Machine learning and big data analytics in bipolar disorder: A position paper from the International Society for Bipolar Disorders Big Data Task Force

Ives C Passos; Pedro L Ballester; Rodrigo C Barros; Diego Librenza-Garcia; Benson Mwangi; Boris Birmaher; Elisa Brietzke; Tomas Hajek; Carlos Lopez Jaramillo; Rodrigo B Mansur; Martin Alda; Bartholomeus C M Haarman; Erkki Isometsa; Raymond W Lam; Roger S McIntyre; Luciano Minuzzi; Lars V Kessing; Lakshmi N Yatham; Anne Duffy; Flavio Kapczinski

doi:10.1111/bdi.12828

Machine learning and big data analytics in bipolar disorder: A position paper from the International Society for Bipolar Disorders Big Data Task Force

Ives C Passos, Pedro L Ballester, Rodrigo C Barros, Diego Librenza-Garcia, Benson Mwangi, Boris Birmaher, Elisa Brietzke, Tomas Hajek, Carlos Lopez Jaramillo, Rodrigo B Mansur, Martin Alda, Bartholomeus C M Haarman, Erkki Isometsa, Raymond W Lam, Roger S McIntyre, Luciano Minuzzi, Lars V Kessing, Lakshmi N Yatham, Anne Duffy, Flavio Kapczinski

55 Citationer (Scopus)

Abstract

OBJECTIVES: The International Society for Bipolar Disorders Big Data Task Force assembled leading researchers in the field of bipolar disorder (BD), machine learning, and big data with extensive experience to evaluate the rationale of machine learning and big data analytics strategies for BD.

METHOD: A task force was convened to examine and integrate findings from the scientific literature related to machine learning and big data based studies to clarify terminology and to describe challenges and potential applications in the field of BD. We also systematically searched PubMed, Embase, and Web of Science for articles published up to January 2019 that used machine learning in BD.

RESULTS: The results suggested that big data analytics has the potential to provide risk calculators to aid in treatment decisions and predict clinical prognosis, including suicidality, for individual patients. This approach can advance diagnosis by enabling discovery of more relevant data-driven phenotypes, as well as by predicting transition to the disorder in high-risk unaffected subjects. We also discuss the most frequent challenges that big data analytics applications can face, such as heterogeneity, lack of external validation and replication of some studies, cost and non-stationary distribution of the data, and lack of appropriate funding.

CONCLUSION: Machine learning-based studies, including atheoretical data-driven big data approaches, provide an opportunity to more accurately detect those who are at risk, parse-relevant phenotypes as well as inform treatment selection and prognosis. However, several methodological challenges need to be addressed in order to translate research findings to clinical settings.

Originalsprog	Engelsk
Tidsskrift	Bipolar Disorders
Vol/bind	21
Udgave nummer	7
Sider (fra-til)	582-594
Antal sider	13
ISSN	1398-5647
DOI	https://doi.org/10.1111/bdi.12828
Status	Udgivet - 1 nov. 2019

Adgang til dokumentet

10.1111/bdi.12828

Andre filer og links

Link to publication in Scopus

Citationsformater

Passos, I. C., Ballester, P. L., Barros, R. C., Librenza-Garcia, D., Mwangi, B., Birmaher, B., Brietzke, E., Hajek, T., Lopez Jaramillo, C., Mansur, R. B., Alda, M., Haarman, B. C. M., Isometsa, E., Lam, R. W., McIntyre, R. S., Minuzzi, L., Kessing, L. V., Yatham, L. N., Duffy, A., & Kapczinski, F. (2019). Machine learning and big data analytics in bipolar disorder: A position paper from the International Society for Bipolar Disorders Big Data Task Force. Bipolar Disorders, 21(7), 582-594. https://doi.org/10.1111/bdi.12828

Passos, IC, Ballester, PL, Barros, RC, Librenza-Garcia, D, Mwangi, B, Birmaher, B, Brietzke, E, Hajek, T, Lopez Jaramillo, C, Mansur, RB, Alda, M, Haarman, BCM, Isometsa, E, Lam, RW, McIntyre, RS, Minuzzi, L, Kessing, LV, Yatham, LN, Duffy, A & Kapczinski, F 2019, 'Machine learning and big data analytics in bipolar disorder: A position paper from the International Society for Bipolar Disorders Big Data Task Force', Bipolar Disorders, bind 21, nr. 7, s. 582-594. https://doi.org/10.1111/bdi.12828

@article{33f98953aab3488d83f318562cad2288,

title = "Machine learning and big data analytics in bipolar disorder: A position paper from the International Society for Bipolar Disorders Big Data Task Force",

abstract = "OBJECTIVES: The International Society for Bipolar Disorders Big Data Task Force assembled leading researchers in the field of bipolar disorder (BD), machine learning, and big data with extensive experience to evaluate the rationale of machine learning and big data analytics strategies for BD.METHOD: A task force was convened to examine and integrate findings from the scientific literature related to machine learning and big data based studies to clarify terminology and to describe challenges and potential applications in the field of BD. We also systematically searched PubMed, Embase, and Web of Science for articles published up to January 2019 that used machine learning in BD.RESULTS: The results suggested that big data analytics has the potential to provide risk calculators to aid in treatment decisions and predict clinical prognosis, including suicidality, for individual patients. This approach can advance diagnosis by enabling discovery of more relevant data-driven phenotypes, as well as by predicting transition to the disorder in high-risk unaffected subjects. We also discuss the most frequent challenges that big data analytics applications can face, such as heterogeneity, lack of external validation and replication of some studies, cost and non-stationary distribution of the data, and lack of appropriate funding.CONCLUSION: Machine learning-based studies, including atheoretical data-driven big data approaches, provide an opportunity to more accurately detect those who are at risk, parse-relevant phenotypes as well as inform treatment selection and prognosis. However, several methodological challenges need to be addressed in order to translate research findings to clinical settings.",

keywords = "big data, bipolar disorder, data mining, deep learning, machine learning, personalized psychiatry, predictive psychiatry, risk prediction",

author = "Passos, {Ives C} and Ballester, {Pedro L} and Barros, {Rodrigo C} and Diego Librenza-Garcia and Benson Mwangi and Boris Birmaher and Elisa Brietzke and Tomas Hajek and {Lopez Jaramillo}, Carlos and Mansur, {Rodrigo B} and Martin Alda and Haarman, {Bartholomeus C M} and Erkki Isometsa and Lam, {Raymond W} and McIntyre, {Roger S} and Luciano Minuzzi and Kessing, {Lars V} and Yatham, {Lakshmi N} and Anne Duffy and Flavio Kapczinski",

note = "{\textcopyright} 2019 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.",

year = "2019",

month = nov,

day = "1",

doi = "10.1111/bdi.12828",

language = "English",

volume = "21",

pages = "582--594",

journal = "Bipolar Disorders",

issn = "1398-5647",

publisher = "Wiley-Blackwell Munksgaard",

number = "7",

}

TY - JOUR

T1 - Machine learning and big data analytics in bipolar disorder

T2 - A position paper from the International Society for Bipolar Disorders Big Data Task Force

AU - Passos, Ives C

AU - Ballester, Pedro L

AU - Barros, Rodrigo C

AU - Librenza-Garcia, Diego

AU - Mwangi, Benson

AU - Birmaher, Boris

AU - Brietzke, Elisa

AU - Hajek, Tomas

AU - Lopez Jaramillo, Carlos

AU - Mansur, Rodrigo B

AU - Alda, Martin

AU - Haarman, Bartholomeus C M

AU - Isometsa, Erkki

AU - Lam, Raymond W

AU - McIntyre, Roger S

AU - Minuzzi, Luciano

AU - Kessing, Lars V

AU - Yatham, Lakshmi N

AU - Duffy, Anne

AU - Kapczinski, Flavio

PY - 2019/11/1

Y1 - 2019/11/1

N2 - OBJECTIVES: The International Society for Bipolar Disorders Big Data Task Force assembled leading researchers in the field of bipolar disorder (BD), machine learning, and big data with extensive experience to evaluate the rationale of machine learning and big data analytics strategies for BD.METHOD: A task force was convened to examine and integrate findings from the scientific literature related to machine learning and big data based studies to clarify terminology and to describe challenges and potential applications in the field of BD. We also systematically searched PubMed, Embase, and Web of Science for articles published up to January 2019 that used machine learning in BD.RESULTS: The results suggested that big data analytics has the potential to provide risk calculators to aid in treatment decisions and predict clinical prognosis, including suicidality, for individual patients. This approach can advance diagnosis by enabling discovery of more relevant data-driven phenotypes, as well as by predicting transition to the disorder in high-risk unaffected subjects. We also discuss the most frequent challenges that big data analytics applications can face, such as heterogeneity, lack of external validation and replication of some studies, cost and non-stationary distribution of the data, and lack of appropriate funding.CONCLUSION: Machine learning-based studies, including atheoretical data-driven big data approaches, provide an opportunity to more accurately detect those who are at risk, parse-relevant phenotypes as well as inform treatment selection and prognosis. However, several methodological challenges need to be addressed in order to translate research findings to clinical settings.

AB - OBJECTIVES: The International Society for Bipolar Disorders Big Data Task Force assembled leading researchers in the field of bipolar disorder (BD), machine learning, and big data with extensive experience to evaluate the rationale of machine learning and big data analytics strategies for BD.METHOD: A task force was convened to examine and integrate findings from the scientific literature related to machine learning and big data based studies to clarify terminology and to describe challenges and potential applications in the field of BD. We also systematically searched PubMed, Embase, and Web of Science for articles published up to January 2019 that used machine learning in BD.RESULTS: The results suggested that big data analytics has the potential to provide risk calculators to aid in treatment decisions and predict clinical prognosis, including suicidality, for individual patients. This approach can advance diagnosis by enabling discovery of more relevant data-driven phenotypes, as well as by predicting transition to the disorder in high-risk unaffected subjects. We also discuss the most frequent challenges that big data analytics applications can face, such as heterogeneity, lack of external validation and replication of some studies, cost and non-stationary distribution of the data, and lack of appropriate funding.CONCLUSION: Machine learning-based studies, including atheoretical data-driven big data approaches, provide an opportunity to more accurately detect those who are at risk, parse-relevant phenotypes as well as inform treatment selection and prognosis. However, several methodological challenges need to be addressed in order to translate research findings to clinical settings.

KW - big data

KW - bipolar disorder

KW - data mining

KW - deep learning

KW - machine learning

KW - personalized psychiatry

KW - predictive psychiatry

KW - risk prediction

UR - http://www.scopus.com/inward/record.url?scp=85073987808&partnerID=8YFLogxK

U2 - 10.1111/bdi.12828

DO - 10.1111/bdi.12828

M3 - Review

C2 - 31465619

SN - 1398-5647

VL - 21

SP - 582

EP - 594

JO - Bipolar Disorders

JF - Bipolar Disorders

IS - 7

ER -

Machine learning and big data analytics in bipolar disorder: A position paper from the International Society for Bipolar Disorders Big Data Task Force

Abstract

Adgang til dokumentet

Andre filer og links

Fingeraftryk

Citationsformater