Enhancing Psychosis-Spectrum Nosology Through an International Data Sharing Initiative

Anna R. Docherty; Eduardo Fonseca-Pedrero; Martin Debbane; Raymond C. K. Chan; Richard J. Linscott; Katherine G. Jonas; David C. Cicero; Melissa J. Green; Leonard J. Simms; Oliver Mason; David Watson; Ulrich Ettinger; Monika Waszczuk; Alexander Rapp; Phillip Grant; Roman Kotov; Colin G. De Young; Camilo J. Ruggero; Nicolas R. Eaton; Robert F. Krueger; Christopher Patrick; Christopher Hopwood; F. Anthony O'Neill; David H. Zald; Christopher C. Conway; Daniel E. Adkins; Irwin D. Waldman; Jim van Os; Patrick F. Sullivan; John S. Anderson; Andrey A. Shabalin; Scott R. Sponheim; Stephan F. Taylor; Rachel G. Grazioplene; Silviu A. Bacanu; Tim B. Bigdeli; Corinna Haenschel; Dolores Malaspina; Diane C. Gooding; Kristin Nicodemus; Frauke Schultze-Lutter; Neus Barrantes-Vidal; Christine Mohr; William T. Carpenter; Alex S. Cohen

doi:10.1093/schbul/sby059

Enhancing Psychosis-Spectrum Nosology Through an International Data Sharing Initiative

Anna R. Docherty^*, Eduardo Fonseca-Pedrero, Martin Debbane, Raymond C. K. Chan, Richard J. Linscott, Katherine G. Jonas, David C. Cicero, Melissa J. Green, Leonard J. Simms, Oliver Mason, David Watson, Ulrich Ettinger, Monika Waszczuk, Alexander Rapp, Phillip Grant, Roman Kotov, Colin G. De Young, Camilo J. Ruggero, Nicolas R. Eaton, Robert F. KruegerChristopher Patrick, Christopher Hopwood, F. Anthony O'Neill, David H. Zald, Christopher C. Conway, Daniel E. Adkins, Irwin D. Waldman, Jim van Os, Patrick F. Sullivan, John S. Anderson, Andrey A. Shabalin, Scott R. Sponheim, Stephan F. Taylor, Rachel G. Grazioplene, Silviu A. Bacanu, Tim B. Bigdeli, Corinna Haenschel, Dolores Malaspina, Diane C. Gooding, Kristin Nicodemus, Frauke Schultze-Lutter, Neus Barrantes-Vidal, Christine Mohr, William T. Carpenter, Alex S. Cohen

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The latent structure of schizotypy and psychosis-spectrum symptoms remains poorly understood. Furthermore, molecular genetic substrates are poorly defined, largely due to the substantial resources required to collect rich phenotypic data across diverse populations. Sample sizes of phenotypic studies are often insufficient for advanced structural equation modeling approaches. In the last 50 years, efforts in both psychiatry and psychological science have moved toward (1) a dimensional model of psychopathology (eg, the current Hierarchical Taxonomy of Psychopathology [HiTOP] initiative), (2) an integration of methods and measures across traits and units of analysis (eg, the RDoC initiative), and (3) powerful, impactful study designs maximizing sample size to detect subtle genomic variation relating to complex traits (the Psychiatric Genomics Consortium [PGC]). These movements are important to the future study of the psychosis spectrum, and to resolving heterogeneity with respect to instrument and population. The International Consortium of Schizotypy Research is composed of over 40 laboratories in 12 countries, and to date, members have compiled a body of schizotypy- and psychosis-related phenotype data from more than 30 000 individuals. It has become apparent that compiling data into a protected, relational database and crowdsourcing analytic and data science expertise will result in significant enhancement of current research on the structure and biological substrates of the psychosis spectrum. The authors present a data-sharing infrastructure similar to that of the PGC, and a resource-sharing infrastructure similar to that of HiTOP. This report details the rationale and benefits of the phenotypic data collective and presents an open invitation for participation.

Original language	English
Pages (from-to)	S460-S467
Number of pages	8
Journal	Schizophrenia Bulletin
Volume	44
DOIs	https://doi.org/10.1093/schbul/sby059
Publication status	Published - 1 Nov 2018

Keywords

data sharing
schizotypy
schizotypal
psychos is
schizophrenia
phenotype
genetic
ICSR
HiTOP
RESEARCH DOMAIN CRITERIA
GENOME-WIDE ASSOCIATION
SYNDROME SCALE PANSS
NEGATIVE SYNDROME
SCHIZOTYPAL SYMPTOMS
INCREASES ACCURACY
GENERAL-POPULATION
BIPOLAR DISORDER
COMPLEX DISEASES
RISK PREDICTION

Access to Document

10.1093/schbul/sby059

Cite this

Docherty, A. R., Fonseca-Pedrero, E., Debbane, M., Chan, R. C. K., Linscott, R. J., Jonas, K. G., Cicero, D. C., Green, M. J., Simms, L. J., Mason, O., Watson, D., Ettinger, U., Waszczuk, M., Rapp, A., Grant, P., Kotov, R., De Young, C. G., Ruggero, C. J., Eaton, N. R., ... Cohen, A. S. (2018). Enhancing Psychosis-Spectrum Nosology Through an International Data Sharing Initiative. Schizophrenia Bulletin, 44, S460-S467. https://doi.org/10.1093/schbul/sby059

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title = "Enhancing Psychosis-Spectrum Nosology Through an International Data Sharing Initiative",

abstract = "The latent structure of schizotypy and psychosis-spectrum symptoms remains poorly understood. Furthermore, molecular genetic substrates are poorly defined, largely due to the substantial resources required to collect rich phenotypic data across diverse populations. Sample sizes of phenotypic studies are often insufficient for advanced structural equation modeling approaches. In the last 50 years, efforts in both psychiatry and psychological science have moved toward (1) a dimensional model of psychopathology (eg, the current Hierarchical Taxonomy of Psychopathology [HiTOP] initiative), (2) an integration of methods and measures across traits and units of analysis (eg, the RDoC initiative), and (3) powerful, impactful study designs maximizing sample size to detect subtle genomic variation relating to complex traits (the Psychiatric Genomics Consortium [PGC]). These movements are important to the future study of the psychosis spectrum, and to resolving heterogeneity with respect to instrument and population. The International Consortium of Schizotypy Research is composed of over 40 laboratories in 12 countries, and to date, members have compiled a body of schizotypy- and psychosis-related phenotype data from more than 30 000 individuals. It has become apparent that compiling data into a protected, relational database and crowdsourcing analytic and data science expertise will result in significant enhancement of current research on the structure and biological substrates of the psychosis spectrum. The authors present a data-sharing infrastructure similar to that of the PGC, and a resource-sharing infrastructure similar to that of HiTOP. This report details the rationale and benefits of the phenotypic data collective and presents an open invitation for participation.",

keywords = "data sharing, schizotypy, schizotypal, psychos is, schizophrenia, phenotype, genetic, ICSR, HiTOP, RESEARCH DOMAIN CRITERIA, GENOME-WIDE ASSOCIATION, SYNDROME SCALE PANSS, NEGATIVE SYNDROME, SCHIZOTYPAL SYMPTOMS, INCREASES ACCURACY, GENERAL-POPULATION, BIPOLAR DISORDER, COMPLEX DISEASES, RISK PREDICTION",

author = "Docherty, {Anna R.} and Eduardo Fonseca-Pedrero and Martin Debbane and Chan, {Raymond C. K.} and Linscott, {Richard J.} and Jonas, {Katherine G.} and Cicero, {David C.} and Green, {Melissa J.} and Simms, {Leonard J.} and Oliver Mason and David Watson and Ulrich Ettinger and Monika Waszczuk and Alexander Rapp and Phillip Grant and Roman Kotov and {De Young}, {Colin G.} and Ruggero, {Camilo J.} and Eaton, {Nicolas R.} and Krueger, {Robert F.} and Christopher Patrick and Christopher Hopwood and O'Neill, {F. Anthony} and Zald, {David H.} and Conway, {Christopher C.} and Adkins, {Daniel E.} and Waldman, {Irwin D.} and {van Os}, Jim and Sullivan, {Patrick F.} and Anderson, {John S.} and Shabalin, {Andrey A.} and Sponheim, {Scott R.} and Taylor, {Stephan F.} and Grazioplene, {Rachel G.} and Bacanu, {Silviu A.} and Bigdeli, {Tim B.} and Corinna Haenschel and Dolores Malaspina and Gooding, {Diane C.} and Kristin Nicodemus and Frauke Schultze-Lutter and Neus Barrantes-Vidal and Christine Mohr and Carpenter, {William T.} and Cohen, {Alex S.}",

year = "2018",

month = nov,

day = "1",

doi = "10.1093/schbul/sby059",

language = "English",

volume = "44",

pages = "S460--S467",

journal = "Schizophrenia Bulletin",

issn = "0586-7614",

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Docherty, AR, Fonseca-Pedrero, E, Debbane, M, Chan, RCK, Linscott, RJ, Jonas, KG, Cicero, DC, Green, MJ, Simms, LJ, Mason, O, Watson, D, Ettinger, U, Waszczuk, M, Rapp, A, Grant, P, Kotov, R, De Young, CG, Ruggero, CJ, Eaton, NR, Krueger, RF, Patrick, C, Hopwood, C, O'Neill, FA, Zald, DH, Conway, CC, Adkins, DE, Waldman, ID, van Os, J, Sullivan, PF, Anderson, JS, Shabalin, AA, Sponheim, SR, Taylor, SF, Grazioplene, RG, Bacanu, SA, Bigdeli, TB, Haenschel, C, Malaspina, D, Gooding, DC, Nicodemus, K, Schultze-Lutter, F, Barrantes-Vidal, N, Mohr, C, Carpenter, WT & Cohen, AS 2018, 'Enhancing Psychosis-Spectrum Nosology Through an International Data Sharing Initiative', Schizophrenia Bulletin, vol. 44, pp. S460-S467. https://doi.org/10.1093/schbul/sby059

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T1 - Enhancing Psychosis-Spectrum Nosology Through an International Data Sharing Initiative

AU - Docherty, Anna R.

AU - Fonseca-Pedrero, Eduardo

AU - Debbane, Martin

AU - Chan, Raymond C. K.

AU - Linscott, Richard J.

AU - Jonas, Katherine G.

AU - Cicero, David C.

AU - Green, Melissa J.

AU - Simms, Leonard J.

AU - Mason, Oliver

AU - Watson, David

AU - Ettinger, Ulrich

AU - Waszczuk, Monika

AU - Rapp, Alexander

AU - Grant, Phillip

AU - Kotov, Roman

AU - De Young, Colin G.

AU - Ruggero, Camilo J.

AU - Eaton, Nicolas R.

AU - Krueger, Robert F.

AU - Patrick, Christopher

AU - Hopwood, Christopher

AU - O'Neill, F. Anthony

AU - Zald, David H.

AU - Conway, Christopher C.

AU - Adkins, Daniel E.

AU - Waldman, Irwin D.

AU - van Os, Jim

AU - Sullivan, Patrick F.

AU - Anderson, John S.

AU - Shabalin, Andrey A.

AU - Sponheim, Scott R.

AU - Taylor, Stephan F.

AU - Grazioplene, Rachel G.

AU - Bacanu, Silviu A.

AU - Bigdeli, Tim B.

AU - Haenschel, Corinna

AU - Malaspina, Dolores

AU - Gooding, Diane C.

AU - Nicodemus, Kristin

AU - Schultze-Lutter, Frauke

AU - Barrantes-Vidal, Neus

AU - Mohr, Christine

AU - Carpenter, William T.

AU - Cohen, Alex S.

PY - 2018/11/1

Y1 - 2018/11/1

N2 - The latent structure of schizotypy and psychosis-spectrum symptoms remains poorly understood. Furthermore, molecular genetic substrates are poorly defined, largely due to the substantial resources required to collect rich phenotypic data across diverse populations. Sample sizes of phenotypic studies are often insufficient for advanced structural equation modeling approaches. In the last 50 years, efforts in both psychiatry and psychological science have moved toward (1) a dimensional model of psychopathology (eg, the current Hierarchical Taxonomy of Psychopathology [HiTOP] initiative), (2) an integration of methods and measures across traits and units of analysis (eg, the RDoC initiative), and (3) powerful, impactful study designs maximizing sample size to detect subtle genomic variation relating to complex traits (the Psychiatric Genomics Consortium [PGC]). These movements are important to the future study of the psychosis spectrum, and to resolving heterogeneity with respect to instrument and population. The International Consortium of Schizotypy Research is composed of over 40 laboratories in 12 countries, and to date, members have compiled a body of schizotypy- and psychosis-related phenotype data from more than 30 000 individuals. It has become apparent that compiling data into a protected, relational database and crowdsourcing analytic and data science expertise will result in significant enhancement of current research on the structure and biological substrates of the psychosis spectrum. The authors present a data-sharing infrastructure similar to that of the PGC, and a resource-sharing infrastructure similar to that of HiTOP. This report details the rationale and benefits of the phenotypic data collective and presents an open invitation for participation.

AB - The latent structure of schizotypy and psychosis-spectrum symptoms remains poorly understood. Furthermore, molecular genetic substrates are poorly defined, largely due to the substantial resources required to collect rich phenotypic data across diverse populations. Sample sizes of phenotypic studies are often insufficient for advanced structural equation modeling approaches. In the last 50 years, efforts in both psychiatry and psychological science have moved toward (1) a dimensional model of psychopathology (eg, the current Hierarchical Taxonomy of Psychopathology [HiTOP] initiative), (2) an integration of methods and measures across traits and units of analysis (eg, the RDoC initiative), and (3) powerful, impactful study designs maximizing sample size to detect subtle genomic variation relating to complex traits (the Psychiatric Genomics Consortium [PGC]). These movements are important to the future study of the psychosis spectrum, and to resolving heterogeneity with respect to instrument and population. The International Consortium of Schizotypy Research is composed of over 40 laboratories in 12 countries, and to date, members have compiled a body of schizotypy- and psychosis-related phenotype data from more than 30 000 individuals. It has become apparent that compiling data into a protected, relational database and crowdsourcing analytic and data science expertise will result in significant enhancement of current research on the structure and biological substrates of the psychosis spectrum. The authors present a data-sharing infrastructure similar to that of the PGC, and a resource-sharing infrastructure similar to that of HiTOP. This report details the rationale and benefits of the phenotypic data collective and presents an open invitation for participation.

KW - data sharing

KW - schizotypy

KW - schizotypal

KW - psychos is

KW - schizophrenia

KW - phenotype

KW - genetic

KW - ICSR

KW - HiTOP

KW - RESEARCH DOMAIN CRITERIA

KW - GENOME-WIDE ASSOCIATION

KW - SYNDROME SCALE PANSS

KW - NEGATIVE SYNDROME

KW - SCHIZOTYPAL SYMPTOMS

KW - INCREASES ACCURACY

KW - GENERAL-POPULATION

KW - BIPOLAR DISORDER

KW - COMPLEX DISEASES

KW - RISK PREDICTION

U2 - 10.1093/schbul/sby059

DO - 10.1093/schbul/sby059

M3 - Article

C2 - 29788473

SN - 0586-7614

VL - 44

SP - S460-S467

JO - Schizophrenia Bulletin

JF - Schizophrenia Bulletin

ER -