Distributed cognition and process management enabling individualized translational research: The NIH undiagnosed diseases program experience

Amanda E. Links; David Draper; Elizabeth Lee; Jessica Guzman; Zaheer Valivullah; Valerie Maduro; Vlad Lebedev; Maxim Didenko; Garrick Tomlin; Michael Brudno; Marta Girdea; Sergiu Dumitriu; Melissa A. Haendel; Christopher J. Mungall; Damian Smedley; Harry Hochheiser; Andrew M. Arnold; Bert Coessens; Steven Verhoeven; William Bone; David Adams; Cornelius F. Boerkoel; William A. Gahl; Murat Sincan

doi:10.3389/fmed.2016.00039

Distributed cognition and process management enabling individualized translational research: The NIH undiagnosed diseases program experience

Amanda E. Links, David Draper, Elizabeth Lee, Jessica Guzman, Zaheer Valivullah, Valerie Maduro, Vlad Lebedev, Maxim Didenko, Garrick Tomlin, Michael Brudno, Marta Girdea, Sergiu Dumitriu, Melissa A. Haendel, Christopher J. Mungall, Damian Smedley, Harry Hochheiser, Andrew M. Arnold, Bert Coessens, Steven Verhoeven, William BoneDavid Adams, Cornelius F. Boerkoel, William A. Gahl, Murat Sincan

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Abstract

The National Institutes of Health Undiagnosed Diseases Program (NIH UDP) applies translational research systematically to diagnose patients with undiagnosed diseases. The challenge is to implement an information system enabling scalable translational research. The authors hypothesized that similar complex problems are resolvable through process management and the distributed cognition of communities. The team, therefore, built the NIH UDP integrated collaboration system (UDPICS) to form virtual collaborative multidisciplinary research networks or communities. UDPICS supports these communities through integrated process management, ontology-based phenotyping, biospecimen management, cloud-based genomic analysis, and an electronic laboratory notebook. UDPICS provided a mechanism for efficient, transparent, and scalable translational research and thereby addressed many of the complex and diverse research and logistical problems of the NIH UDP. Full definition of the strengths and deficiencies of UDPICS will require formal qualitative and quantitative usability and process improvement measurement.

Original language	English (US)
Article number	39
Journal	Frontiers in Medicine
Volume	3
Issue number	OCT
DOIs	https://doi.org/10.3389/fmed.2016.00039
State	Published - 2016

Keywords

Information system
Ontology-based phenotyping
Precision medicine
Process management system
Translational research

ASJC Scopus subject areas

Medicine(all)

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10.3389/fmed.2016.00039

Cite this

Links, A. E., Draper, D., Lee, E., Guzman, J., Valivullah, Z., Maduro, V., Lebedev, V., Didenko, M., Tomlin, G., Brudno, M., Girdea, M., Dumitriu, S., Haendel, M. A., Mungall, C. J., Smedley, D., Hochheiser, H., Arnold, A. M., Coessens, B., Verhoeven, S., ... Sincan, M. (2016). Distributed cognition and process management enabling individualized translational research: The NIH undiagnosed diseases program experience. Frontiers in Medicine, 3(OCT), Article 39. https://doi.org/10.3389/fmed.2016.00039

Links, AE, Draper, D, Lee, E, Guzman, J, Valivullah, Z, Maduro, V, Lebedev, V, Didenko, M, Tomlin, G, Brudno, M, Girdea, M, Dumitriu, S, Haendel, MA, Mungall, CJ, Smedley, D, Hochheiser, H, Arnold, AM, Coessens, B, Verhoeven, S, Bone, W, Adams, D, Boerkoel, CF, Gahl, WA & Sincan, M 2016, 'Distributed cognition and process management enabling individualized translational research: The NIH undiagnosed diseases program experience', Frontiers in Medicine, vol. 3, no. OCT, 39. https://doi.org/10.3389/fmed.2016.00039

@article{821684fc0025487ebc2532a0e44788db,

title = "Distributed cognition and process management enabling individualized translational research: The NIH undiagnosed diseases program experience",

abstract = "The National Institutes of Health Undiagnosed Diseases Program (NIH UDP) applies translational research systematically to diagnose patients with undiagnosed diseases. The challenge is to implement an information system enabling scalable translational research. The authors hypothesized that similar complex problems are resolvable through process management and the distributed cognition of communities. The team, therefore, built the NIH UDP integrated collaboration system (UDPICS) to form virtual collaborative multidisciplinary research networks or communities. UDPICS supports these communities through integrated process management, ontology-based phenotyping, biospecimen management, cloud-based genomic analysis, and an electronic laboratory notebook. UDPICS provided a mechanism for efficient, transparent, and scalable translational research and thereby addressed many of the complex and diverse research and logistical problems of the NIH UDP. Full definition of the strengths and deficiencies of UDPICS will require formal qualitative and quantitative usability and process improvement measurement.",

keywords = "Information system, Ontology-based phenotyping, Precision medicine, Process management system, Translational research",

author = "Links, {Amanda E.} and David Draper and Elizabeth Lee and Jessica Guzman and Zaheer Valivullah and Valerie Maduro and Vlad Lebedev and Maxim Didenko and Garrick Tomlin and Michael Brudno and Marta Girdea and Sergiu Dumitriu and Haendel, {Melissa A.} and Mungall, {Christopher J.} and Damian Smedley and Harry Hochheiser and Arnold, {Andrew M.} and Bert Coessens and Steven Verhoeven and William Bone and David Adams and Boerkoel, {Cornelius F.} and Gahl, {William A.} and Murat Sincan",

note = "Funding Information: This work was supported in part by the Common Fund, Office of the Director and the Intramural Research Program of the National Human Genome Research Institute (Z01-HG000215-07, Z01-200352-02; NIH, Bethesda, MD, USA). Computational analysis was conducted by the C3G Genomics Innovation Node, funded by Genome Canada through Ontario Genomics and Genome Quebec. Publisher Copyright: {\textcopyright} 2016 Links, Draper, Lee, Guzman, Valivullah, Maduro, Lebedev, Didenko, Tomlin, Brudno, Girdea, Dumitriu, Haendel, Mungall, Smedley, Hochheiser, Arnold, Coessens, Verhoeven, Bone, Adams, Boerkoel, Gahl and Sincan.",

year = "2016",

doi = "10.3389/fmed.2016.00039",

language = "English (US)",

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T2 - The NIH undiagnosed diseases program experience

AU - Links, Amanda E.

AU - Draper, David

AU - Lee, Elizabeth

AU - Guzman, Jessica

AU - Valivullah, Zaheer

AU - Maduro, Valerie

AU - Lebedev, Vlad

AU - Didenko, Maxim

AU - Tomlin, Garrick

AU - Brudno, Michael

AU - Girdea, Marta

AU - Dumitriu, Sergiu

AU - Haendel, Melissa A.

AU - Mungall, Christopher J.

AU - Smedley, Damian

AU - Hochheiser, Harry

AU - Arnold, Andrew M.

AU - Coessens, Bert

AU - Verhoeven, Steven

AU - Bone, William

AU - Adams, David

AU - Boerkoel, Cornelius F.

AU - Gahl, William A.

AU - Sincan, Murat

N1 - Funding Information: This work was supported in part by the Common Fund, Office of the Director and the Intramural Research Program of the National Human Genome Research Institute (Z01-HG000215-07, Z01-200352-02; NIH, Bethesda, MD, USA). Computational analysis was conducted by the C3G Genomics Innovation Node, funded by Genome Canada through Ontario Genomics and Genome Quebec. Publisher Copyright: © 2016 Links, Draper, Lee, Guzman, Valivullah, Maduro, Lebedev, Didenko, Tomlin, Brudno, Girdea, Dumitriu, Haendel, Mungall, Smedley, Hochheiser, Arnold, Coessens, Verhoeven, Bone, Adams, Boerkoel, Gahl and Sincan.

PY - 2016

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N2 - The National Institutes of Health Undiagnosed Diseases Program (NIH UDP) applies translational research systematically to diagnose patients with undiagnosed diseases. The challenge is to implement an information system enabling scalable translational research. The authors hypothesized that similar complex problems are resolvable through process management and the distributed cognition of communities. The team, therefore, built the NIH UDP integrated collaboration system (UDPICS) to form virtual collaborative multidisciplinary research networks or communities. UDPICS supports these communities through integrated process management, ontology-based phenotyping, biospecimen management, cloud-based genomic analysis, and an electronic laboratory notebook. UDPICS provided a mechanism for efficient, transparent, and scalable translational research and thereby addressed many of the complex and diverse research and logistical problems of the NIH UDP. Full definition of the strengths and deficiencies of UDPICS will require formal qualitative and quantitative usability and process improvement measurement.

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KW - Ontology-based phenotyping

KW - Precision medicine

KW - Process management system

KW - Translational research

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ER -

Distributed cognition and process management enabling individualized translational research: The NIH undiagnosed diseases program experience

Abstract

Keywords

ASJC Scopus subject areas

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