Clinical profiles of post-load glucose subgroups and their association with glycaemic traits over time: An IMI-DIRECT study

M Obura¹, J W J Beulens^{1

2}, R Slieker^{1

3}, A D M Koopman¹, T Hoekstra^{1

4}, G Nijpels⁵, P Elders⁵, J M Dekker¹, R W Koivula^{6

7}, A Kurbasic⁶, M Laakso⁸, T H Hansen^{9

10}, M Ridderstråle⁹, T Hansen^{9

11}, I Pavo¹², I Forgie¹³, B Jablonka¹⁴, H Ruetten¹⁴, A Mari¹⁵, M I McCarthy^{7

16}, M Walker¹⁷, T J McDonald¹⁸, M H Perry¹⁹, E R Pearson²⁰, P W Franks^{6

7

21}, L M 't Hart^{1

3

22}, F Rutters¹; IMI-DIRECT Consortium

Affiliations

¹ Epidemiology and Data Science, Amsterdam Public Health research institute, VU University Medical Center, Amsterdam, The Netherlands.
² Julius Centre for Health Sciences and Primary Care, University Medical Centre Utrecht, Utrecht, The Netherlands.
³ Department of Cell and Chemical Biology, Leiden University Medical Centre, Leiden, The Netherlands.
⁴ Department of Health Sciences, Faculty of Earth and Life Sciences, VU University, Amsterdam, The Netherlands.
⁵ Department of General Practice and Elderly Care Medicine, Amsterdam Public Health Research Institute, VU University Medical Centre, Amsterdam, The Netherlands.
⁶ Department of Clinical Sciences, Genetic and Molecular Epidemiology Unit, Lund University, Malmö, Sweden.
⁷ Oxford Centre for Diabetes, Endocrinology and Metabolism (OCDEM), University of Oxford, Oxford, UK.
⁸ Department of Medicine, University of Eastern Finland and Kuopio University Hospital, Finland.
⁹ The Novo Nordisk Foundation Centre for Basic Metabolic Research, Faculty of Health Sciences, University of Copenhagen, Copenhagen, Denmark.
¹⁰ Department of Cardiology and Endocrinology, Slagelse Hospital, Slagelse, Denmark.
¹¹ Faculty of Health Sciences, University of Southern Denmark, Odense, Denmark.
¹² Eli Lilly Regional Operations GmbH, Vienna, Austria.
¹³ Division of Cardiovascular & Diabetes Medicine, Medical Research Institute, University of Dundee, Dundee, UK.
¹⁴ Sanofi-Aventis Deutschland GmbH, R&D, Frankfurt am Main, Germany.
¹⁵ Institute of Biomedical Engineering, National Research Council, Padova, Italy.
¹⁶ Wellcome Trust Centre for Human Genetics, University of Oxford, Oxford, UK.
¹⁷ Institute of Cellular Medicine (Diabetes), Newcastle University, Newcastle upon Tyne, UK.
¹⁸ NIHR Exeter Clinical Research Facility, University of Exeter Medical School and Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
¹⁹ Department of Blood Sciences, Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
²⁰ Division of Population Health and Genomics, School of Medicine, University of Dundee, Dundee, UK.
²¹ Department of Nutrition, Harvard School of Public Health, Boston, MA, USA.
²² Department of Biomedical Data Sciences, Molecular Epidemiology Section, Leiden University Medical Centre, Leiden, The Netherlands.

PMID: 33067862
DOI: 10.1111/dme.14428

Clinical profiles of post-load glucose subgroups and their association with glycaemic traits over time: An IMI-DIRECT study

M Obura et al. Diabet Med. 2021 Feb.

. 2021 Feb;38(2):e14428.

doi: 10.1111/dme.14428. Epub 2020 Nov 3.

Authors

Affiliations

¹ Epidemiology and Data Science, Amsterdam Public Health research institute, VU University Medical Center, Amsterdam, The Netherlands.
² Julius Centre for Health Sciences and Primary Care, University Medical Centre Utrecht, Utrecht, The Netherlands.
³ Department of Cell and Chemical Biology, Leiden University Medical Centre, Leiden, The Netherlands.
⁴ Department of Health Sciences, Faculty of Earth and Life Sciences, VU University, Amsterdam, The Netherlands.
⁵ Department of General Practice and Elderly Care Medicine, Amsterdam Public Health Research Institute, VU University Medical Centre, Amsterdam, The Netherlands.
⁶ Department of Clinical Sciences, Genetic and Molecular Epidemiology Unit, Lund University, Malmö, Sweden.
⁷ Oxford Centre for Diabetes, Endocrinology and Metabolism (OCDEM), University of Oxford, Oxford, UK.
⁸ Department of Medicine, University of Eastern Finland and Kuopio University Hospital, Finland.
⁹ The Novo Nordisk Foundation Centre for Basic Metabolic Research, Faculty of Health Sciences, University of Copenhagen, Copenhagen, Denmark.
¹⁰ Department of Cardiology and Endocrinology, Slagelse Hospital, Slagelse, Denmark.
¹¹ Faculty of Health Sciences, University of Southern Denmark, Odense, Denmark.
¹² Eli Lilly Regional Operations GmbH, Vienna, Austria.
¹³ Division of Cardiovascular & Diabetes Medicine, Medical Research Institute, University of Dundee, Dundee, UK.
¹⁴ Sanofi-Aventis Deutschland GmbH, R&D, Frankfurt am Main, Germany.
¹⁵ Institute of Biomedical Engineering, National Research Council, Padova, Italy.
¹⁶ Wellcome Trust Centre for Human Genetics, University of Oxford, Oxford, UK.
¹⁷ Institute of Cellular Medicine (Diabetes), Newcastle University, Newcastle upon Tyne, UK.
¹⁸ NIHR Exeter Clinical Research Facility, University of Exeter Medical School and Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
¹⁹ Department of Blood Sciences, Royal Devon and Exeter NHS Foundation Trust, Exeter, UK.
²⁰ Division of Population Health and Genomics, School of Medicine, University of Dundee, Dundee, UK.
²¹ Department of Nutrition, Harvard School of Public Health, Boston, MA, USA.
²² Department of Biomedical Data Sciences, Molecular Epidemiology Section, Leiden University Medical Centre, Leiden, The Netherlands.

PMID: 33067862
DOI: 10.1111/dme.14428

Abstract

Aim: To examine the hypothesis that, based on their glucose curves during a seven-point oral glucose tolerance test, people at elevated type 2 diabetes risk can be divided into subgroups with different clinical profiles at baseline and different degrees of subsequent glycaemic deterioration.

Methods: We included 2126 participants at elevated type 2 diabetes risk from the Diabetes Research on Patient Stratification (IMI-DIRECT) study. Latent class trajectory analysis was used to identify subgroups from a seven-point oral glucose tolerance test at baseline and follow-up. Linear models quantified the associations between the subgroups with glycaemic traits at baseline and 18 months.

Results: At baseline, we identified four glucose curve subgroups, labelled in order of increasing peak levels as 1-4. Participants in Subgroups 2-4, were more likely to have higher insulin resistance (homeostatic model assessment) and a lower Matsuda index, than those in Subgroup 1. Overall, participants in Subgroups 3 and 4, had higher glycaemic trait values, with the exception of the Matsuda and insulinogenic indices. At 18 months, change in homeostatic model assessment of insulin resistance was higher in Subgroup 4 (β = 0.36, 95% CI 0.13-0.58), Subgroup 3 (β = 0.30; 95% CI 0.10-0.50) and Subgroup 2 (β = 0.18; 95% CI 0.04-0.32), compared to Subgroup 1. The same was observed for C-peptide and insulin. Five subgroups were identified at follow-up, and the majority of participants remained in the same subgroup or progressed to higher peak subgroups after 18 months.

Conclusions: Using data from a frequently sampled oral glucose tolerance test, glucose curve patterns associated with different clinical characteristics and different rates of subsequent glycaemic deterioration can be identified.

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References

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Clinical profiles of post-load glucose subgroups and their association with glycaemic traits over time: An IMI-DIRECT study

Affiliations

Clinical profiles of post-load glucose subgroups and their association with glycaemic traits over time: An IMI-DIRECT study

Authors

Affiliations

Abstract

References

REFERENCES

Publication types

MeSH terms

Substances

Grants and funding

LinkOut - more resources

Full Text Sources

Medical