Type 2 Diabetes screening intervals based on risk stratification
Introduction
We try to suggest the best HbA1c screening interval for 2 target population, 1) Health population to detect new type 2 diabetes, 2) Type 2 diabetes patients with stable glycemic condition to monitor their glycemic level.
Professors involved
Sachiko Ohde, saohde@luke.ac.jp
Collaborators
[Ohde S, Moriwaki K, Takahashi O]
Project details
Health population
Objectives:To determine the best HbA1c test interval strategy to detect new type 2 diabetes mellitus (T2DM) cases among healthy population, considering HbA1c test characteristics, risk stratification towards T2DM and cost effectiveness. Methods: Markov models were built to study the optimal screening interval for new cases of T2DM among each age- and BMI-stratified health population. Age was stratified into 30-44, 45-59, and 60-74 year age groups and BMI was also stratified into underweight (<18.5 kg/m2), normal (18.5-25 kg/m2), overweight (25-30 kg/m2) and obese (<30 kg/m2). In each model, different HbA1c test intervals were compared to evaluate costs per quality-adjusted life year (QALY) and the incremental cost-effectiveness ratio (ICER). We compared annual intervals (current Japanese strategy), every three years (US and UK recommendations) and intervals tailored for each risk stratification group, based on our previous work. All model parameters including screening and treatment costs, complication and mortality rates and utilities were applied from published studies. The willingness-to-pay threshold in cost-effectiveness analysis was set to US $50,000/QALY. Results: The HbA1c test interval to detect T2DM in a healthy population varies by age and BMI. Three-year interval were cost-effective in obese groups at all ages; 30-44: $12,575/QALY, 45-59: $25,843/QALY, 60-74: $36,366/QALY compared to annual screening interval. Three-year interval were also cost effective in the 60-74 age groups; underweight: $42,777/QALY, normal: $39,448/QALY, overweight: $27,436/QALY and overweight in the 45-59 age group; $23,987/QALY. In other groups, the screening interval to detect T2DM were found to be longer than three years as previous study reported. Annual screenings were dominated in many groups with low BMI and in younger age groups. Based on probability distribution of ICER, QALY does not show much difference among any groups. Conclusions: Annual screening to detect T2DM was not cost effectiveness and should not apply for any population. The three-year screening interval were optimal among all elderly population, obese group at all ages and overweight group among the 45-59 years old. Among low BMI and in younger age groups, optimal HbA1c test interval can be longer than three years.
Type 2 diabetes patients
Objectives:To determine the optimal HbA1c test interval strategy to detect new type 2 diabetes mellitus (T2DM) cases among healthy population, stratified by age and body mass index (BMI). Methods: Markov models were built to study the optimal screening interval for new cases of T2DM among each age- and BMI-stratified health population. Age was stratified into 30-44, 45-59, and 60-74 year age groups and BMI was also stratified into underweight (<18.5 kg/m2), normal (18.5-25 kg/m2), overweight (25-30 kg/m2) and obese (<30 kg/m2). In each model, different HbA1c test intervals were compared to evaluate costs per quality-adjusted life year (QALY) and the incremental cost-effectiveness ratio (ICER). We compared annual intervals (current Japanese strategy), every three years (US and UK recommendations) and intervals tailored for each risk stratification group, focusing on HbA1c test characteristics of signal (true change) and noise (error), which were reported in the previous study. All model parameters including screening and treatment costs, complication and mortality rates and utilities were also drawn from published studies. The willingness-to-pay threshold in cost-effectiveness analysis was set to US $50,000/QALY. Results:The HbA1c test interval to detect T2DM in a healthy population varies by age and BMI. Three year interval were cost-effective in obese groups at all ages; 30-44: $12,575/QALY, 45-59: $25,843/QALY, 60-74: $36,366/QALY compared to annual screening interval. Three year interval were also cost effective in the 60-74 age groups; underweight: $42,777/QALY, normal: $39,448/QALY, overweight: $27,436/QALY and overweight in the 45-59 age group; $23,987/QALY. In other groups, the screening interval to detect T2DM were found to be longer than three years as previous study reported. Annual screening was too expensive and dominated in many groups with low BMI and in younger age groups. Based on probability distribution of ICER, QALY does not show much difference among any groups. Conclusions:Annual screening to detect T2DM was not cost effectiveness and should not apply for any population. The three-year screening interval were optimal among all elderly population, obese group at all ages and overweight group among the 45-59 years old. Among low BMI and in younger age groups, optimal HbA1c test interval can be longer than three years.
Grant funding
[MEXT Grant-in-Aid for Young Scientists(B)]
Publications
Ohde S, et al. Cost-effectiveness analysis for HbA1c test intervals to screen patients with type 2 diabetes based on risk stratification.BMC Endocrine Disorders2021 21:105