Aligning NIH's existing data use restrictions to the GA4GH DUO standard

被引:3
|
作者
Lawson, Jonathan [1 ]
Ghanaim, Elena M. [2 ]
Baek, Jinyoung [1 ]
Lee, Harin [1 ]
Rehm, Heidi L. [1 ,3 ,4 ]
机构
[1] Broad Inst MIT & Harvard, Cambridge, MA 02142 USA
[2] NIH, Natl Human Genome Res Inst, Bethesda, MD 20892 USA
[3] Massachusetts Gen Hosp, Ctr Genom Med, Boston, MA USA
[4] Harvard Med Sch, Dept Pathol, Boston, MA USA
来源
CELL GENOMICS | 2023年 / 3卷 / 09期
关键词
D O I
10.1016/j.xgen.2023.100381
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
It is widely accepted that large-scale genomic data (e.g., whole-genome sequencing, whole-exome sequencing, and genome-wide association study data) be shared through a controlled-access mechanism. This protects the privacy of research participants and ensures downstream uses of data align with participants' informed consent regarding future sharing of their data. In 2019, GA4GH approved the Data Use Ontology (DUO) standard to define data use terms with machine-readable representations to represent how a dataset can be used. We endeavored to determine the parity of existing data use restrictions ("Data Use Limitations"[DULs]) for datasets registered in the National Institutes of Health database for Genotypes and Phenotypes (dbGaP) with the DUO standard. We found substantial (93%) parity between the dbGaP DULs (n = 3,575) and DUO. This study demonstrates the comprehensiveness of the DUO standard and encourages data stewards to standardize data use restrictions in machine-readable formats to facilitate data sharing.
引用
收藏
页数:8
相关论文
共 11 条
  • [1] GA4GH Passport standard for digital identity and access permissions
    Voisin, Craig
    Linden, Mikael
    Dyke, Stephanie O. M.
    Bowers, Sarion R.
    Alper, Pinar
    Barkley, Maxmillian P.
    Bernick, David
    Chao, Jianpeng
    Courtot, Melanie
    Jeanson, Francis
    Konopko, Melissa A.
    Kuba, Martin
    Lawson, Jonathan
    Leinonen, Jaakko
    Li, Stephanie
    Wang, Vivian Ota
    Philippakis, Anthony A.
    Reinold, Kathy
    Rushton, Gregory A.
    Spalding, J. Dylan
    Tornroos, Juha
    Tulchinsky, Ilya
    Auvil, Jaime M. Guidry
    Nyronen, Tommi H.
    CELL GENOMICS, 2021, 1 (02):
  • [2] The GA4GH Phenopacket schema defines a computable representation of clinical data
    Julius O. B. Jacobsen
    Michael Baudis
    Gareth S. Baynam
    Jacques S. Beckmann
    Sergi Beltran
    Orion J. Buske
    Tiffany J. Callahan
    Christopher G. Chute
    Mélanie Courtot
    Daniel Danis
    Olivier Elemento
    Andrea Essenwanger
    Robert R. Freimuth
    Michael A. Gargano
    Tudor Groza
    Ada Hamosh
    Nomi L. Harris
    Rajaram Kaliyaperumal
    Kevin C. Kent Lloyd
    Aly Khalifa
    Peter M. Krawitz
    Sebastian Köhler
    Brian J. Laraway
    Heikki Lehväslaiho
    Leslie Matalonga
    Julie A. McMurry
    Alejandro Metke-Jimenez
    Christopher J. Mungall
    Monica C. Munoz-Torres
    Soichi Ogishima
    Anastasios Papakonstantinou
    Davide Piscia
    Nikolas Pontikos
    Núria Queralt-Rosinach
    Marco Roos
    Julian Sass
    Paul N. Schofield
    Dominik Seelow
    Anastasios Siapos
    Damian Smedley
    Lindsay D. Smith
    Robin Steinhaus
    Jagadish Chandrabose Sundaramurthi
    Emilia M. Swietlik
    Sylvia Thun
    Nicole A. Vasilevsky
    Alex H. Wagner
    Jeremy L. Warner
    Claus Weiland
    Melissa A. Haendel
    Nature Biotechnology, 2022, 40 : 817 - 820
  • [3] The GA4GH Phenopacket schema defines a computable representation of clinical data
    Jacobsen, Julius O. B.
    Baudis, Michael
    Baynam, Gareth S.
    Beckmann, Jacques S.
    Beltran, Sergi
    Buske, Orion J.
    Callahan, Tiffany J.
    Chute, Christopher G.
    Courtot, Melanie
    Danis, Daniel
    Elemento, Olivier
    Essenwanger, Andrea
    Freimuth, Robert R.
    Gargano, Michael A.
    Groza, Tudor
    Hamosh, Ada
    Harris, Nomi L.
    Kaliyaperumal, Rajaram
    Lloyd, Kevin C. Kent
    Khalifa, Aly
    Krawitz, Peter M.
    Koeler, Sebastian
    Laraway, Brian J.
    Lehvaslaiho, Heikki
    Matalonga, Leslie
    McMurry, Julie A.
    Metke-Jimenez, Alejandro
    Mungall, Christopher J.
    Munoz-Torres, Monica C.
    Ogishima, Soichi
    Papakonstantinou, Anastasios
    Piscia, Davide
    Pontikos, Nikolas
    Queralt-Rosinach, Nuria
    Roos, Marco
    Sass, Julian
    Schofield, Paul N.
    Seelow, Dominik
    Siapos, Anastasios
    Smedley, Damian
    Smith, Lindsay D.
    Steinhaus, Robin
    Sundaramurthi, Jagadish Chandrabose
    Swietlik, Emilia M.
    Thun, Sylvia
    Vasilevsky, Nicole A.
    Wagner, Alex H.
    Warner, Jeremy L.
    Weiland, Claus
    Haendel, Melissa A.
    NATURE BIOTECHNOLOGY, 2022, 40 (06) : 817 - 820
  • [4] In this issue: GA4GH standards enable the responsible sharing of human genomic and biomedical data
    Bahcall, Orli G.
    CELL GENOMICS, 2021, 1 (02):
  • [5] GA4GH: International policies and standards for data sharing across genomic research and healthcare
    Rehm, Heidi L.
    Page, Angela J. H.
    Smith, Lindsay
    Adams, Jeremy B.
    Alterovitz, Gil
    Babb, Lawrence J.
    Barkley, Maxmillian P.
    Baudis, Michael
    Beauvais, Michael J. S.
    Beck, Tim
    Beckmann, Jacques S.
    Beltran, Sergi
    Bernick, David
    Bernier, Alexander
    Bonfield, James K.
    Boughtwood, Tiffany F.
    Bourque, Guillaume
    Bowers, Sarion R.
    Brookes, Anthony J.
    Brudno, Michael
    Brush, Matthew H.
    Bujold, David
    Burdett, Tony
    Buske, Orion J.
    Cabili, Moran N.
    Cameron, Daniel L.
    Carroll, Robert J.
    Casas-Silva, Esmeralda
    Chakravarty, Debyani
    Chaudhari, Bimal P.
    Chen, Shu Hui
    Cherry, J. Michael
    Chung, Justina
    Cline, Melissa
    Clissold, Hayley L.
    Cook-Deegan, Robert M.
    Courtot, Melanie
    Cunningham, Fiona
    Cupak, Miro
    Davies, Robert M.
    Denisko, Danielle
    Doerr, Megan J.
    Dolman, Lena I.
    Dove, Edward S.
    Dursi, L. Jonathan
    Dyke, Stephanie O. M.
    Eddy, James A.
    Eilbeck, Karen
    Ellrott, Kyle P.
    Fairley, Susan
    CELL GENOMICS, 2021, 1 (02):
  • [6] ClinGen advancing genomic data-sharing standards as a GA4GH driver project
    Dolman, Lena
    Page, Angela
    Babb, Lawrence
    Freimuth, Robert R.
    Arachchi, Harindra
    Bizon, Chris
    Brush, Matthew
    Fiume, Marc
    Haendel, Melissa
    Hansen, David P.
    Milosavljevic, Aleksandar
    Patel, Ronak Y.
    Pawliczek, Piotr
    Yates, Andrew D.
    Rehm, Heidi L.
    HUMAN MUTATION, 2018, 39 (11) : 1686 - 1689
  • [7] Implementation of the GA4GH Beacon protocol for discovery and sharing of genomic copy number variation data
    Baudis, Michael
    EUROPEAN JOURNAL OF HUMAN GENETICS, 2023, 31 : 586 - 586
  • [8] Pheno-Ranker: a toolkit for comparison of phenotypic data stored in GA4GH standards and beyond
    Leist, Ivo C.
    Rivas-Torrubia, Maria
    Alarcon-Riquelme, Marta E.
    Barturen, Guillermo
    Gut, Ivo G.
    Rueda, Manuel
    BMC BIOINFORMATICS, 2024, 25 (01):
  • [9] Appraisal of the Jordanian Law for Data Sharing in Stem Cell Research: in the Light of the "GA4GH Framework" for Innovative Cancer Care
    Al-Tabba, Amal
    Al-Omari, Amal
    Al-Hussaini, Maysa
    2018 1ST INTERNATIONAL CONFERENCE ON CANCER CARE INFORMATICS (CCI), 2018, : 232 - 235
  • [10] Determining barriers to effective data sharing in cancer genomic sequencing initiatives: A Global Alliance for Genomics and Health (GA4GH) survey.
    Lewin, Jeremy Howard
    Vis, Daniel J.
    Voest, Emile E.
    Liao, Rachel
    Nederlof, Petra M.
    Conley, Barbara A.
    Solit, David B.
    Corless, Christopher L.
    Campregher, Paulo V.
    Tyrell, Vanessa
    Chong, George
    Watson, Michael
    Rha, Sun Young
    Maughan, Tim
    Caulfield, Mark
    Lazar, Vladimir
    Esserman, Laura
    Sawyers, Charles L.
    Siu, Lillian L.
    Lawler, Mark
    JOURNAL OF CLINICAL ONCOLOGY, 2016, 34 (15)
12