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Mutation prediction models in Lynch syndrome: evaluation in a clinical genetic setting
  1. Dewkoemar Ramsoekh (d.ramsoekh{at}erasmusmc.nl)
  1. Erasmus MC University Medical Center, Netherlands
    1. Monique E van Leerdam (m.vanleerdam{at}erasmusmc.nl)
    1. Erasmus MC University Medical Center, Netherlands
      1. Anja Wagner (a.wagner{at}erasmusmc.nl)
      1. Erasmus MC University Medical Center, Netherlands
        1. Ernst J Kuipers (e.j.kuipers{at}erasmusmc.nl)
        1. Erasmus MC University Medical Center, Netherlands
          1. Ewout W Steyerberg (e.steyerberg{at}erasmusmc.nl)
          1. Erasmus MC University Medical Center, Netherlands

            Abstract

            Background/aims: The identification of Lynch syndrome is hampered by the absence of specific diagnostic features and underutilization of genetic testing. Prediction models have therefore been developed, but they have not been validated for a clinical genetic setting. The aim of the present study was to evaluate the usefulness of currently available prediction models.

            Methods: We collected data of 321 index probands who were referred to the department of Clinical Genetics of the Erasmus Medical Center because of a family history of colorectal cancer. These data were used as input for five previously published models. External validity was assessed by discriminative ability (AUC: area under the receiver operating characteristic curve) and calibration. For further insight, predicted probabilities were categorized with cut-offs of 5%, 10%, 20% and 40%. Furthermore, costs of different testing strategies were related to the number of extra detected mutation carriers.

            Results: Of the 321 index probands, 66 harboured a germline mutation. All models discriminated well between high risk and low risk index probands (AUC: 0.82-0.84). Calibration was well for the Premm1,2 and Edinburgh model, but poor for the other models. Cut-offs could be found for the prediction models where costs could be saved while missing only few mutations.

            Conclusions: The Edinburgh and Premm1,2 model were the models with the best performance for an intermediate to high-risk setting. These models may well be of use in clinical practice to select patients for further testing of mismatch repair gene mutations.

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