Effectiveness of Hypertension Management Strategies in SPRINT‐Eligible US Adults: A Simulation Study

Background Despite reducing cardiovascular disease (CVD) events and death in SPRINT (Systolic Blood Pressure Intervention Trial), intensive systolic blood pressure goals have not been adopted in the United States. This study aimed to simulate the potential long‐term impact of 4 hypertension management strategies in SPRINT‐eligible US adults. Methods and Results The validated Blood Pressure Control–Cardiovascular Disease Policy Model, a discrete event simulation of hypertension care processes (ie, visit frequency, blood pressure [BP] measurement accuracy, medication intensification, and medication adherence) and CVD outcomes, was populated with 25 000 SPRINT‐eligible US adults. Four hypertension management strategies were simulated: (1) usual care targeting BP <140/90 mm Hg (Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure usual care), (2) intensive care per the SPRINT protocol targeting BP <120/90 mm Hg (SPRINT intensive), (3) usual care targeting guideline‐recommended BP <130/80 mm Hg (American College of Cardiology/American Heart Association usual care), and (4) team‐based care added to usual care and targeting BP <130/80 mm Hg. Relative to the Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure usual care, among the 18.1 million SPRINT‐eligible US adults, an estimated 138 100 total CVD events could be prevented per year with SPRINT intensive, 33 900 with American College of Cardiology/American Heart Association usual care, and 89 100 with team‐based care. Compared with the Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure usual care, SPRINT intensive care was projected to increase treatment‐related serious adverse events by 77 600 per year, American College of Cardiology/American Heart Association usual care by 33 300, and team‐based care by 27 200. Conclusions As BP control has declined in recent years, health systems must prioritize hypertension management and invest in effective strategies. Adding team‐based care to usual care may be a pragmatic way to manage risk in this high‐CVD‐risk population.


I
n SPRINT (Systolic Blood Pressure Intervention Trial), an intensive systolic blood pressure (SBP) goal of <120 mm Hg (SPRINT intensive) compared with a standard goal of <140 mm Hg significantly reduced cardiovascular disease (CVD) events (hazard ratio [HR], 0.75; P<0.001) and all-cause death (HR, 0.73; P=0.003) but increased the risk of treatment-related serious adverse events (SAEs) (HR, 1.88; P<0.001) in adults with hypertension at high CVD risk. 1 Compared with a standard SBP goal, the SPRINT intensive SBP goal has been estimated to be cost effective. 2,3There are ≈18.1 million US adults that would meet SPRINT eligibility criteria, and effectively implementing intensive SBP goals could prevent a substantial number of CVD events and deaths. 4,5owever, due in part to concerns about implementing the intensive treatment protocol, the ability to replicate BP measurement in clinical practice, and the risk of SAEs, hypertension management according to the SPRINT protocol and targeting intensive SBP goals has not been readily adopted in the United States. 6Additionally, as individuals at the highest risk of CVD may be those most likely to experience SAEs, alternative hypertension management strategies to the intensive protocol and SBP goals of SPRINT may need to be considered in SPRINT-eligible US adults. 7,8argeting a less intensive blood pressure (BP) goal, such as the 2017 Hypertension Clinical Practice Guideline (American College of Cardiology/American Heart Association [ACC/AHA])-recommended <130/80 mm Hg, as part of usual care could be one strategy. 9owever, no studies have evaluated the effectiveness of alternate BP goals and care management strategies in SPRINT-eligible individuals.1][12] TBC in which a nonphysician team member (eg, pharmacist) can titrate antihypertensive medications is more effective and cost effective than usual care or TBC with physician medication titration. 10,11Further, when targeting a BP goal of <130/80 mm Hg, TBC could approach the SBP achieved in SPRINT. 13,14However, randomized clinical trial evidence comparing the potential benefits and harms of different hypertension management strategies in SPRINT-eligible US adults does not exist.
To fill this evidence gap and help guide health care policy makers implementing hypertension control strategies, we therefore used a computer simulation model of hypertension care processes and CVD events to compare usual care with intensive treatment according to the SPRINT protocol, and usual care and TBC targeting the 2017 ACC/AHA BP goal.We projected the SBP, CVD, SAE, and survival outcomes over 10 years and remaining lifetime of SPRINT-eligible US adults.

CLINICAL PERSPECTIVE
What Is New?What Are the Clinical Implications?
• Blood pressure control has worsened in the United States in recent years, and primary care practices are motivated to improve hypertension management.• In individuals meeting the SPRINT eligibility criteria, treatment according to the SPRINT protocol is projected to prevent the most cardiovascular disease events, but adding teambased care to usual care could be an effective strategy that partially offsets the increased risk of treatment-related serious adverse events.• Hypertension policy makers may consider team-based care a pragmatic and safe approach to hypertension management that provides patients with frequent monitoring and engagement while reducing the burden on primary care providers.

Model Overview
The current analysis used the Blood Pressure Control-Cardiovascular Disease Policy Model (BP-CVDPM), a validated discrete event simulation of hypertension management and CVD outcomes (Figure S1).

Simulated Population
7][18][19] Of these, 2094 individuals met the SPRINT eligibility criteria (Data S2), comparable with other NHANES-based projections from SPRINT. 4,5To this SPRINT-eligible NHANES sample, 2 weighting schemes were applied: (1) weighted to create a cohort resembling the baseline characteristics of SPRINT participants (SPRINT-representative) and (2) weighted to be nationally representative of the population of SPRINT-eligible US adults using the survey weights from NHANES (Data S2, Table S1, and Figure S2).Standardized mean differences were used to compare the published baseline characteristics of SPRINT participants with the simulated population under both weighting schemes.To ensure stable outcome estimates, all analyses sampled 25 000 individuals with replacement.

Simulated Comparators and Hypertension Care Processes
Individuals started the simulation meeting the SPRINT eligibility criteria and presenting at a physician office visit.The model then compared initiation of 4 hypertension management strategies (Figure 1, Table S2).In the first strategy, the Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure (JNC 7) usual care, individuals were assumed to receive usual care (ie, hypertension care processes were derived from national sources and published literature) and treated to BP <140/90 mm Hg or<130/80 mm Hg with chronic kidney disease or diabetes, if it developed during the simulation (Data S3 and Tables S2 and  S3). 10,16,17,20In the second strategy, SPRINT intensive, individuals were simulated to receive SPRINT protocolbased hypertension care with 1 physician visit per month for 3 months followed by 1 visit every 3 months for 3.26 years (ie, median SPRINT follow-up), and treated to the SPRINT intensive (<120/90 mm Hg) BP goal.Hypertension care processes were updated to reflect, where possible, that observed in SPRINT; others were based on published literature and calibrated as needed (Data S3). 1,21After 3.26 years, individuals were assumed to receive usual care (ie, hypertension care processes reverted to usual care) but maintain the SPRINT BP goal.In the third strategy, ACC/AHA usual care, individuals received usual care hypertension care processes and were treated to the 2017 ACC/AHA BP goal of <130/80 mm Hg.In the fourth strategy, TBC, individuals had TBC added to usual care for 1 year and were treated to a BP goal of <130/80 mm Hg.Based on a published meta-analysis, individuals had TBC visits with a nonphysician team member who could titrate medications (eg, pharmacist) once every 6 weeks during the first year, and other hypertension care processes from prior analyses of TBC. 10,17After the first year of TBC, individuals received usual care alone and maintained a BP goal <130/80 mm Hg.

Outcomes
Primary outcomes were SBP, fatal or nonfatal CVD events, CVD-related death, and fatal or nonfatal SAEs.SAEs considered possibly or definitely related to treatment were as defined in SPRINT as follows: "fatal or life threatening, resulting in significant or persistent disability," or "requiring or prolonging hospitalization." 1,2,10,16,17,22t was assumed in the model that all SAEs would result in hospitalization.Secondary outcomes included allcause death, life years (undiscounted), healthy life years (undiscounted), and number of physician and nonphysician visits.Healthy life years quantifies the number of years a population can anticipate living in good health and can be simulated by adjusting life years for years lived with disease and years lost due to premature death. 23[26][27][28]

Model Inputs
The risk of incident CVD events and non-CVD death were from Cox proportional hazards models derived in the National Heart, Lung, and Blood Institute Pooled Cohorts Study and account for age, race, smoking status, SBP, body mass index, diabetes, high-density lipoprotein cholesterol, low-density lipoprotein cholesterol, and estimated glomerular filtration rate (Table S3). 19,29,30Age-and sex-specific secondary or recurrent CVD event rates and CVD death were derived from the Centers for Disease Control and Prevention, National Inpatient Sample, and National Vital Statistics System, and the dynamic population version of the CVD Policy Model. 10,16,17Reductions in risk of CVD events per 10 mm Hg SBP lowering were derived from a published meta-analysis. 31The risk of treatment-related intolerable adverse events and SAEs was dependent on the number of antihypertensive medications used and derived from published literature. 1,10,16,17,22,32,33The probability that an SAE was fatal was dependent on age and derived from the National Inpatient Sample. 2,10,16,17[34][35][36][37][38][39][40][41][42] Figure 1.Hypertension management strategies and effects on care processes.*JNC 7 BP goal was <140/90 mm Hg for most patients and <130/80 mm Hg for patients with chronic kidney disease or diabetes if developed during the simulation.**Physician visits during the intervention period for SPRINT were according to the SPRINT protocol, that is, once per month for 3 months, then once every 3 months.For usual care, physician visits were dependent on BP control at the visit and other patient and visit characteristics (Data S3 and Table S3).During the postintervention period, increased or decreased physician visit frequency vs usual care were a result of BP control achieved during the intervention period.***BP measurement accuracy was dependent on the number of BP readings per visit and total number of visits.In the postintervention period, increased BP measurement accuracy vs usual care was a result of a higher total number of visits.The figure shows the 4 hypertensive management strategies simulated, including the targeted BP goal, duration of the interventions, and relative effect on hypertension care processes vs usual care.++ and + indicate strong and moderate effects, respectively, increasing or improving the process of care (eg, frequent physician visits, reduced BP measurement error), +/-indicates equivalence with usual care, and -and -indicate strong and moderate effects, respectively, decreasing or reducing the process of care.ACC indicates American College of Cardiology; AHA, American Heart Association; BP, blood pressure; JNC 7, Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure; Meas., measurement; Med., medication; N/A, not applicable; and SPRINT, Systolic Blood Pressure Intervention Trial.

Zhang et al
Management Strategies in SPRINT-Eligible US Adults

Model Calibration
The BP-CVDPM was calibrated in the SPRINTrepresentative cohort to reproduce the SBP achieved, number of antihypertensive medications used, and CVD events observed over the median follow up in SPRINT (Data S4, Table S4, and Figure S3).Additional calibration was not needed to reproduce the rates of CVD-related death and SAEs considered possibly or definitely related to treatment.To ensure that the model reproduced SBP reductions with TBC versus usual care at 1 year, the model projections were compared with a published metaanalysis (Table S5). 10 To balance computational efficiency with capturing uncertainty in model input sampling, the model calibration was tested by running 200 probabilistic iterations in which model parameters were randomly sampled from prespecified statistical distributions.The mean of the rates and 95% uncertainty intervals (UIs; 2.5th to 97.5th percentile of means) from the 200 iterations were calculated, as well as the proportion of iterations that resulted in a rate within the 95%CI reported in SPRINT.

Statistical Analysis
The  4 The means and 95% UI are reported for all outcomes of the main analyses from running 200 probabilistic model iterations, the same as the approach used for calibration testing.

Sensitivity and Scenario Analyses
One-way sensitivity analyses varied hypertension care process parameters and duration of the SPRINT and TBC interventions across a range of plausible values while holding all other model parameters constant in the population weighted to resemble SPRINT participants.In the primary analyses, it was assumed that SBP lowering was not associated with a reduction in non-CVD death.However, a reduction in all-cause death with intensive versus standard SBP goals not fully explained by the reduction in CVD-related deaths was observed in SPRINT. 1 Therefore, a scenario analysis was performed in which a reduction in risk of non-CVD death per 10 mm Hg SBP lowering was included and the model calibrated to replicate the all-cause death results observed in SPRINT.An additional scenario analysis assumed usual care hypertension processes throughout the entire time horizon but targeted the BP goals for SPRINT intensive.1).

Impact of Hypertension
Compared with JNC 7 usual care, the number of SAEs per 1000 individuals was estimated to increase by 35 (95% UI, 24-45) with SPRINT intensive, 13 (95% UI, 10-16) with ACC/AHA usual care, and 6 (95% UI, 0-12) with TBC.SPRINT intensive and TBC were estimated to have a comparable incidence of SAEs for the first 2 years, but fewer treatment intensifications with TBC over the remaining time horizon due to a greater proportion reaching the BP target resulted in fewer SAEs with TBC (Figure S4).Compared with JNC 7 usual care, 12 (95% UI, 10-14) CVD-related deaths per 1000 individuals were projected to be prevented with SPRINT intensive, 4 (95% UI, 3-6) with ACC/AHA usual care, and 10 (95% UI, 8-12) with TBC.SPRINT intensive was projected to have the most physician visits over 10 years and TBC the fewest (Table S6).

Sensitivity and Scenario Analyses
The effects of independently varying each hypertension process parameter and the duration of the SPRINT

Zhang et al
Management Strategies in SPRINT-Eligible US Adults and TBC intervention on mean SBP achieved and CVD events, CVD-related deaths, and SAEs per 1000 individuals over 10 years in the SPRINT-representative cohort are shown in Figure S5.When a relative risk per 10-mm Hg SBP lowering on non-CVD death was included, the deaths from any cause prevented per year was estimated to increase to 118 600 with SPRINT intensive and 87 300 with TBC compared with JNC 7 usual care in SPRINT-eligible US adults, and healthy life years were estimated to increase by 2.1 and 1.4 years, respectively (Table S7).The results when simulating hypertension management with usual care throughout the entire time horizon when treating to the SPRINT intensive BP goals are shown in Table S8.

Summary of Findings
As BP control has declined in the United States in recent years, health systems must prioritize hypertension management and invest in effective strategies.In this analysis, we used a validated computer simulation model to project and compare the effectiveness of different hypertension management strategies, including JNC 7 usual care, SPRINT intensive, ACC/AHA usual care, and TBC, over 10 years and expected remaining lifetime in US adults who would meet the SPRINT eligibility criteria.Though intensive treatment according to the SPRINT protocol targeting an intensive SBP goal was estimated to be the most effective in reducing SBP, preventing CVD events, and increasing survival and healthy life years, it was also projected to result in the greatest number of SAEs.Treatment with 1 year of TBC targeting the 2017 ACC/AHA BP goal was estimated to be the second most effective strategy in reducing SBP, preventing CVD events, and increasing survival and healthy life years while resulting in a substantially lower number of SAEs compared with SPRINT intensive.The intensive SPRINT protocol and SBP goal of <120 mm Hg has not been readily adopted in the United States, due in large part to clinical inertia surrounding the ability to replicate BP measurement in clinical practice and concerns about SAEs.A The table shows the projected number of events per 1000 individuals over 10 years with each hypertension management strategy in a population weighted to resemble SPRINT participants.The results are presented as the mean and 95% uncertainty interval calculated by running 200 probabilistic iterations in which the model was run repeatedly when randomly sampling input parameters from prespecified statistical distributions.ACC indicates American College of Cardiology; AHA, American Heart Association; CVD, cardiovascular disease; JNC 7, Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure; SPRINT, Systolic Blood Pressure Intervention Trial; and SAE, serious adverse event.The table shows the projected number of events per year with each hypertension management strategy in the 18.1 million US adults who would meet the SPRINT eligibility criteria.The results are presented as the mean and 95% uncertainty interval calculated by running 200 probabilistic iterations in which the model was run repeatedly when randomly sampling input parameters from prespecified statistical distributions.ACC indicates American College of Cardiology; AHA, American Heart Association; CVD, cardiovascular disease; JNC 7, Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure; SPRINT, Systolic Blood Pressure Intervention Trial; and SAE, serious adverse event.
pragmatic approach may be to consider adding TBC to usual care with a less intensive BP goal, such as the 2017 Hypertension Clinical Practice Guidelines recommended <130/80 mm Hg, which could substantially reduce morbidity and death in a SPRINT-eligible population at high risk of CVD.

Comparison With Previous Literature
Prior publications have estimated the number of CVD events and deaths that could be prevented each year if SPRINT-eligible US adults were to receive SPRINT intensive treatment. 4,5Our analysis adds to these by examining longer time horizons of 10 years and remaining lifetime (versus ≤5 years), considering total CVD events (versus first CVD event during SPRINT follow-up), and examining a return to the usual care process of hypertension management while continuing to target the BP goals from SPRINT (versus treatment according to SPRINT protocol).Additionally, the BP-CVDPM allowed us to project and compare treatment according to the SPRINT protocol with other hypertension management strategies and BP goals, including modifications to the SPRINT protocol; to our knowledge, this is the first study to address this gap.The survival estimate with SPRINT intensive in our analysis (ie, 21.2 years) is similar to previously published estimates derived from simulation models, cohort data, and actuarial methods (ranging from 19.0 to 24.5 years) but is longer than another from a simulation model (14.3 years). 2,3,43,44plications for Clinical Practice Similar to other publications, the current study projected that SPRINT intensive was likely to be the most effective strategy for reducing CVD morbidity and death in SPRINT-eligible adults.However, in some populations, for example, older adults with multimorbidity or frailty, the risk of SAEs may be an important treatment consideration.6][47][48] Additionally, though most individuals in SPRINT were treated at baseline, observational data show a significant increase in the absolute risk of SAEs with antihypertensive treatment initiation in older adults and those with moderate to severe frailty. 49In this context, our analysis provides a framework to consider approaches that weigh the CVD benefits of an intensive SBP goal with concerns about SAEs.Only about 56% of individuals in the SPRINT intensive arm were projected to achieve the intensive BP goal of <120/90 mm Hg at 10 years; this resulted in new medication intensifications and higher rates of SAEs over time.Conversely, individuals in the TBC arm were projected to rapidly achieve similar SBP lowering but with about 88% achieving the BP goal of <130/80 mm Hg at 10 years; this resulted in fewer subsequent medication changes and, long term, fewer SAEs.However, estimating an individual patient's risk of experiencing an SAE remains difficult.Shared decision making can help patients and providers determine BP goals (eg, consider other guideline recommendations such as JNC 8) and weigh the risks of SAEs with the potential benefits of initiating or intensifying antihypertensive medication regimens.Clinicians and health systems designing hypertension programs should consider both the short-and long-term potential risk for SAEs with intensive SBP goals, particularly as the population ages and individuals develop multimorbidity and frailty.One year of TBC added to usual care targeting the 2017 ACC/AHA BP goal may be a pragmatic approach that balances SBP lowering and reduction in CVD risk with frequent monitoring and patient engagement and a long-term reduction in SAEs.Further research comparing TBC targeting the ACC/ AHA BP goal with current usual care, eg, pragmatic clinical trial, may be helpful to shift clinical practice and reimbursement incentives and speed adoption.

Strengths and Limitations
Our analysis is strengthened by using the BP-CVDPM, which provides a flexible approach to simulating the processes of hypertension care and how changes to management might affect outcomes.This allows comparisons of hypertension management strategies for which there are no short-or long-term head-tohead trial comparisons.However, the long-term projections are based on assumptions about the model inputs and patient and provider behaviors in clinical practice.Pragmatic clinical trials may be needed to confirm the effectiveness of TBC in SPRINT-eligible patients projected in our analysis.The model used a traditional start low and go slow antihypertensive medication regimen that started with lower doses that were titrated upward before adding subsequent medications.Antihypertensive medication regimens vary across health care systems (eg, adoption of treatment algorithms with early use of fixed-dose combination regimens) and from provider to provider, which also likely differ from the SPRINT treatment formulary.Similarly, the model does not consider class or regimen specific effects, such as risks of hypokalemia or hypomagnesemia with thiazide diuretics versus risks of hyperkalemia with angiotensin-converting enzyme inhibitors and angiotensin II receptor blockers medications or angioedema with angiotensin-converting enzyme inhibitors.Instead, the model used the average BP-lowering effects and risks of treatment-related adverse events derived from large meta-analyses.The model also assumed that treatment-related SAEs resulted in a hospitalization and therefore may not capture SAEs and fatal SAEs that occur out of the hospital.6][17] Though the number of individuals from our simulated population of NHANES participants meeting SPRINT eligibility criteria was comparable to other studies, a larger sample size may have provided more precise estimates.However, the sample was limited by the ability to match to SPRINT eligibility criteria.

CONCLUSIONS
As BP control has declined in the United States in recent years, health systems must prioritize hypertension management and invest in effective strategies.
Compared with usual care hypertension management targeting the JNC 7 BP goals, the SPRINT intensive protocol and BP goal (<120/90 mm Hg) and TBC added to usual care targeting the 2017 ACC/AHA BP goal (<130/80 mm Hg) are projected to reduce SBP, CVD events, and CVD-related deaths and increase healthy life years in US adults meeting the SPRINT eligibility criteria.However, TBC added to usual care is projected to substantially reduce the long-term number of SAEs compared with the intensive SPRINT treatment protocol.Health care policy makers may consider adoption of TBC with nonphysician providers who can titrate antihypertensive medications and provide patients with frequent monitoring and engagement as a pragmatic approach to reduce the burden of CVD in this high-risk population.

Sources of Funding
This analysis was funded by R01HL130500 (Dr Moran) and K01HL140170 (Dr Bellows) from the National Heart, Lung, and Blood Institute (NHLBI; Bethesda, MD).Dr Cohen was supported by R01HL157108 and R01HL153646 from the NHLBI (Bethesda, MD) and R01AG074989 from the National Institute on Aging (Bethesda, MD).Dr Bress was supported by R01AG074989, R01AG0658505, and K24AG080168 from the National Institute on Aging (Bethesda, MD).Dr Zhang was supported by R01HL158790 from the NHLBI (Bethesda, MD).Dr Kronish was supported by R01HL152699 from the NHLBI (Bethesda, MD), and Dr King was supported by R01HL157439 from the NHLBI (Bethesda, MD).Dr Sheppard was supported by funding from the Wellcome Trust/Royal Society via a Sir Henry Dale Fellowship (ref: 211182/Z/18/Z).This research was funded in part by the Wellcome Trust (211 182/Z/18/Z).For the purpose of open access, the author has applied a CC BY public copyright license to any author accepted manuscript version arising from this submission.The funders had no role in the design and conduct of the study; collection, management, analysis, and interpretation of the data; preparation, review, approval of the manuscript; or decision to submit for publication.

Figure 2 .
Figure 2. Projected mean systolic blood pressured achieved.The figure shows the projected mean SBP achieved each year over 10 years with each hypertension management strategy in a population weighted to resemble SPRINT.The results are presented as the mean and 95% uncertainty interval (gray shaded regions) calculated by running 200 probabilistic iterations in which the model was run repeatedly when randomly sampling input parameters from prespecified statistical distributions.ACC indicates American College of Cardiology; AHA, American Heart Association; JNC 7, Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure; SBP, systolic blood pressure; SPRINT, Systolic Blood Pressure Intervention Trial; and TBC, team-based care.

Figure 3 .
Figure 3.Estimated survival and healthy life years in US adults meeting SPRINT eligibility criteria.The figure shows the mean survival from baseline with each hypertension management strategy in a population weighted to all 18.1 million SPRINT-eligible US adults.The results are presented as the mean and 95% uncertainty interval (error bar) calculated by running 200 probabilistic iterations in which the model was run repeatedly when randomly sampling input parameters from prespecified statistical distributions.The solid region indicates the healthy life years, which adjusted survival for acute CVD events, chronic CVD, intolerable adverse events, SAEs, hypertension, dyslipidemia, obesity, diabetes, end-stage renal disease, and other comorbidities with aging.ACC indicates American College of Cardiology; AHA, American Heart Association; CVD, cardiovascular disease; JNC 7, Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure; SAE, serious adverse event; and SPRINT, Systolic Blood Pressure Intervention Trial.

Table 1 .
Projected Events per 1000 Individuals in SPRINT-Representative US Adults at 10 Years