-related adverse event, 27.1%–37.6%. Agreement among safety signals detected/not detected between the time-to-event and DELTA approaches was 90.9% (360 of 396, k=0.068), between the time-to-event and embedded feature-selection approaches was 91.7% (363 of 396, k=−0.028), and between the DELTA and embedded feature selection approaches was 88.1% (349 of 396, k=−0.042). CONCLUSION: Three statistical approaches, including one machine learning method, identified important safety signals, but without exact agreement. Ensemble methods may be needed to detect all safety signals for further evaluation during medical device surveillance. Dove Medical Press 2017-08-16 /pmc/articles/PMC5566316/ /pubmed/28860874 http://dx.doi.org/10.2147/MDER.S138158 Text en © 2017 Ross et al. This work is published and licensed by Dove Medical Press Limited The full terms of this license are available at https://www.dovepress.com/terms.php and incorporate the Creative Commons Attribution – Non Commercial (unported, v3.0) License (http://creativecommons.org/licenses/by-nc/3.0/). By accessing the work you hereby accept the Terms. Non-commercial uses of the work are permitted without any further permission from Dove Medical Press Limited, provided the work is properly attributed.
spellingShingle Original Research
Ross, Joseph S
Bates, Jonathan
Parzynski, Craig S
Akar, Joseph G
Curtis, Jeptha P
Desai, Nihar R
Freeman, James V
Gamble, Ginger M
Kuntz, Richard
Li, Shu-Xia
Marinac-Dabic, Danica
Masoudi, Frederick A
Normand, Sharon-Lise T
Ranasinghe, Isuru
Shaw, Richard E
Krumholz, Harlan M
Can machine learning complement traditional medical device surveillance? A case study of dual-chamber implantable cardioverter–defibrillators
title Can machine learning complement traditional medical device surveillance? A case study of dual-chamber implantable cardioverter–defibrillators
title_full Can machine learning complement traditional medical device surveillance? A case study of dual-chamber implantable cardioverter–defibrillators
title_fullStr Can machine learning complement traditional medical device surveillance? A case study of dual-chamber implantable cardioverter–defibrillators
title_full_unstemmed Can machine learning complement traditional medical device surveillance? A case study of dual-chamber implantable cardioverter–defibrillators
title_short Can machine learning complement traditional medical device surveillance? A case study of dual-chamber implantable cardioverter–defibrillators
title_sort can machine learning complement traditional medical device surveillance? a case study of dual-chamber implantable cardioverter–defibrillators
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5566316/
https://www.ncbi.nlm.nih.gov/pubmed/28860874
http://dx.doi.org/10.2147/MDER.S138158
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