Multi-omic prediction of incident type 2 diabetes

Carrasco-Zanini, Julia; Pietzner, Maik; Wheeler, Eleanor; Kerrison, Nicola D.; Langenberg, Claudia; Wareham, Nicholas J.

doi:10.1007/s00125-023-06027-x

Cited by 5 publications

(1 citation statement)

References 44 publications

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“…20 If blood samples can be taken, the clinical CDRS is recommended to use, which additionally includes the HbA 1c . 21 The assessment methods of the variables of the clinical CDRS and of type 2 incidence in both cohorts are shown in Supplemental Text S2 and Supplemental Table S2 .…”

Section: Methodsmentioning

confidence: 99%

Novel type 2 diabetes prediction score based on traditional risk factors and circulating metabolites: Model derivation and validation in two large cohort studies

Xie,

Herder,

Sha

et al. 2024

Preprint

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ImportanceThe predictive value of metabolomics quantified by nuclear magnetic resonance (NMR) for type 2 diabetes risk has not been assessed before. In addition, previous studies with other metabolomics quantification methods did not have an external validation cohort, which leaves doubts about the robustness of the derived models in other settings.ObjectiveThis project aimed to evaluate the incremental predictive value of metabolomic biomarkers for assessing the 10-year risk of type 2 diabetes when added to the clinical Cambridge Diabetes Risk Score (CDRS), which includes HbA1c.Design, Setting, and ParticipantsWe utilized 60,362 participants of the UK Biobank (UKB) for model derivation, 25,870 participants of the UKB for internal validation and 4,383 participants from the German ESTHER cohort for external validation.ExposuresA total of 249 NMR-derived metabolites were quantified using nuclear magnetic resonance (NMR) spectroscopy.Main Outcomes and MeasuresThe main outcome was 10-year type 2 diabetes incidence.ResultsEleven metabolomic biomarkers, including glycolysis-related metabolites, ketone bodies, amino acids, and lipids, were selected with LASSO regression. In internal validation within the UKB, adding these metabolites Harrel’s C-index of the clinical CDRS from 0.815 to 0.834 (P<0.001) and the continuous net reclassification index (NRI) was 39.8% (P<0.001). External validation in the ESTHER cohort showed a comparable C-index increase from 0.770 to 0.798 (P<0.001) and a continuous NRI of 33.8% (P<0.001).Conclusions and RelevanceAdding 11 biomarkers, mainly from glucose and lipid metabolism, to the clinical CDRS led to a novel type 2 diabetes prediction model, the “UK Biobank Diabetes Risk Score” (UKB-DRS), which substantially outperformed the clinical CDRS. As only very limited clinical information and a blood sample are needed for the UKB-DRS, and as high-throughput NMR metabolomics are becoming increasingly available at low costs, this model has considerable potential for routine clinical application in diabetes risk assessment.Key PointsQuestionCan the inclusion of metabolites measured in blood samples with NMR spectroscopy improve the accuracy of the clinical Cambridge Diabetes Risk Score (CDRS), which is already a good prediction model including the main diabetes risk indicator HbA1c?FindingsThe novel UK Biobank Diabetes Risk Score (UKB-DRS), which includes traditional diabetes risk factors and 11 metabolites, demonstrated significantly enhanced predictive performance compared to the clinical CDRS, both in the UK Biobank and the German ESTHER cohort.MeaningThe novel UKB-DRS could significantly improve the validity of early identification of individuals at risk for type 2 diabetes and guide clinicians and people at risk of diabetes in the choice of preventive measures.

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Section: Methodsmentioning

confidence: 99%

Novel type 2 diabetes prediction score based on traditional risk factors and circulating metabolites: Model derivation and validation in two large cohort studies

Xie,

Herder,

Sha

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Novel type 2 diabetes prediction score based on traditional risk factors and circulating metabolites: model derivation and validation in two large cohort studies

Xie,

Herder,

Sha

et al. 2025

eClinicalMedicine

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Precision medicine in diabetes care

Tan,

Loh,

Lim

2024

Current Opinion in Endocrinology, Diabetes &Amp; Obesity

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Purpose of review This review highlights emerging evidence supporting the premise of precision diabetes care including but not limited to monogenic diabetes and discuss potential opportunities, challenges, and limitations for clinical adoption. Recent findings Driven by a single gene mutation, monogenic diabetes remains the best use-case for precision diabetes care. However, the increasing prevalence of diabetes among adolescents and young adults in an obesogenic environment makes triaging potential patients for genetic screening clinically challenging. High-dimensional molecular biomarkers (i.e., multiomics) can improve the risk prediction for incident type 2 diabetes (T2D), over and above a well established prediction model based on clinical variables alone. Machine learning approaches using clinical variable-based clustering methods have generated novel and reproducible T2D subgroups with distinct phenotypic and omics characteristics that are associated with differential long-term outcomes. This stratification-strategy may inform clinical decisions. However, on-going discussion and research will be needed to understand the clinical utility of sub-phenotyping T2D for precision care. Summary Precision diabetes care has extended from uncommon monogenic diabetes to T2D which will need more complex approaches like multiomics and machine-learning methods. The successful clinical translation will require cumulative evidence and close collaboration among the stake holders.

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Multi-omic prediction of incident type 2 diabetes

Cited by 5 publications

References 44 publications

Novel type 2 diabetes prediction score based on traditional risk factors and circulating metabolites: Model derivation and validation in two large cohort studies

Novel type 2 diabetes prediction score based on traditional risk factors and circulating metabolites: Model derivation and validation in two large cohort studies

Novel type 2 diabetes prediction score based on traditional risk factors and circulating metabolites: model derivation and validation in two large cohort studies

Precision medicine in diabetes care

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