External validation of prognostic models predicting pre-eclampsia: individual participant data meta-analysis

Kym I.E. Snell; John Allotey; Melanie Smuk; Richard Hooper; Claire Chan; Asif Ahmed; Lucy C. Chappell; Peter Von Dadelszen; Marcus Green; Louise Kenny; Asma Khalil; Khalid S. Khan; Ben W. Mol; Jenny Myers; Lucilla Poston; Basky Thilaganathan; Anne C. Staff; Gordon C.S. Smith; Wessel Ganzevoort; Hannele Laivuori; Anthony O. Odibo; Javier Arenas Ramírez; John Kingdom; George Daskalakis; Diane Farrar; Ahmet A. Baschat; Paul T. Seed; Federico Prefumo; Fabricio da Silva Costa; Henk Groen; Francois Audibert; Jacques Masse; Ragnhild B. Skråstad; Kjell Å. Salvesen; Camilla Haavaldsen; Chie Nagata; Alice R. Rumbold; Seppo Heinonen; Lisa M. Askie; Luc J.M. Smits; Christina A. Vinter; Per Magnus; Kajantie Eero; Pia M. Villa; Anne K. Jenum; Louise B. Andersen; Jane E. Norman; Akihide Ohkuchi; Anne Eskild; Sohinee Bhattacharya; Fionnuala M. McAuliffe; Alberto Galindo; Ignacio Herraiz; Lionel Carbillon; Kerstin Klipstein-Grobusch; Seon Ae Yeo; Joyce L. Browne; Karel G.M. Moons; Richard D. Riley; Shakila Thangaratinam; for the IPPIC Collaborative Network; Maria Makrides; Claire T. Roberts

doi:10.1186/s12916-020-01766-9

External validation of prognostic models predicting pre-eclampsia: individual participant data meta-analysis

Kym I.E. Snell, John Allotey, Melanie Smuk, Richard Hooper, Claire Chan, Asif Ahmed, Lucy C. Chappell, Peter Von Dadelszen, Marcus Green, Louise Kenny, Asma Khalil, Khalid S. Khan, Ben W. Mol, Jenny Myers, Lucilla Poston, Basky Thilaganathan, Anne C. Staff, Gordon C.S. Smith, Wessel Ganzevoort, Hannele LaivuoriAnthony O. Odibo, Javier Arenas Ramírez, John Kingdom, George Daskalakis, Diane Farrar, Ahmet A. Baschat, Paul T. Seed, Federico Prefumo, Fabricio da Silva Costa, Henk Groen, Francois Audibert, Jacques Masse, Ragnhild B. Skråstad, Kjell Å. Salvesen, Camilla Haavaldsen, Chie Nagata, Alice R. Rumbold, Seppo Heinonen, Lisa M. Askie, Luc J.M. Smits, Christina A. Vinter, Per Magnus, Kajantie Eero, Pia M. Villa, Anne K. Jenum, Louise B. Andersen, Jane E. Norman, Akihide Ohkuchi, Anne Eskild, Sohinee Bhattacharya, Fionnuala M. McAuliffe, Alberto Galindo, Ignacio Herraiz, Lionel Carbillon, Kerstin Klipstein-Grobusch, Seon Ae Yeo, Joyce L. Browne, Karel G.M. Moons, Richard D. Riley, Shakila Thangaratinam, for the IPPIC Collaborative Network, Maria Makrides, Claire T. Roberts

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

22 Citations (Scopus)

43 Downloads (Pure)

Abstract

Background: Pre-eclampsia is a leading cause of maternal and perinatal mortality and morbidity. Early identification of women at risk during pregnancy is required to plan management. Although there are many published prediction models for pre-eclampsia, few have been validated in external data. Our objective was to externally validate published prediction models for pre-eclampsia using individual participant data (IPD) from UK studies, to evaluate whether any of the models can accurately predict the condition when used within the UK healthcare setting.

Methods: IPD from 11 UK cohort studies (217,415 pregnant women) within the International Prediction of Pregnancy Complications (IPPIC) pre-eclampsia network contributed to external validation of published prediction models, identified by systematic review. Cohorts that measured all predictor variables in at least one of the identified models and reported pre-eclampsia as an outcome were included for validation. We reported the model predictive performance as discrimination (C-statistic), calibration (calibration plots, calibration slope, calibration-in-the-large), and net benefit. Performance measures were estimated separately in each available study and then, where possible, combined across studies in a random-effects meta-analysis.

Results: Of 131 published models, 67 provided the full model equation and 24 could be validated in 11 UK cohorts. Most of the models showed modest discrimination with summary C-statistics between 0.6 and 0.7. The calibration of the predicted compared to observed risk was generally poor for most models with observed calibration slopes less than 1, indicating that predictions were generally too extreme, although confidence intervals were wide. There was large between-study heterogeneity in each model’s calibration-in-the-large, suggesting poor calibration of the predicted overall risk across populations. In a subset of models, the net benefit of using the models to inform clinical decisions appeared small and limited to probability thresholds between 5 and 7%.

Conclusions: The evaluated models had modest predictive performance, with key limitations such as poor calibration (likely due to overfitting in the original development datasets), substantial heterogeneity, and small net benefit across settings. The evidence to support the use of these prediction models for pre-eclampsia in clinical decision-making is limited. Any models that we could not validate should be examined in terms of their predictive performance, net benefit, and heterogeneity across multiple UK settings before consideration for use in practice.

Original language	English
Article number	302
Number of pages	18
Journal	BMC Medicine
Volume	18
DOIs	https://doi.org/10.1186/s12916-020-01766-9
Publication status	Published - 2 Nov 2020
Externally published	Yes

Keywords

External validation
Individual participant data
Pre-eclampsia
Prediction model

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1186/s12916-020-01766-9Licence: CC BY

Final published versionFinal published version, 1.47 MBLicence: CC BY

Cite this

Snell, K. I. E., Allotey, J., Smuk, M., Hooper, R., Chan, C., Ahmed, A., Chappell, L. C., Von Dadelszen, P., Green, M., Kenny, L., Khalil, A., Khan, K. S., Mol, B. W., Myers, J., Poston, L., Thilaganathan, B., Staff, A. C., Smith, G. C. S., Ganzevoort, W., ... Roberts, C. T. (2020). External validation of prognostic models predicting pre-eclampsia: individual participant data meta-analysis. BMC Medicine, 18, Article 302. https://doi.org/10.1186/s12916-020-01766-9

@article{d4f1c0dd77c04ecd85ac1900bc355580,

title = "External validation of prognostic models predicting pre-eclampsia: individual participant data meta-analysis",

abstract = "Background: Pre-eclampsia is a leading cause of maternal and perinatal mortality and morbidity. Early identification of women at risk during pregnancy is required to plan management. Although there are many published prediction models for pre-eclampsia, few have been validated in external data. Our objective was to externally validate published prediction models for pre-eclampsia using individual participant data (IPD) from UK studies, to evaluate whether any of the models can accurately predict the condition when used within the UK healthcare setting. Methods: IPD from 11 UK cohort studies (217,415 pregnant women) within the International Prediction of Pregnancy Complications (IPPIC) pre-eclampsia network contributed to external validation of published prediction models, identified by systematic review. Cohorts that measured all predictor variables in at least one of the identified models and reported pre-eclampsia as an outcome were included for validation. We reported the model predictive performance as discrimination (C-statistic), calibration (calibration plots, calibration slope, calibration-in-the-large), and net benefit. Performance measures were estimated separately in each available study and then, where possible, combined across studies in a random-effects meta-analysis. Results: Of 131 published models, 67 provided the full model equation and 24 could be validated in 11 UK cohorts. Most of the models showed modest discrimination with summary C-statistics between 0.6 and 0.7. The calibration of the predicted compared to observed risk was generally poor for most models with observed calibration slopes less than 1, indicating that predictions were generally too extreme, although confidence intervals were wide. There was large between-study heterogeneity in each model{\textquoteright}s calibration-in-the-large, suggesting poor calibration of the predicted overall risk across populations. In a subset of models, the net benefit of using the models to inform clinical decisions appeared small and limited to probability thresholds between 5 and 7%.Conclusions: The evaluated models had modest predictive performance, with key limitations such as poor calibration (likely due to overfitting in the original development datasets), substantial heterogeneity, and small net benefit across settings. The evidence to support the use of these prediction models for pre-eclampsia in clinical decision-making is limited. Any models that we could not validate should be examined in terms of their predictive performance, net benefit, and heterogeneity across multiple UK settings before consideration for use in practice.",

keywords = "External validation, Individual participant data, Pre-eclampsia, Prediction model",

author = "Snell, {Kym I.E.} and John Allotey and Melanie Smuk and Richard Hooper and Claire Chan and Asif Ahmed and Chappell, {Lucy C.} and {Von Dadelszen}, Peter and Marcus Green and Louise Kenny and Asma Khalil and Khan, {Khalid S.} and Mol, {Ben W.} and Jenny Myers and Lucilla Poston and Basky Thilaganathan and Staff, {Anne C.} and Smith, {Gordon C.S.} and Wessel Ganzevoort and Hannele Laivuori and Odibo, {Anthony O.} and {Arenas Ram{\'i}rez}, Javier and John Kingdom and George Daskalakis and Diane Farrar and Baschat, {Ahmet A.} and Seed, {Paul T.} and Federico Prefumo and {da Silva Costa}, Fabricio and Henk Groen and Francois Audibert and Jacques Masse and Skr{\aa}stad, {Ragnhild B.} and Salvesen, {Kjell {\AA}.} and Camilla Haavaldsen and Chie Nagata and Rumbold, {Alice R.} and Seppo Heinonen and Askie, {Lisa M.} and Smits, {Luc J.M.} and Vinter, {Christina A.} and Per Magnus and Kajantie Eero and Villa, {Pia M.} and Jenum, {Anne K.} and Andersen, {Louise B.} and Norman, {Jane E.} and Akihide Ohkuchi and Anne Eskild and Sohinee Bhattacharya and McAuliffe, {Fionnuala M.} and Alberto Galindo and Ignacio Herraiz and Lionel Carbillon and Kerstin Klipstein-Grobusch and Yeo, {Seon Ae} and Browne, {Joyce L.} and Moons, {Karel G.M.} and Riley, {Richard D.} and Shakila Thangaratinam and {for the IPPIC Collaborative Network} and Alex Kwong and Savitri, {Ary I.} and Uiterwaal, {Cuno S.P.M.} and Staff, {Annetine C.} and Olive, {Elisa L.} and Christopher Redman and Maureen Macleod and Jane West and Fionnuala Mone and Zimmerman, {Peter A.} and Catherine Riddell and {van de Post}, Joris and Illanes, {Sebasti{\'a}n E.} and Claudia Holzman and {van Kuijk}, {Sander M.J.} and Luxmi Velauthar and {van Oostwaard}, Miriam and Stefan Verlohren and Enrico Ferrazzi and Mark Brown and Vollebregt, {Karlijn C.} and Satoru Takeda and Josje Langenveld and Mariana Widmer and Shigeru Saito and Guillermo Carroli and J{\o}rn Olsen and Hans Wolf and Nelly Zavaleta and Inge Eisensee and Patrizia Vergani and Pisake Lumbiganon and Maria Makrides and Fabio Facchinetti and Evan Sequeira and Robert Gibson and Sergio Ferrazzani and Tiziana Frusca and Figueir{\'o}-Filho, {Ernesto A.} and Olav Lapaire and Lykke, {Jacob A.} and Agustin Conde-Agudelo and Alfred Mbah and Betran, {Ana P.} and Lill Trogstad and Steegers, {Eric A.P.} and Read Salim and Tianhua Huang and Annemarijne Adank and Jun Zhang and Meschino, {Wendy S.} and Allen, {Rebecca E.} and {da Silva Costa}, Fabricio and Crowther, {Caroline A.} and J{\o}rgensen, {Jan S.} and Forest, {Jean Claude} and Yves Gigu{\`e}re and Francois Goffinet and Lesley McCowan and Eva Pajkrt and Haddad, {Bassam G.} and Gustaaf Dekker and Kleinrouweler, {Emily C.} and {\'E}douard LeCarpentier and Roberts, {Claire T.}",

year = "2020",

month = nov,

day = "2",

doi = "10.1186/s12916-020-01766-9",

language = "English",

volume = "18",

journal = "BMC Medicine",

issn = "1741-7015",

publisher = "BioMed Central Ltd.",

}

Snell, KIE, Allotey, J, Smuk, M, Hooper, R, Chan, C, Ahmed, A, Chappell, LC, Von Dadelszen, P, Green, M, Kenny, L, Khalil, A, Khan, KS, Mol, BW, Myers, J, Poston, L, Thilaganathan, B, Staff, AC, Smith, GCS, Ganzevoort, W, Laivuori, H, Odibo, AO, Arenas Ramírez, J, Kingdom, J, Daskalakis, G, Farrar, D, Baschat, AA, Seed, PT, Prefumo, F, da Silva Costa, F, Groen, H, Audibert, F, Masse, J, Skråstad, RB, Salvesen, KÅ, Haavaldsen, C, Nagata, C, Rumbold, AR, Heinonen, S, Askie, LM, Smits, LJM, Vinter, CA, Magnus, P, Eero, K, Villa, PM, Jenum, AK, Andersen, LB, Norman, JE, Ohkuchi, A, Eskild, A, Bhattacharya, S, McAuliffe, FM, Galindo, A, Herraiz, I, Carbillon, L, Klipstein-Grobusch, K, Yeo, SA, Browne, JL, Moons, KGM, Riley, RD, Thangaratinam, S, for the IPPIC Collaborative Network, Makrides, M & Roberts, CT 2020, 'External validation of prognostic models predicting pre-eclampsia: individual participant data meta-analysis', BMC Medicine, vol. 18, 302. https://doi.org/10.1186/s12916-020-01766-9

TY - JOUR

T1 - External validation of prognostic models predicting pre-eclampsia

T2 - individual participant data meta-analysis

AU - Snell, Kym I.E.

AU - Allotey, John

AU - Smuk, Melanie

AU - Hooper, Richard

AU - Chan, Claire

AU - Ahmed, Asif

AU - Chappell, Lucy C.

AU - Von Dadelszen, Peter

AU - Green, Marcus

AU - Kenny, Louise

AU - Khalil, Asma

AU - Khan, Khalid S.

AU - Mol, Ben W.

AU - Myers, Jenny

AU - Poston, Lucilla

AU - Thilaganathan, Basky

AU - Staff, Anne C.

AU - Smith, Gordon C.S.

AU - Ganzevoort, Wessel

AU - Laivuori, Hannele

AU - Odibo, Anthony O.

AU - Arenas Ramírez, Javier

AU - Kingdom, John

AU - Daskalakis, George

AU - Farrar, Diane

AU - Baschat, Ahmet A.

AU - Seed, Paul T.

AU - Prefumo, Federico

AU - da Silva Costa, Fabricio

AU - Groen, Henk

AU - Audibert, Francois

AU - Masse, Jacques

AU - Skråstad, Ragnhild B.

AU - Salvesen, Kjell Å.

AU - Haavaldsen, Camilla

AU - Nagata, Chie

AU - Rumbold, Alice R.

AU - Heinonen, Seppo

AU - Askie, Lisa M.

AU - Smits, Luc J.M.

AU - Vinter, Christina A.

AU - Magnus, Per

AU - Eero, Kajantie

AU - Villa, Pia M.

AU - Jenum, Anne K.

AU - Andersen, Louise B.

AU - Norman, Jane E.

AU - Ohkuchi, Akihide

AU - Eskild, Anne

AU - Bhattacharya, Sohinee

AU - McAuliffe, Fionnuala M.

AU - Galindo, Alberto

AU - Herraiz, Ignacio

AU - Carbillon, Lionel

AU - Klipstein-Grobusch, Kerstin

AU - Yeo, Seon Ae

AU - Browne, Joyce L.

AU - Moons, Karel G.M.

AU - Riley, Richard D.

AU - Thangaratinam, Shakila

AU - for the IPPIC Collaborative Network

AU - Kwong, Alex

AU - Savitri, Ary I.

AU - Uiterwaal, Cuno S.P.M.

AU - Staff, Annetine C.

AU - Olive, Elisa L.

AU - Redman, Christopher

AU - Macleod, Maureen

AU - West, Jane

AU - Mone, Fionnuala

AU - Zimmerman, Peter A.

AU - Riddell, Catherine

AU - van de Post, Joris

AU - Illanes, Sebastián E.

AU - Holzman, Claudia

AU - van Kuijk, Sander M.J.

AU - Velauthar, Luxmi

AU - van Oostwaard, Miriam

AU - Verlohren, Stefan

AU - Ferrazzi, Enrico

AU - Brown, Mark

AU - Vollebregt, Karlijn C.

AU - Takeda, Satoru

AU - Langenveld, Josje

AU - Widmer, Mariana

AU - Saito, Shigeru

AU - Carroli, Guillermo

AU - Olsen, Jørn

AU - Wolf, Hans

AU - Zavaleta, Nelly

AU - Eisensee, Inge

AU - Vergani, Patrizia

AU - Lumbiganon, Pisake

AU - Makrides, Maria

AU - Facchinetti, Fabio

AU - Sequeira, Evan

AU - Gibson, Robert

AU - Ferrazzani, Sergio

AU - Frusca, Tiziana

AU - Figueiró-Filho, Ernesto A.

AU - Lapaire, Olav

AU - Lykke, Jacob A.

AU - Conde-Agudelo, Agustin

AU - Mbah, Alfred

AU - Betran, Ana P.

AU - Trogstad, Lill

AU - Steegers, Eric A.P.

AU - Salim, Read

AU - Huang, Tianhua

AU - Adank, Annemarijne

AU - Zhang, Jun

AU - Meschino, Wendy S.

AU - Allen, Rebecca E.

AU - da Silva Costa, Fabricio

AU - Crowther, Caroline A.

AU - Jørgensen, Jan S.

AU - Forest, Jean Claude

AU - Giguère, Yves

AU - Goffinet, Francois

AU - McCowan, Lesley

AU - Pajkrt, Eva

AU - Haddad, Bassam G.

AU - Dekker, Gustaaf

AU - Kleinrouweler, Emily C.

AU - LeCarpentier, Édouard

AU - Roberts, Claire T.

PY - 2020/11/2

Y1 - 2020/11/2

N2 - Background: Pre-eclampsia is a leading cause of maternal and perinatal mortality and morbidity. Early identification of women at risk during pregnancy is required to plan management. Although there are many published prediction models for pre-eclampsia, few have been validated in external data. Our objective was to externally validate published prediction models for pre-eclampsia using individual participant data (IPD) from UK studies, to evaluate whether any of the models can accurately predict the condition when used within the UK healthcare setting. Methods: IPD from 11 UK cohort studies (217,415 pregnant women) within the International Prediction of Pregnancy Complications (IPPIC) pre-eclampsia network contributed to external validation of published prediction models, identified by systematic review. Cohorts that measured all predictor variables in at least one of the identified models and reported pre-eclampsia as an outcome were included for validation. We reported the model predictive performance as discrimination (C-statistic), calibration (calibration plots, calibration slope, calibration-in-the-large), and net benefit. Performance measures were estimated separately in each available study and then, where possible, combined across studies in a random-effects meta-analysis. Results: Of 131 published models, 67 provided the full model equation and 24 could be validated in 11 UK cohorts. Most of the models showed modest discrimination with summary C-statistics between 0.6 and 0.7. The calibration of the predicted compared to observed risk was generally poor for most models with observed calibration slopes less than 1, indicating that predictions were generally too extreme, although confidence intervals were wide. There was large between-study heterogeneity in each model’s calibration-in-the-large, suggesting poor calibration of the predicted overall risk across populations. In a subset of models, the net benefit of using the models to inform clinical decisions appeared small and limited to probability thresholds between 5 and 7%.Conclusions: The evaluated models had modest predictive performance, with key limitations such as poor calibration (likely due to overfitting in the original development datasets), substantial heterogeneity, and small net benefit across settings. The evidence to support the use of these prediction models for pre-eclampsia in clinical decision-making is limited. Any models that we could not validate should be examined in terms of their predictive performance, net benefit, and heterogeneity across multiple UK settings before consideration for use in practice.

AB - Background: Pre-eclampsia is a leading cause of maternal and perinatal mortality and morbidity. Early identification of women at risk during pregnancy is required to plan management. Although there are many published prediction models for pre-eclampsia, few have been validated in external data. Our objective was to externally validate published prediction models for pre-eclampsia using individual participant data (IPD) from UK studies, to evaluate whether any of the models can accurately predict the condition when used within the UK healthcare setting. Methods: IPD from 11 UK cohort studies (217,415 pregnant women) within the International Prediction of Pregnancy Complications (IPPIC) pre-eclampsia network contributed to external validation of published prediction models, identified by systematic review. Cohorts that measured all predictor variables in at least one of the identified models and reported pre-eclampsia as an outcome were included for validation. We reported the model predictive performance as discrimination (C-statistic), calibration (calibration plots, calibration slope, calibration-in-the-large), and net benefit. Performance measures were estimated separately in each available study and then, where possible, combined across studies in a random-effects meta-analysis. Results: Of 131 published models, 67 provided the full model equation and 24 could be validated in 11 UK cohorts. Most of the models showed modest discrimination with summary C-statistics between 0.6 and 0.7. The calibration of the predicted compared to observed risk was generally poor for most models with observed calibration slopes less than 1, indicating that predictions were generally too extreme, although confidence intervals were wide. There was large between-study heterogeneity in each model’s calibration-in-the-large, suggesting poor calibration of the predicted overall risk across populations. In a subset of models, the net benefit of using the models to inform clinical decisions appeared small and limited to probability thresholds between 5 and 7%.Conclusions: The evaluated models had modest predictive performance, with key limitations such as poor calibration (likely due to overfitting in the original development datasets), substantial heterogeneity, and small net benefit across settings. The evidence to support the use of these prediction models for pre-eclampsia in clinical decision-making is limited. Any models that we could not validate should be examined in terms of their predictive performance, net benefit, and heterogeneity across multiple UK settings before consideration for use in practice.

KW - External validation

KW - Individual participant data

KW - Pre-eclampsia

KW - Prediction model

UR - http://www.scopus.com/inward/record.url?scp=85095396152&partnerID=8YFLogxK

U2 - 10.1186/s12916-020-01766-9

DO - 10.1186/s12916-020-01766-9

M3 - Article

C2 - 33131506

AN - SCOPUS:85095396152

SN - 1741-7015

VL - 18

JO - BMC Medicine

JF - BMC Medicine

M1 - 302

ER -

External validation of prognostic models predicting pre-eclampsia: individual participant data meta-analysis

Abstract

Keywords

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this