Background
Many patients do not receive guideline-recommended preventive, chronic disease, and acute care. One potential explanation is insufficient time for primary care providers (PCPs) to provide care.
Objective
To quantify the time needed to provide 2020 preventive care, chronic disease care, and acute care for a nationally representative adult patient panel by a PCP alone, and by a PCP as part of a team-based care model.
Design
Simulation study applying preventive and chronic disease care guidelines to hypothetical patient panels.
Participants
Hypothetical panels of 2500 patients, representative of the adult US population based on the 2017–2018 National Health and Nutrition Examination Survey.
Main Measures
The mean time required for a PCP to provide guideline-recommended preventive, chronic disease and acute care to the hypothetical patient panels. Estimates were also calculated for visit documentation time and electronic inbox management time. Times were re-estimated in the setting of team-based care.
Key Results
PCPs were estimated to require 26.7 h/day, comprising of 14.1 h/day for preventive care, 7.2 h/day for chronic disease care, 2.2 h/day for acute care, and 3.2 h/day for documentation and inbox management. With team-based care, PCPs were estimated to require 9.3 h per day (2.0 h/day for preventive care and 3.6 h/day for chronic disease care, 1.1 h/day for acute care, and 2.6 h/day for documentation and inbox management).
Conclusions
PCPs do not have enough time to provide the guideline-recommended primary care. With team-based care the time requirements would decrease by over half, but still be excessive.
Supplementary Information
The online version contains supplementary material available at 10.1007/s11606-022-07707-x.
For adults with T1D using multiple insulin injections and still experiencing suboptimal glycemic control, CGM is cost-effective at the willingness-to-pay threshold of $100,000 per QALY, with improved glucose control and reductions in nonsevere hypoglycemia.
Background
Intensive glycemic control in type 2 diabetes (glycated hemoglobin
[HbA1c] level <7%) is an
established, cost-effective standard of care. However, guidelines recommend
individualizing goals on the basis of age, comorbidity, diabetes duration,
and complications.
Objective
To estimate the cost-effectiveness of individualized control versus
uniform intensive control (HbA1c level <7%) for the
U.S. population with type 2 diabetes.
Design
Patient-level Monte Carlo–based Markov model.
Data Sources
National Health and Nutrition Examination Survey
2011–2012.
Target Population
The approximately 17.3 million persons in the United States with
diabetes diagnosed at age 30 years or older.
Time Horizon
Lifetime.
Perspective
Health care sector.
Intervention
Individualized versus uniform intensive glycemic control.
Outcome Measures
Average lifetime costs, life-years, and quality-adjusted life-years
(QALYs).
Results of Base-Case Analysis
Individualized control saved $13 547 per patient compared
with uniform intensive control ($105 307 vs. $118 854),
primarily due to lower medication costs ($34 521 vs. $48
763). Individualized control decreased life expectancy (20.63 vs. 20.73
years) due to an increase in complications but produced more QALYs (16.68
vs. 16.58) due to fewer hypoglycemic events and fewer medications.
Results of Sensitivity Analysis
Individualized control was cost-saving and generated more QALYs
compared with uniform intensive control, except in analyses where the
disutility associated with receiving diabetes medications was decreased by
at least 60%.
Limitation
The model did not account for effects of early versus later
intensive glycemic control.
Conclusion
Health policies and clinical programs that encourage an
individualized approach to glycemic control for U.S. adults with type 2
diabetes reduce costs and increase quality of life compared with uniform
intensive control. Additional research is needed to confirm the risks and
benefits of this strategy.
Primary Funding Source
National Institute of Diabetes and Digestive and Kidney
Diseases.
In the US, genetic testing for MODY is frequently delayed due to difficulty with insurance coverage. Understanding the economic implications of clinical genetic testing is imperative to advance precision medicine for diabetes. The objective of this paper is to assess the cost-effectiveness of genetic testing, preceded by biomarker screening and followed by cascade genetic testing of first-degree relatives, for subtypes of MODY in US pediatric patients with diabetes. Research Design and Methods: We used simulation models of distinct forms of diabetes to forecast the clinical and economic consequences of a systematic genetic testing strategy compared to usual care over a 30-year time horizon. In the genetic testing arm, patients with MODY received treatment changes (sulfonylureas for HNF1A-/HNF4A-MODY associated with a 1.0% reduction in HbA1c; no treatment for GCK-MODY). Study outcomes included costs, life expectancy (LE), and quality-adjusted life years (QALY). Results: The strategy of biomarker screening and genetic testing was cost-saving as it increased average quality of life (+0.0052 QALY) and decreased costs (-$191) per simulated patient relative to the control arm. Adding cascade genetic testing increased quality of life benefits (+0.0081 QALY) and lowered costs further (-$735). Conclusions: A combined strategy of biomarker screening and genetic testing for MODY in the US pediatric diabetes population is cost-saving compared to usual care, and the addition of cascade genetic testing accentuates the strategy's benefits. Widespread implementation of this strategy could improve the lives of patients with MODY while saving the health system money, illustrating the potential population health benefits of personalized medicine.
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