DataSHIELD: taking the analysis to the data, not the data to the analysis

Amadou Gaye; Yannick Marcon; Julia Isaeva; Philippe LaFlamme; Andrew Turner; Elinor M Jones; Joel Minion; Andrew W Boyd; Christopher J Newby; Marja-Liisa Nuotio; Rebecca Wilson; Oliver Butters; Barnaby Murtagh; Ipek Demir; Dany Doiron; Lisette Giepmans; Susan E Wallace; Isabelle Budin-LjÃ¸sne; Carsten Oliver Schmidt; Paolo Boffetta; Mathieu Boniol; Maria Bota; Kim W Carter; Nick deKlerk; Chris Dibben; Richard W Francis; Tero Hiekkalinna; Kristian Hveem; Kirsti KvalÃ¸y; Sean Millar; Ivan J Perry; Annette Peters; Catherine M Phillips; Frank Popham; Gillian Raab; Eva Reischl; Nuala Sheehan; Melanie Waldenberger; Markus Perola; Edwin van den Heuvel; John Macleod; Bartha M Knoppers; Ronald P Stolk; Isabel Fortier; Jennifer R Harris; Bruce HR Woffenbuttel; Madeleine J Murtagh; Vincent Ferretti; Paul R Burton

doi:10.1093/ije/dyu188

DataSHIELD: taking the analysis to the data, not the data to the analysis

Amadou Gaye, Yannick Marcon, Julia Isaeva, Philippe LaFlamme, Andrew Turner, Elinor M Jones, Joel Minion, Andrew W Boyd, Christopher J Newby, Marja-Liisa Nuotio, Rebecca Wilson, Oliver Butters, Barnaby Murtagh, Ipek Demir, Dany Doiron, Lisette Giepmans, Susan E Wallace, Isabelle Budin-LjÃ¸sne, Carsten Oliver Schmidt, Paolo BoffettaMathieu Boniol, Maria Bota, Kim W Carter, Nick deKlerk, Chris Dibben, Richard W Francis, Tero Hiekkalinna, Kristian Hveem, Kirsti KvalÃ¸y, Sean Millar, Ivan J Perry, Annette Peters, Catherine M Phillips, Frank Popham, Gillian Raab, Eva Reischl, Nuala Sheehan, Melanie Waldenberger, Markus Perola, Edwin van den Heuvel, John Macleod, Bartha M Knoppers, Ronald P Stolk, Isabel Fortier, Jennifer R Harris, Bruce HR Woffenbuttel, Madeleine J Murtagh, Vincent Ferretti, Paul R Burton

School of Geosciences

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

Abstract

Background: Research in modern biomedicine and social science requires sample sizes so large that they can often only be achieved through a pooled co-analysis of data from several studies. But the pooling of information from individuals in a central database that may be queried by researchers raises important ethico-legal questions and can be controversial. In the UK this has been highlighted by recent debate and controversy relating to the UKâ€™s proposed â€˜care.dataâ€™ initiative, and these issues reflect important societal and professional concerns about privacy, confidentiality and intellectual property. DataSHIELD provides a novel technological solution that can circumvent some of the most basic challenges in facilitating the access of researchers and other healthcare professionals to individual-level data.Methods: Commands are sent from a central analysis computer (AC) to several data computers (DCs) storing the data to be co-analysed. The data sets are analysed simultaneously but in parallel. The separate parallelized analyses are linked by non-disclosive summary statistics and commands transmitted back and forth between the DCs and the AC. This paper describes the technical implementation of DataSHIELD using a modified R statistical environment linked to an Opal database deployed behind the computer firewall of each DC. Analysis is controlled through a standard R environment at the AC.Results: Based on this Opal/R implementation, DataSHIELD is currently used by the Healthy Obese Project and the Environmental Core Project (BioSHaRE-EU) for the federated analysis of 10 data sets across eight European countries, and this illustrates the opportunities and challenges presented by the DataSHIELD approach.Conclusions: DataSHIELD facilitates important research in settings where: (i) a co-analysis of individual-level data from several studies is scientifically necessary but governance restrictions prohibit the release or sharing of some of the required data, and/or render data access unacceptably slow; (ii) a research group (e.g. in a developing nation) is particularly vulnerable to loss of intellectual propertyâ€”the researchers want to fully share the information held in their data with national and international collaborators, but do not wish to hand over the physical data themselves; and (iii) a data set is to be included in an individual-level co-analysis but the physical size of the data precludes direct transfer to a new site for analysis.

Original language	Undefined/Unknown
Journal	International Journal of Epidemiology
Early online date	26 Sep 2014
DOIs	https://doi.org/10.1093/ije/dyu188
Publication status	Published - 2014

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10.1093/ije/dyu188

http://ije.oxfordjournals.org/content/early/2014/09/26/ije.dyu188.abstract

Cite this

Gaye, A., Marcon, Y., Isaeva, J., LaFlamme, P., Turner, A., Jones, E. M., Minion, J., Boyd, A. W., Newby, C. J., Nuotio, M-L., Wilson, R., Butters, O., Murtagh, B., Demir, I., Doiron, D., Giepmans, L., Wallace, S. E., Budin-LjÃ¸sne, I., Oliver Schmidt, C., ... Burton, P. R. (2014). DataSHIELD: taking the analysis to the data, not the data to the analysis. International Journal of Epidemiology. https://doi.org/10.1093/ije/dyu188

@article{d1f649c162014492a3697839edae158e,

title = "DataSHIELD: taking the analysis to the data, not the data to the analysis",

abstract = "Background: Research in modern biomedicine and social science requires sample sizes so large that they can often only be achieved through a pooled co-analysis of data from several studies. But the pooling of information from individuals in a central database that may be queried by researchers raises important ethico-legal questions and can be controversial. In the UK this has been highlighted by recent debate and controversy relating to the UK{\^a}€{\texttrademark}s proposed {\^a}€˜care.data{\^a}€{\texttrademark} initiative, and these issues reflect important societal and professional concerns about privacy, confidentiality and intellectual property. DataSHIELD provides a novel technological solution that can circumvent some of the most basic challenges in facilitating the access of researchers and other healthcare professionals to individual-level data.Methods: Commands are sent from a central analysis computer (AC) to several data computers (DCs) storing the data to be co-analysed. The data sets are analysed simultaneously but in parallel. The separate parallelized analyses are linked by non-disclosive summary statistics and commands transmitted back and forth between the DCs and the AC. This paper describes the technical implementation of DataSHIELD using a modified R statistical environment linked to an Opal database deployed behind the computer firewall of each DC. Analysis is controlled through a standard R environment at the AC.Results: Based on this Opal/R implementation, DataSHIELD is currently used by the Healthy Obese Project and the Environmental Core Project (BioSHaRE-EU) for the federated analysis of 10 data sets across eight European countries, and this illustrates the opportunities and challenges presented by the DataSHIELD approach.Conclusions: DataSHIELD facilitates important research in settings where: (i) a co-analysis of individual-level data from several studies is scientifically necessary but governance restrictions prohibit the release or sharing of some of the required data, and/or render data access unacceptably slow; (ii) a research group (e.g. in a developing nation) is particularly vulnerable to loss of intellectual property{\^a}€”the researchers want to fully share the information held in their data with national and international collaborators, but do not wish to hand over the physical data themselves; and (iii) a data set is to be included in an individual-level co-analysis but the physical size of the data precludes direct transfer to a new site for analysis.",

author = "Amadou Gaye and Yannick Marcon and Julia Isaeva and Philippe LaFlamme and Andrew Turner and Jones, {Elinor M} and Joel Minion and Boyd, {Andrew W} and Newby, {Christopher J} and Marja-Liisa Nuotio and Rebecca Wilson and Oliver Butters and Barnaby Murtagh and Ipek Demir and Dany Doiron and Lisette Giepmans and Wallace, {Susan E} and Isabelle Budin-Lj{\~A}¸sne and {Oliver Schmidt}, Carsten and Paolo Boffetta and Mathieu Boniol and Maria Bota and Carter, {Kim W} and Nick deKlerk and Chris Dibben and Francis, {Richard W} and Tero Hiekkalinna and Kristian Hveem and Kirsti Kval{\~A}¸y and Sean Millar and Perry, {Ivan J} and Annette Peters and Phillips, {Catherine M} and Frank Popham and Gillian Raab and Eva Reischl and Nuala Sheehan and Melanie Waldenberger and Markus Perola and {van den Heuvel}, Edwin and John Macleod and Knoppers, {Bartha M} and Stolk, {Ronald P} and Isabel Fortier and Harris, {Jennifer R} and Woffenbuttel, {Bruce HR} and Murtagh, {Madeleine J} and Vincent Ferretti and Burton, {Paul R}",

year = "2014",

doi = "10.1093/ije/dyu188",

language = "Undefined/Unknown",

journal = "International Journal of Epidemiology",

issn = "0300-5771",

publisher = "Oxford University Press",

}

Gaye, A, Marcon, Y, Isaeva, J, LaFlamme, P, Turner, A, Jones, EM, Minion, J, Boyd, AW, Newby, CJ, Nuotio, M-L, Wilson, R, Butters, O, Murtagh, B, Demir, I, Doiron, D, Giepmans, L, Wallace, SE, Budin-LjÃ¸sne, I, Oliver Schmidt, C, Boffetta, P, Boniol, M, Bota, M, Carter, KW, deKlerk, N, Dibben, C, Francis, RW, Hiekkalinna, T, Hveem, K, KvalÃ¸y, K, Millar, S, Perry, IJ, Peters, A, Phillips, CM, Popham, F, Raab, G, Reischl, E, Sheehan, N, Waldenberger, M, Perola, M, van den Heuvel, E, Macleod, J, Knoppers, BM, Stolk, RP, Fortier, I, Harris, JR, Woffenbuttel, BHR, Murtagh, MJ, Ferretti, V & Burton, PR 2014, 'DataSHIELD: taking the analysis to the data, not the data to the analysis', International Journal of Epidemiology. https://doi.org/10.1093/ije/dyu188

TY - JOUR

T1 - DataSHIELD: taking the analysis to the data, not the data to the analysis

AU - Gaye, Amadou

AU - Marcon, Yannick

AU - Isaeva, Julia

AU - LaFlamme, Philippe

AU - Turner, Andrew

AU - Jones, Elinor M

AU - Minion, Joel

AU - Boyd, Andrew W

AU - Newby, Christopher J

AU - Nuotio, Marja-Liisa

AU - Wilson, Rebecca

AU - Butters, Oliver

AU - Murtagh, Barnaby

AU - Demir, Ipek

AU - Doiron, Dany

AU - Giepmans, Lisette

AU - Wallace, Susan E

AU - Budin-LjÃ¸sne, Isabelle

AU - Oliver Schmidt, Carsten

AU - Boffetta, Paolo

AU - Boniol, Mathieu

AU - Bota, Maria

AU - Carter, Kim W

AU - deKlerk, Nick

AU - Dibben, Chris

AU - Francis, Richard W

AU - Hiekkalinna, Tero

AU - Hveem, Kristian

AU - KvalÃ¸y, Kirsti

AU - Millar, Sean

AU - Perry, Ivan J

AU - Peters, Annette

AU - Phillips, Catherine M

AU - Popham, Frank

AU - Raab, Gillian

AU - Reischl, Eva

AU - Sheehan, Nuala

AU - Waldenberger, Melanie

AU - Perola, Markus

AU - van den Heuvel, Edwin

AU - Macleod, John

AU - Knoppers, Bartha M

AU - Stolk, Ronald P

AU - Fortier, Isabel

AU - Harris, Jennifer R

AU - Woffenbuttel, Bruce HR

AU - Murtagh, Madeleine J

AU - Ferretti, Vincent

AU - Burton, Paul R

PY - 2014

Y1 - 2014

N2 - Background: Research in modern biomedicine and social science requires sample sizes so large that they can often only be achieved through a pooled co-analysis of data from several studies. But the pooling of information from individuals in a central database that may be queried by researchers raises important ethico-legal questions and can be controversial. In the UK this has been highlighted by recent debate and controversy relating to the UKâ€™s proposed â€˜care.dataâ€™ initiative, and these issues reflect important societal and professional concerns about privacy, confidentiality and intellectual property. DataSHIELD provides a novel technological solution that can circumvent some of the most basic challenges in facilitating the access of researchers and other healthcare professionals to individual-level data.Methods: Commands are sent from a central analysis computer (AC) to several data computers (DCs) storing the data to be co-analysed. The data sets are analysed simultaneously but in parallel. The separate parallelized analyses are linked by non-disclosive summary statistics and commands transmitted back and forth between the DCs and the AC. This paper describes the technical implementation of DataSHIELD using a modified R statistical environment linked to an Opal database deployed behind the computer firewall of each DC. Analysis is controlled through a standard R environment at the AC.Results: Based on this Opal/R implementation, DataSHIELD is currently used by the Healthy Obese Project and the Environmental Core Project (BioSHaRE-EU) for the federated analysis of 10 data sets across eight European countries, and this illustrates the opportunities and challenges presented by the DataSHIELD approach.Conclusions: DataSHIELD facilitates important research in settings where: (i) a co-analysis of individual-level data from several studies is scientifically necessary but governance restrictions prohibit the release or sharing of some of the required data, and/or render data access unacceptably slow; (ii) a research group (e.g. in a developing nation) is particularly vulnerable to loss of intellectual propertyâ€”the researchers want to fully share the information held in their data with national and international collaborators, but do not wish to hand over the physical data themselves; and (iii) a data set is to be included in an individual-level co-analysis but the physical size of the data precludes direct transfer to a new site for analysis.

AB - Background: Research in modern biomedicine and social science requires sample sizes so large that they can often only be achieved through a pooled co-analysis of data from several studies. But the pooling of information from individuals in a central database that may be queried by researchers raises important ethico-legal questions and can be controversial. In the UK this has been highlighted by recent debate and controversy relating to the UKâ€™s proposed â€˜care.dataâ€™ initiative, and these issues reflect important societal and professional concerns about privacy, confidentiality and intellectual property. DataSHIELD provides a novel technological solution that can circumvent some of the most basic challenges in facilitating the access of researchers and other healthcare professionals to individual-level data.Methods: Commands are sent from a central analysis computer (AC) to several data computers (DCs) storing the data to be co-analysed. The data sets are analysed simultaneously but in parallel. The separate parallelized analyses are linked by non-disclosive summary statistics and commands transmitted back and forth between the DCs and the AC. This paper describes the technical implementation of DataSHIELD using a modified R statistical environment linked to an Opal database deployed behind the computer firewall of each DC. Analysis is controlled through a standard R environment at the AC.Results: Based on this Opal/R implementation, DataSHIELD is currently used by the Healthy Obese Project and the Environmental Core Project (BioSHaRE-EU) for the federated analysis of 10 data sets across eight European countries, and this illustrates the opportunities and challenges presented by the DataSHIELD approach.Conclusions: DataSHIELD facilitates important research in settings where: (i) a co-analysis of individual-level data from several studies is scientifically necessary but governance restrictions prohibit the release or sharing of some of the required data, and/or render data access unacceptably slow; (ii) a research group (e.g. in a developing nation) is particularly vulnerable to loss of intellectual propertyâ€”the researchers want to fully share the information held in their data with national and international collaborators, but do not wish to hand over the physical data themselves; and (iii) a data set is to be included in an individual-level co-analysis but the physical size of the data precludes direct transfer to a new site for analysis.

U2 - 10.1093/ije/dyu188

DO - 10.1093/ije/dyu188

M3 - Article

JO - International Journal of Epidemiology

JF - International Journal of Epidemiology

SN - 0300-5771

ER -