The Prime Diabetes Model- Novel Methods for Estimating Long-Term Clinical and Cost Outcomes in Type 1 Diabetes Mellitus

Jul 1, 2017, 00:00 AM
10.1016/j.jval.2016.12.001
https://www.valueinhealthjournal.com/article/S1098-3015(16)30089-4/fulltext
Section Title : METHODOLOGY
Section Order : 18
First Page : 985

Background

Recent publications describing long-term follow-up from landmark trials and diabetes registries represent an opportunity to revisit modeling options in type 1 diabetes mellitus (T1DM).

Objectives

To develop a new product-independent model capable of predicting long-term clinical and cost outcomes.

Methods

After a systematic literature review to identify clinical trial and registry data, a model was developed (the PRIME Diabetes Model) to simulate T1DM progression and complication onset. The model runs as a patient-level simulation, making use of covariance matrices for cohort generation and risk factor progression, and simulating myocardial infarction, stroke, angina, heart failure, nephropathy, retinopathy, macular edema, neuropathy, amputation, hypoglycemia, ketoacidosis, mortality, and risk factor evolution. Several approaches novel to T1DM modeling were used, including patient characteristics and risk factor covariance, a glycated hemoglobin progression model derived from patient-level data, and model averaging approaches to evaluate complication risk.

Results

Validation analyses comparing modeled outcomes with published studies demonstrated that the PRIME Diabetes Model projects long-term patient outcomes consistent with those reported for a number of long-term studies. Macrovascular end points were reliably reproduced across five different populations and microvascular complication risk was accurately predicted on the basis of comparisons with landmark studies and published registry data.

Conclusions

The PRIME Diabetes Model is product-independent, available online, and has been developed in line with good practice guidelines. Validation has indicated that outcomes from long-term studies can be reliably reproduced. The model offers new approaches to long-standing challenges in diabetes modeling and may become a valuable tool for informing health care policy.

https://www.valueinhealthjournal.com/action/showCitFormats?pii=S1098-3015(16)30089-4&doi=10.1016/j.jval.2016.12.001
HEOR Topics :
Tags :
  • cost-effectiveness
  • model
  • risk prediction
  • type 1 diabetes mellitus
Regions :