Extending the scope of pooled analyses of individual patient biomarker data from heterogeneous laboratory platforms and cohorts using merging algorithms

Órlaith Burke; Samantha Benton; Pawel Szafranski; Peter von Dadelszen; S. Catalin Buhimschi; Irene Cetin; Lucy Chappell; Francesc Figueras; Alberto Galindo; Ignacio Herraiz; Claudia Holzman; Carl Hubel; Ulla Knudsen; Camilla Kronborg; Hannele Laivuori; Olav Lapaire; Thomas McElrath; Manfred Moertl; Jenny Myers; Roberta B. Ness; Leandro Oliveira; Gayle Olson; Lucilla Poston; Carrie Ris-Stalpers; James M. Roberts; Sarah Schalekamp-Timmermans; Dietmar Schlembach; Eric Steegers; Holger Stepan; Vassilis Tsatsaris; Joris A. van der Post; Stefan Verlohren; Pia M. Villa; David Williams; Harald Zeisler; Christopher W. G. Redman; Anne Cathrine Staff

doi:https://doi.org/10.1016/j.preghy.2015.12.002

Extending the scope of pooled analyses of individual patient biomarker data from heterogeneous laboratory platforms and cohorts using merging algorithms

Órlaith Burke, Samantha Benton, Pawel Szafranski, Peter von Dadelszen, S. Catalin Buhimschi, Irene Cetin, Lucy Chappell, Francesc Figueras, Alberto Galindo, Ignacio Herraiz, Claudia Holzman, Carl Hubel, Ulla Knudsen, Camilla Kronborg, Hannele Laivuori, Olav Lapaire, Thomas McElrath, Manfred Moertl, Jenny Myers, Roberta B. NessLeandro Oliveira, Gayle Olson, Lucilla Poston, Carrie Ris-Stalpers, James M. Roberts, Sarah Schalekamp-Timmermans, Dietmar Schlembach, Eric Steegers, Holger Stepan, Vassilis Tsatsaris, Joris A. van der Post, Stefan Verlohren, Pia M. Villa, David Williams, Harald Zeisler, Christopher W. G. Redman, Anne Cathrine Staff

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

12 Citations (Scopus)

Abstract

A common challenge in medicine, exemplified in the analysis of biomarker data, is that large studies are needed for sufficient statistical power. Often, this may only be achievable by aggregating multiple cohorts. However, different studies may use disparate platforms for laboratory analysis, which can hinder merging. Using circulating placental growth factor (PlGF), a potential biomarker for hypertensive disorders of pregnancy (HDP) such as preeclampsia, as an example, we investigated how such issues can be overcome by inter-platform standardization and merging algorithms. We studied 16,462 pregnancies from 22 study cohorts. PlGF measurements (gestational age ⩾20 weeks) analyzed on one of four platforms: R&D Systems, AlereTriage, RocheElecsys or AbbottArchitect, were available for 13,429 women. Two merging algorithms, using Z-Score and Multiple of Median transformations, were applied. Best reference curves (BRC), based on merged, transformed PlGF measurements in uncomplicated pregnancy across six gestational age groups, were estimated. Identification of HDP by these PlGF-BRCs was compared to that of platform-specific curves. We demonstrate the feasibility of merging PlGF concentrations from different analytical platforms. Overall BRC identification of HDP performed at least as well as platform-specific curves. Our method can be extended to any set of biomarkers obtained from different laboratory platforms in any field. Merged biomarker data from multiple studies will improve statistical power and enlarge our understanding of the pathophysiology and management of medical syndromes

Original language	English
Pages (from-to)	53-59
Journal	Pregnancy Hypertension
Volume	6
Issue number	1
DOIs	https://doi.org/10.1016/j.preghy.2015.12.002
Publication status	Published - 2016

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https://doi.org/10.1016/j.preghy.2015.12.002

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Burke, Ó., Benton, S., Szafranski, P., von Dadelszen, P., Buhimschi, S. C., Cetin, I., Chappell, L., Figueras, F., Galindo, A., Herraiz, I., Holzman, C., Hubel, C., Knudsen, U., Kronborg, C., Laivuori, H., Lapaire, O., McElrath, T., Moertl, M., Myers, J., ... Staff, A. C. (2016). Extending the scope of pooled analyses of individual patient biomarker data from heterogeneous laboratory platforms and cohorts using merging algorithms. Pregnancy Hypertension, 6(1), 53-59. https://doi.org/10.1016/j.preghy.2015.12.002

@article{1941c6c811e24a95884e3009c2f3b52c,

title = "Extending the scope of pooled analyses of individual patient biomarker data from heterogeneous laboratory platforms and cohorts using merging algorithms",

abstract = "A common challenge in medicine, exemplified in the analysis of biomarker data, is that large studies are needed for sufficient statistical power. Often, this may only be achievable by aggregating multiple cohorts. However, different studies may use disparate platforms for laboratory analysis, which can hinder merging. Using circulating placental growth factor (PlGF), a potential biomarker for hypertensive disorders of pregnancy (HDP) such as preeclampsia, as an example, we investigated how such issues can be overcome by inter-platform standardization and merging algorithms. We studied 16,462 pregnancies from 22 study cohorts. PlGF measurements (gestational age ⩾20 weeks) analyzed on one of four platforms: R&D Systems, AlereTriage, RocheElecsys or AbbottArchitect, were available for 13,429 women. Two merging algorithms, using Z-Score and Multiple of Median transformations, were applied. Best reference curves (BRC), based on merged, transformed PlGF measurements in uncomplicated pregnancy across six gestational age groups, were estimated. Identification of HDP by these PlGF-BRCs was compared to that of platform-specific curves. We demonstrate the feasibility of merging PlGF concentrations from different analytical platforms. Overall BRC identification of HDP performed at least as well as platform-specific curves. Our method can be extended to any set of biomarkers obtained from different laboratory platforms in any field. Merged biomarker data from multiple studies will improve statistical power and enlarge our understanding of the pathophysiology and management of medical syndromes",

author = "{\'O}rlaith Burke and Samantha Benton and Pawel Szafranski and {von Dadelszen}, Peter and Buhimschi, {S. Catalin} and Irene Cetin and Lucy Chappell and Francesc Figueras and Alberto Galindo and Ignacio Herraiz and Claudia Holzman and Carl Hubel and Ulla Knudsen and Camilla Kronborg and Hannele Laivuori and Olav Lapaire and Thomas McElrath and Manfred Moertl and Jenny Myers and Ness, {Roberta B.} and Leandro Oliveira and Gayle Olson and Lucilla Poston and Carrie Ris-Stalpers and Roberts, {James M.} and Sarah Schalekamp-Timmermans and Dietmar Schlembach and Eric Steegers and Holger Stepan and Vassilis Tsatsaris and {van der Post}, {Joris A.} and Stefan Verlohren and Villa, {Pia M.} and David Williams and Harald Zeisler and Redman, {Christopher W. G.} and Staff, {Anne Cathrine}",

year = "2016",

doi = "https://doi.org/10.1016/j.preghy.2015.12.002",

language = "English",

volume = "6",

pages = "53--59",

journal = "Pregnancy Hypertension",

issn = "2210-7789",

publisher = "Elsevier BV",

number = "1",

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Burke, Ó, Benton, S, Szafranski, P, von Dadelszen, P, Buhimschi, SC, Cetin, I, Chappell, L, Figueras, F, Galindo, A, Herraiz, I, Holzman, C, Hubel, C, Knudsen, U, Kronborg, C, Laivuori, H, Lapaire, O, McElrath, T, Moertl, M, Myers, J, Ness, RB, Oliveira, L, Olson, G, Poston, L, Ris-Stalpers, C, Roberts, JM, Schalekamp-Timmermans, S, Schlembach, D, Steegers, E, Stepan, H, Tsatsaris, V, van der Post, JA, Verlohren, S, Villa, PM, Williams, D, Zeisler, H, Redman, CWG & Staff, AC 2016, 'Extending the scope of pooled analyses of individual patient biomarker data from heterogeneous laboratory platforms and cohorts using merging algorithms', Pregnancy Hypertension, vol. 6, no. 1, pp. 53-59. https://doi.org/10.1016/j.preghy.2015.12.002

TY - JOUR

T1 - Extending the scope of pooled analyses of individual patient biomarker data from heterogeneous laboratory platforms and cohorts using merging algorithms

AU - Burke, Órlaith

AU - Benton, Samantha

AU - Szafranski, Pawel

AU - von Dadelszen, Peter

AU - Buhimschi, S. Catalin

AU - Cetin, Irene

AU - Chappell, Lucy

AU - Figueras, Francesc

AU - Galindo, Alberto

AU - Herraiz, Ignacio

AU - Holzman, Claudia

AU - Hubel, Carl

AU - Knudsen, Ulla

AU - Kronborg, Camilla

AU - Laivuori, Hannele

AU - Lapaire, Olav

AU - McElrath, Thomas

AU - Moertl, Manfred

AU - Myers, Jenny

AU - Ness, Roberta B.

AU - Oliveira, Leandro

AU - Olson, Gayle

AU - Poston, Lucilla

AU - Ris-Stalpers, Carrie

AU - Roberts, James M.

AU - Schalekamp-Timmermans, Sarah

AU - Schlembach, Dietmar

AU - Steegers, Eric

AU - Stepan, Holger

AU - Tsatsaris, Vassilis

AU - van der Post, Joris A.

AU - Verlohren, Stefan

AU - Villa, Pia M.

AU - Williams, David

AU - Zeisler, Harald

AU - Redman, Christopher W. G.

AU - Staff, Anne Cathrine

PY - 2016

Y1 - 2016

N2 - A common challenge in medicine, exemplified in the analysis of biomarker data, is that large studies are needed for sufficient statistical power. Often, this may only be achievable by aggregating multiple cohorts. However, different studies may use disparate platforms for laboratory analysis, which can hinder merging. Using circulating placental growth factor (PlGF), a potential biomarker for hypertensive disorders of pregnancy (HDP) such as preeclampsia, as an example, we investigated how such issues can be overcome by inter-platform standardization and merging algorithms. We studied 16,462 pregnancies from 22 study cohorts. PlGF measurements (gestational age ⩾20 weeks) analyzed on one of four platforms: R&D Systems, AlereTriage, RocheElecsys or AbbottArchitect, were available for 13,429 women. Two merging algorithms, using Z-Score and Multiple of Median transformations, were applied. Best reference curves (BRC), based on merged, transformed PlGF measurements in uncomplicated pregnancy across six gestational age groups, were estimated. Identification of HDP by these PlGF-BRCs was compared to that of platform-specific curves. We demonstrate the feasibility of merging PlGF concentrations from different analytical platforms. Overall BRC identification of HDP performed at least as well as platform-specific curves. Our method can be extended to any set of biomarkers obtained from different laboratory platforms in any field. Merged biomarker data from multiple studies will improve statistical power and enlarge our understanding of the pathophysiology and management of medical syndromes

AB - A common challenge in medicine, exemplified in the analysis of biomarker data, is that large studies are needed for sufficient statistical power. Often, this may only be achievable by aggregating multiple cohorts. However, different studies may use disparate platforms for laboratory analysis, which can hinder merging. Using circulating placental growth factor (PlGF), a potential biomarker for hypertensive disorders of pregnancy (HDP) such as preeclampsia, as an example, we investigated how such issues can be overcome by inter-platform standardization and merging algorithms. We studied 16,462 pregnancies from 22 study cohorts. PlGF measurements (gestational age ⩾20 weeks) analyzed on one of four platforms: R&D Systems, AlereTriage, RocheElecsys or AbbottArchitect, were available for 13,429 women. Two merging algorithms, using Z-Score and Multiple of Median transformations, were applied. Best reference curves (BRC), based on merged, transformed PlGF measurements in uncomplicated pregnancy across six gestational age groups, were estimated. Identification of HDP by these PlGF-BRCs was compared to that of platform-specific curves. We demonstrate the feasibility of merging PlGF concentrations from different analytical platforms. Overall BRC identification of HDP performed at least as well as platform-specific curves. Our method can be extended to any set of biomarkers obtained from different laboratory platforms in any field. Merged biomarker data from multiple studies will improve statistical power and enlarge our understanding of the pathophysiology and management of medical syndromes

U2 - https://doi.org/10.1016/j.preghy.2015.12.002

DO - https://doi.org/10.1016/j.preghy.2015.12.002

M3 - Article

C2 - 26955773

SN - 2210-7789

VL - 6

SP - 53

EP - 59

JO - Pregnancy Hypertension

JF - Pregnancy Hypertension

IS - 1

ER -