BACKGROUND In the Systolic Blood Pressure Intervention Trial (SPRINT), adults at high risk for cardiovascular disease who received intensive systolic blood-pressure control (target, <120 mm Hg) had significantly lower rates of death and cardiovascular disease events than did those who received standard control (target, <140 mm Hg). On the basis of these data, we wanted to determine the lifetime health benefits and health care costs associated with intensive control versus standard control. METHODS We used a microsimulation model to apply SPRINT treatment effects and health care costs from national sources to a hypothetical cohort of SPRINT-eligible adults. The model projected lifetime costs of treatment and monitoring in patients with hypertension, cardiovascular disease events and subsequent treatment costs, treatment-related risks of serious adverse events and subsequent costs, and quality-adjusted life-years (QALYs) for intensive control versus standard control of systolic blood pressure. RESULTS We determined that the mean number of QALYs would be 0.27 higher among patients who received intensive control than among those who received standard control and would cost approximately $47,000 more per QALY gained if there were a reduction in adherence and treatment effects after 5 years; the cost would be approximately $28,000 more per QALY gained if the treatment effects persisted for the remaining lifetime of the patient. Most simulation results indicated that intensive treatment would be cost-effective (51 to 79% below the willingness-to-pay threshold of $50,000 per QALY and 76 to 93% below the threshold of $100,000 per QALY), regardless of whether treatment effects were reduced after 5 years or persisted for the remaining lifetime. CONCLUSIONS In this simulation study, intensive systolic blood-pressure control prevented cardiovascular disease events and prolonged life and did so at levels below common willingness-to-pay thresholds per QALY, regardless of whether benefits were reduced after 5 years or persisted for the patient’s remaining lifetime. (Funded by the National Heart, Lung, and Blood Institute and others; SPRINT ClinicalTrials.gov number, NCT01206062.)
Background: In the Los Angeles Barbershop Blood Pressure Study (LABBPS), pharmacist-led hypertension care in Los Angeles County Black-owned barbershops significantly improved blood pressure control in non-Hispanic Black men with uncontrolled hypertension at baseline. In this analysis, 10-year health outcomes and healthcare costs of one year of the LABBPS intervention versus control are projected. Methods: A discrete event simulation of hypertension care processes projected blood pressure, medication-related adverse events, fatal and non-fatal cardiovascular disease events, and non-cardiovascular disease death in LABBPS participants. Program costs, total direct healthcare costs (2019 USD), and quality-adjusted life years (QALYs) were estimated for the LABBPS intervention and control arms from a healthcare sector perspective over a 10-year horizon. Future costs and QALYs were discounted 3% annually. High and intermediate cost-effectiveness thresholds were defined as <$50,000 and <$150,000 per QALY gained, respectively. Results: At 10 years, the intervention was projected to cost an average of $2,356 (95% uncertainty interval [UI] -$264-$4,611) more per participant than the control arm and gain 0.06 (95% UI 0.01-0.10) QALYs. The LABBPS intervention was highly cost-effective, with a mean cost of $42,717 per QALY gained (58% probability of being highly and 96% of being at least intermediately cost-effective). Exclusive use of generic drugs improved the cost-effectiveness to $17,162 per QALY gained. The LABBPS intervention would be only intermediately cost effective if pharmacists were less likely to intensify antihypertensive medications when systolic blood pressure was ≥150 mmHg or if pharmacist weekly time driving to barbershops increased. Conclusions: Hypertension care delivered by clinical pharmacists in Black barbershops is a highly cost-effective way to improve blood pressure control in Black men.
Background-The Centers for Disease Control and Prevention's Million Hearts initiative includes an ambitious ≥80% blood pressure control goal in U.S. adults with hypertension by 2022. We used the validated Blood Pressure Control Model (BPCM) to quantify changes in clinic-based hypertension management processes needed to attain ≥80% blood pressure control.Methods and Results-The BPCM simulates patient blood pressures weekly using three key modifiable hypertension management processes: office visit frequency, clinician treatment intensification given an uncontrolled blood pressure, and continued antihypertensive medication use (medication adherence rate). We compared blood pressure control rates (using the Seventh Joint National Committee on hypertension targets) achieved over four years between usual care and the best observed values for management processes identified from the literature (1-week return visit interval, 20%−44% intensification rate, and 76% adherence rate). We determined the management process values needed to achieve ≥80% blood pressure control in U.S. adults. In adults with uncontrolled blood pressure, usual care achieved 45.6% control (95% uncertainty interval [UI] 39.6%−52.5%) and literature-based best observed values achieved 79.7% control (95% UI 79.3%−80.1%) over four years. Increasing treatment intensification rates to 62% of office visits with an uncontrolled blood pressure resulted in ≥80% blood pressure control, even when the return visit interval and adherence remained at usual care values. Improving to best observed values for all three management processes would achieve 78.1% blood pressure control in the overall U.S. population with hypertension, approaching the ≥80% Million Hearts 2022 goal.Conclusions-Achieving the Million Hearts blood pressure control goal by 2022 will require simultaneously increasing visit frequency, overcoming therapeutic inertia, and improving patient
A retrospective cohort study was conducted in patients with type 2 diabetes in an electronic medical record database to compare real-world, 6-month glycated haemoglobin (HbA1c) and weight outcomes for exenatide once weekly with those for dulaglutide and albiglutide. The study included 2465 patients: exenatide once weekly, n = 2133; dulaglutide, n = 201; and albiglutide, n = 131. The overall mean (standard deviation [s.d.]) age was 60 (11) years and 54% were men; neither differed among the comparison groups. The mean (s.d.) baseline HbA1c was similar in the exenatide once-weekly (8.3 [1.7]%) and dulaglutide groups (8.5 [1.5]%; P = .165), but higher in the albiglutide group (8.7 [1.7]%; P < .001). The overall mean (s.d.) HbA1c change was -0.5 (1.5)% (P < .001) and this did not differ among the comparison groups in either adjusted or unadjusted analyses. The mean (s.d.) weight change was -1.4 (4.7) kg for exenatide once weekly and -1.6 (3.7) kg for albiglutide (P = .579), but was greater for dulaglutide, at -2.7 (5.7) kg (P = .001). Outcomes were similar in subsets of insulin-naive patients with baseline HbA1c ≥7.0% or ≥9.0%. All agents significantly reduced HbA1c at 6 months, with no significant differences among agents or according to baseline HbA1c in insulin-naive subgroups.
Background Self‐monitoring of blood pressure (SMBP) improves blood pressure (BP) outcomes at 12‐months, but information is lacking on how SMBP affects hypertension care processes and longer‐term BP outcomes. Methods and Results We pooled individual participant data from 4 randomized clinical trials of SMBP in the United Kingdom (combined n=2590) with varying intensities of support. Multivariable random effects regression was used to estimate the probability of antihypertensive intensification at 12 months for usual care versus SMBP. Using these data, we simulated 5‐year BP control rates using a validated mathematical model. Trial participants were mostly older adults (mean age 66.6 years, SD 9.5), male (53.9%), and predominantly white (95.6%); mean baseline BP was 151.8/85.0 mm Hg. Compared with usual care, the likelihood of antihypertensive intensification increased with both SMBP with feedback to patient or provider alone (odds ratio 1.8, 95% CI 1.2–2.6) and with telemonitoring or self‐management (3.3, 2.5–4.2). Over 5 years, we estimated 33.4% BP control (<140/90 mm Hg) with usual care (95% uncertainty interval 27.7%–39.4%). One year of SMBP with feedback to patient or provider alone achieved 33.9% (28.3%–40.3%) BP control and SMBP with telemonitoring or self‐management 39.0% (33.1%–45.2%) over 5 years. If SMBP interventions and associated BP control processes were extended to 5 years, BP control increased to 52.4% (45.4%–59.8 %) and 72.1% (66.5%–77.6%), respectively. Conclusions One year of SMBP plus telemonitoring or self‐management increases the likelihood of antihypertensive intensification and could improve BP control rates at 5 years; continuing SMBP for 5 years could further improve BP control.
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