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UNRESTRICTED MEDICAID ACCESS TO NOVEL HEPATITIS C THERAPIES MAY REDUCE OVERALL COSTS, IMPROVE OUTCOMES
 
 
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Full Access Saves as Much as $11,960 per Patient vs Current Restricted Access
 
"This cost-effectiveness analysis revealed that for current Medicaid beneficiaries, unrestricted access to hepatitis C treatment is cost saving compared with the current policy restricting treatment to only patients with advanced liver disease. The increased short-term costs of unrestricted access to care can be offset by savings from reduced complications in 9 to 16 years, depending on the treatment strategy and the age of the cohort. Furthermore, increased access to treatment could avert numerous future cases of hepatocellular carcinoma, reduce the need for liver transplantation, and prevent early mortality."
 
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UNRESTRICTED MEDICAID ACCESS TO NOVEL HEPATITIS C THERAPIES MAY REDUCE OVERALL COSTS, IMPROVE OUTCOMES
 
http://press.ispor.org/index.php/unrestricted-medicaid-access-to-novel-hepatitis-c-therapies-may-reduce-overall-costs-improve-outcomes/
 
Posted on June 27, 2016
 
Full Access Saves as Much as $11,960 per Patient vs Current Restricted Access
 
Princeton, NJ-June 27, 2016-The International Society for Pharmacoeconomics and Outcomes Research (ISPOR) announced today the publication of an empirical study demonstrating that current Medicaid policies restricting hepatitis C treatment to patients with advanced disease are more costly and less effective than unrestricted, full-access strategies. The results of this novel research, "Economic and Public Health Impacts of Policies Restricting Access to Hepatitis C Treatment for Medicaid Patients," were published in the June 2016 issue of Value in Health.
 
The authors used a Markov model to compare two strategies for 45-55 year old Medicaid beneficiaries: (1) Current Practice-only advanced disease is treated before Medicare eligibility; and (2) Full Access-both early-stage and advanced disease are treated before Medicare eligibility. Full Access was less costly and more effective than Current Practice for all cohorts and perspectives, with differences in cost ranging from $5,369 to $11,960 and in effectiveness from 0.82 to 3.01 quality-adjusted life-years. Compared with Current Practice, Full Access averted 5,994 hepatocellular carcinoma cases and 121 liver transplants per 100,000 patients.
 
"Two recently approved interferon-free drug regimens for patients with hepatitis C genotype 1 disease-sofosbuvir/ledipasvir (or ombitasvir, paritaprevir) and ritonavir with dasabuvir-are more than 94% effective in as few as 8 weeks for many patient subgroups, but most state Medicaid programs restrict their use due to cost," said corresponding author Alexis P. Chidi, PhD, MSPH, of the University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania. "And while such restrictive treatment policies are likely to reduce short-term costs to state Medicaid programs," she added, "our cost-effectiveness analysis revealed that for current Medicaid beneficiaries, the increased short-term costs of unrestricted access to care can be offset by savings from reduced complications in 9-16 years, depending on the treatment strategy and age of the cohort."
 
The authors noted several study limitations. First, analytic methods that directly account for resource constraints may provide more precise estimates. Second, the study estimated treatment efficacy using clinical trial data, which may overestimate real-word effectiveness. Third, some Medicaid managed care plans may receive smaller drug discounts than those mandated by the Medicaid drug rebate program. Finally, the model used in the study only included liver-related costs and did not account for the potential increases in cumulative health care costs associated with reduced early mortality.
 
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Economic and Public Health Impacts of Policies Restricting Access to Hepatitis C Treatment for Medicaid Patients
 
Alexis P.Chidi,PhD,MSPH1,2,*, CindyL.Bryce,PhD3, JulieM.Donohue,PhD3, MichaelJ.Fine,MD,MSc1,2, Douglas P.Landsittel,PhD1, LarissaMyaskovsky,PhD1,2, ShariS.Rogal,MD,MPH1,2, Galen E.Switzer,PhD1,2, AllanTsung,MD1,2, KennethJ.Smith,MD,MS1  1University ofPittsburghSchoolofMedicine,Pittsburgh,PA,USA; 2VA PittsburghHealthcareSystemPittsburgh,PA,USA; 3University ofPittsburghGraduateSchoolofPublicHealth,Pittsburgh,PA,USA 
 
Abstract
 
Background

 
Interferon-free hepatitis C treatment regimens are effective but very costly. The cost-effectiveness, budget, and public health impacts of current Medicaid treatment policies restricting treatment to patients with advanced disease remain unknown.
 
Objectives
 
To evaluate the cost-effectiveness of current Medicaid policies restricting hepatitis C treatment to patients with advanced disease compared with a strategy providing unrestricted access to hepatitis C treatment, assess the budget and public health impact of each strategy, and estimate the feasibility and long-term effects of increased access to treatment for patients with hepatitis C.
 
Methods
 
Using a Markov model, we compared two strategies for 45- to 55-year-old Medicaid beneficiaries: 1) Current Practice-only advanced disease is treated before Medicare eligibility and 2) Full Access-both early-stage and advanced disease are treated before Medicare eligibility. Patients could develop progressive fibrosis, cirrhosis, or hepatocellular carcinoma, undergo transplantation, or die each year. Morbidity was reduced after successful treatment. We calculated the incremental cost-effectiveness ratio and compared the costs and public health effects of each strategy from the perspective of Medicare alone as well as the Centers for Medicare & Medicaid Services perspective. We varied model inputs in one-way and probabilistic sensitivity analyses.
 
Results
 
Full Access was less costly and more effective than Current Practice for all cohorts and perspectives, with differences in cost ranging from $5,369 to $11,960 and in effectiveness from 0.82 to 3.01 quality-adjusted life-years. In a probabilistic sensitivity analysis, Full Access was cost saving in 93% of model iterations. Compared with Current Practice, Full Access averted 5,994 hepatocellular carcinoma cases and 121 liver transplants per 100,000 patients.
 
Conclusions
 
Current Medicaid policies restricting hepatitis C treatment to patients with advanced disease are more costly and less effective than unrestricted, full-access strategies. Collaboration between state and federal payers may be needed to realize the full public health impact of recent innovations in hepatitis C treatment.
 
Introduction
 
Hepatitis C affects more than 3.2 million patients in the United States and is a common cause of chronic liver disease worldwide [[1], [2]]. Most infected patients develop chronic disease that can remain asymptomatic for decades. However, left untreated, chronic hepatitis C causes progressive hepatic fibrosis, which can result in severe complications. After developing cirrhosis, patients are at risk for hepatocellular carcinoma, may require liver transplantation, and have an increased risk of early mortality [[3], [4], [5]]. Successful treatment can reduce morbidity and improve patients' quality of life [[5], [6], [7]]. In fact, if recent advances in drug regimens are widely implemented, hepatitis C could become a rare disease as early as 2036 [8].
 
New hepatitis C treatments are highly effective and have few adverse effects, but high costs could limit access to these medications. The preceding generation of interferon-based treatment regimens were poorly tolerated by patients, and required lengthy treatment durations, so many patients have remained untreated [9]. Recently approved interferon-free drug regimens for patients with genotype 1 disease are more than 94% effective in as few as 8 weeks for many patient subgroups, but can cost up to $190,000 per patient [[10], [11], [12]]. Despite their high cost, interferon-free regimens have been demonstrated to be cost-effective at thresholds of $50,000 to $100,000 per quality-adjusted life-year (QALY) [[13], [14], [15]].
 
Resource-constrained government health insurance programs, including Medicaid and Medicare, cover a substantial proportion of US patients with hepatitis C and are heavily impacted by the high prices of these drugs. Most state Medicaid programs restrict treatment of hepatitis C to patients with advanced liver disease because of medication costs [16]. Because hepatitis C is most prevalent in patients aged 45 years and older, many Medicaid patients with early-stage disease may not develop advanced disease or complications until after becoming eligible for Medicare [[17], [18]].
 
Restrictive hepatitis C treatment policies are likely to reduce short-term costs to state Medicaid programs. However, it is unclear how these policies might shift the financial burden of hepatitis C management to the Medicare program or impact overall costs to the Centers for Medicare & Medicaid Services (CMS). In addition, the public health impact of delaying treatment for early-stage patients until after disease progression remains unknown. Thus, this study evaluated the cost-effectiveness of current Medicaid policies restricting hepatitis C treatment to patients with advanced disease compared with a strategy providing unrestricted access to hepatitis C treatment. We also assessed the budget and public health impact of each strategy and estimated the feasibility and long-term effects of increased access to treatment for patients with hepatitis C.
 
Conclusions
 
This cost-effectiveness analysis revealed that for current Medicaid beneficiaries, unrestricted access to hepatitis C treatment is cost saving compared with the current policy restricting treatment to only patients with advanced liver disease. The increased short-term costs of unrestricted access to care can be offset by savings from reduced complications in 9 to 16 years, depending on the treatment strategy and the age of the cohort. Furthermore, increased access to treatment could avert numerous future cases of hepatocellular carcinoma, reduce the need for liver transplantation, and prevent early mortality.
 
We demonstrated that the Full-Access strategy led to long-term cost savings compared with the more restrictive Current Practice strategy. In fact, under ideal circumstances, the total savings could exceed $3.5 billion for the 450,000 Medicaid beneficiaries with hepatitis C. This is because under both strategies, all patients will ultimately be treated unless they decompensate or die before becoming eligible. An open- access strategy would lead to treatment earlier in the natural history of the disease, substantially reducing follow-up costs for patients with early-stage disease. This interpretation is supported by the results of our sensitivity analysis, which demonstrated that the Full-Access strategy is cost saving only if annual follow-up costs for early-stage patients exceed $600, meaning that it is economically advantageous to avert these costs. In addition, open access to treatment would reduce the number of early-stage patients who progress to advanced fibrosis or cirrhosis before being treated. This is important because even after successful treatment, patients with advanced disease still have high follow-up costs and a small risk of developing costly complications, while successfully treated early-stage patients have similar outcomes to their uninfected age-matched peers. Although the overall budget impact is considerable, we demonstrate that the cost to Medicaid of managing hepatitis C with interferon-free regimens is less than $5000 per capita annually regardless of treatment strategy. This is significantly less than the costs to Medicaid of managing many other major diseases, from respiratory illnesses ($8,100 per capita annually) to diabetes ($13,500 per capita annually) [[54], [55]].
 
Our results were robust to variations in most model inputs. In sensitivity analyses, the Full-Access strategy was no longer cost saving for very high discount rates (≥5%) or very low follow-up costs for early-stage patients (<$600), both of which are unlikely.
 
Cost-effectiveness guidelines suggest that a 3% discount rate is likely to be appropriate as the Office of Management and Budget recently suggested that a 3.4% nominal 30-year interest rate should be used for cost-effectiveness analyses [[56], [57]]. Similarly, most studies suggest that costs of follow-up for early-stage patients with hepatitis C are much higher than $600. Recently, the rate of hospitalizations for patients with early-stage and advanced hepatitis C has increased, which suggests that the costs of managing these patients are likely to be increasing as well [58].
 
Because the assumptions made were generally biased against the Full-Access strategy, our estimates are likely to be conservative. The Full-Access strategy was cost saving even if there was no associated increase in treatment capacity. In reality, doubling the pool of eligible patients is likely to increase the absolute number of patients seeking treatment, bounded only by physician availability, patients' knowledge of their disease status, and medical eligibility for treatment. Finally, we assumed that drug prices would be similar for Medicare and Medicaid. However, many state Medicaid programs are negotiating dramatic price discounts for hepatitis C treatment regimens, which could reduce the total cost of the Full-Access strategy [59]. Meanwhile, because the Medicare program cannot negotiate drug prices, the costs of waiting to treat patients after Medicare eligibility are likely to be higher than our estimates, which were based on Medicaid prices.
 
Our results are consistent with those of recent studies evaluating the impact of novel interferon-free treatment regimens, demonstrating that novel interferon-free drug regimens are cost-effective for many patient subgroups [[13], [15]]. One study in particular demonstrated that the SOF/LDV regimen could be cost saving compared with the previous standard of care if treatment was substantially discounted, but did not evaluate the effects of restrictive versus inclusive treatment strategies [15]. In addition, the results of our public health impact analysis are consistent with findings from Kabiri et al. [8], who also demonstrated that increased access to hepatitis C treatment could result in substantial long-term reductions in morbidity and mortality. This study addresses the dilemma of determining which patients with hepatitis C should be treated first, which has been highlighted in numerous recent editorials [[16], [60], [61]]. Here, we offer empiric evidence to inform this debate and demonstrate that, from a government payer perspective, allowing access to treatment for early-stage patients may be the less costly and more effective long-term strategy.
 
Our analysis is interesting in light of current events in public health. For example, the US Preventive Services Task Force recently recommended birth cohort screening for hepatitis C for adults born between 1945 and 1965 [62]. The analysis demonstrating that screening is cost-effective assumed that patients would be treated after disease was identified, albeit with older drug regimens [63]. It will become important to consider the ethical and economic implications if positive birth cohort screens are not paired with treatment initiation. In addition, although the prevalence is highest among patients aged 45 years and older, the incidence of hepatitis C has recently been rising at an alarming rate among younger injection drug users [64]. Although our analysis focused on older cohorts, we demonstrate that Full Access is increasingly cost saving for younger patients, who would live with the disease for a longer period of time. Treating these patients while they have early-stage disease would reduce the high costs of disease management and potential complications that are likely to occur if treatment is deferred until disease progression. Treating younger patients may also curb the spread of the disease and reduce the duration of the epidemic.
 
This study has some limitations that must be acknowledged. First, analytic methods that directly account for resource constraints may provide more precise estimates. However, because our assumptions biased the model against the Full-Access strategy, the conclusions are likely to be similar. Second, we estimated treatment efficacy using clinical trial data, which may overestimate real-word effectiveness. Third, some Medicaid managed care plans may receive smaller drug discounts than those mandated by the Medicaid drug rebate program. To account for this, we varied drug prices widely in sensitivity analysis. Finally, our model only included liver-related costs and did not account for potential increases in cumulative health care costs associated with reduced early mortality. This is beyond the scope of this analysis but is an interesting topic for future study.
 
In conclusion, using cost-effectiveness analyses, we found that current Medicaid policies restricting hepatitis C treatment to patients with advanced disease are more costly and less effective than strategies with unrestricted access to treatment for patients with early-stage and advanced disease. Although our results provide empiric support for providing open access to treatment for hepatitis C, additional factors, including the size of the physician workforce and budgetary limitations, must also be considered. This study also highlights that in a multipayer health care system, efforts to minimize costs for individual payers can result in cost shifting and economic efficiency for the system as a whole. In light of this, collaborative efforts between state and federal payers may be needed to realize the full public health impact of recent advances in hepatitis C therapy.
 
Methods
 
Model Structure and Perspective

 
Using a Markov state-transition model, we conducted cost-effectiveness, budget, and public health impact analyses from the perspectives of 1) the Medicare program alone, which included costs and effects accrued after patients became eligible for Medicare benefits, and 2) CMS, which incorporated costs and effects accrued during the entire study period. We considered lifetime costs and outcomes, used 3% annual discounting (varied in sensitivity analysis), and adjusted all prices to 2015 US dollars using the Consumer Price Index.
 
Model Cohort
 
We modeled hypothetical cohorts of 45-, 50-, and 55-year-old treatment-naive and treatment-experienced Medicaid patients diagnosed with genotype 1 hepatitis C. Our selected age groups comprise approximately 95% of the Medicaid hepatitis C population [19]. Our cohorts excluded patients with any history of decompensated cirrhosis, liver transplantation, or HIV coinfection. Chronic hepatitis C disease severity is measured using the Meta-analysis of Histologic Data in Viral Hepatitis (METAVIR) score, which describes five stages of liver fibrosis: F0, no hepatic fibrosis; F1, portal fibrosis without septa; F2, portal fibrosis with few septa; F3, many septa without cirrhosis; and F4, cirrhosis [20]. We estimated the baseline distribution of METAVIR scores using model-based predictions of the hepatitis C virus (HCV)-infected population in 2014 (Table 1) [[8], [13]].
 
Natural History Model
 
We created a Markov model to simulate the natural history and epidemiology of hepatitis C infection (Fig. 1). Patients accrued liver-related treatment and follow-up costs as well as QALYs for their Markov state at the end of each 1-year cycle. Patients could make one state transition each year. Mortality was possible during each model stage; we estimated age-specific, annual all-cause mortality rates using US life tables [21]. Disease progression and excess liver-related mortality occurred according to stage-specific transition probabilities and relative risks of mortality established in previous studies (Table 1).
 
We grouped patients into three stages of baseline disease severity: early-stage disease (METAVIR F0-F2), advanced fibrosis (METAVIR F3), and compensated cirrhosis (METAVIR F4). Patients with compensated cirrhosis could later develop complications including decompensated cirrhosis, liver transplantation, and hepatocellular carcinoma. Patients with early-stage disease, advanced fibrosis, or compensated cirrhosis could receive hepatitis C treatment. We assumed that after successful treatment, patients with early-stage disease would return to full health and accrue no further hepatitis C infection–related costs. In contrast, patients with advanced fibrosis or cirrhosis would have markedly reduced risks of disease progression, complications, and mortality, but no reduction in follow-up costs after successful treatment (Table 1).
 
Treatment
 
We assumed that all patients would be treated with one of two currently available interferon-free hepatitis C drug regimens: a single-dose two-drug combination of sofosbuvir/ledipasvir (SOF/LDV) or a multidose three-drug combination of ombitasvir, paritaprevir, and ritonavir with dasabuvir (3D). At the time of analysis, the American Association for the Study of Liver Diseases recommended both these treatments for patients with genotype 1 hepatitis C (see Appendix Table 1 in Supplemental Materials found at doi:10.1016/j.jval.2016.01.010). Because utility data were not available for the 3D regimen at the time of our analysis, we performed our primary analysis using data for SOF/LDV (Table 2) and used estimates for 3D in sensitivity analyses. We estimated the efficacy of each treatment regimen using data from recently published clinical trials [[22], [23], [24], [25], [26], [27], [28], [29], [30]]. In patient subgroups for which several alternative treatment options have demonstrated similar effectiveness, we chose the least costly drug regimen.
 
We determined SOF/LDV treatment disutility using data from a quality-of-life study conducted alongside recent clinical trials [31]. Because utility data for the 3D and 3D with ribavirin regimens were not available, we used treatment disutility data for the SOF/LDV and SOF/LDV with ribavirin regimens, respectively, in our sensitivity analysis (Table 2).
 
Costs and Effectiveness
 
We estimated treatment and follow-up costs for patients with hepatitis C (Table 1). In the base case, we included a 23.1% discount from the national average drug acquisition price for each drug regimen, which is required as part of the Medicaid drug rebate program; we varied drug prices in sensitivity analysis. We used the Medicare physician fee schedule to calculate the costs of on-treatment medical monitoring [32], including a single pretreatment office visit, complete blood cell count, complete metabolic panel, and viral load measurement; monthly office visits, viral load measurements, and metabolic panels during treatment; and a single post-treatment office visit, viral load measurement, and metabolic panel. We assumed that patients using ribavirin-containing regimens were monitored more frequently, with twice-monthly office visits and complete blood cell counts (Table 2).
 
From the Medicare perspective, costs and QALYs began to accrue upon Medicare eligibility at age 65 years (or earlier for the share eligible due to disability). From the CMS perspective, costs and QALYs accrued throughout the study period. Because Medicare Part D can involve substantial cost sharing for seniors not receiving low- income subsidies, we subtracted expected patient out-of-pocket costs estimated using current Part D coverage rules [33], but assumed that the prescription drug coverage gap (i.e., "donut hole") would not be in place by the time the oldest cohort becomes eligible for Medicare benefits.
 
We determined annual follow-up costs for each health state using recent estimates for Medicare and managed care patients [[34], [35], [36], [37]], and used age-specific median utility values for healthy patients [38]. We estimated utility weights for each hepatitis C–related health state on the basis of recent comprehensive reviews of the literature [[34], [39], [40]]. Finally, we varied all parameters over feasible ranges in sensitivity analyses (Table 1).
 
Strategies
 
We compared two strategies for managing hepatitis C infection in Medicaid beneficiaries: 1) Current Practice-only patients with advanced fibrosis or cirrhosis are treated for hepatitis C before becoming eligible for Medicare and treatment for patients with early-stage disease is deferred until disease progression or Medicare eligibility; and 2) Full Access-patients with early-stage disease, advanced fibrosis, and cirrhosis are treated before becoming eligible for Medicare benefits (Fig. 2). Because some Medicare Advantage plans are adopting more restrictive treatment strategies, we assumed in the base case that 50% of patients with early-stage disease would be treated on Medicare eligibility (varied 0%–100% in sensitivity analysis).
 
Assumptions
 
To perform this analysis, we made a number of simplifying assumptions to systematically bias the model against the Full-Access strategy. We assumed that 1) patients who failed treatment with sofosbuvir- or ombitasvir-based regimens would not be re-treated because guidelines for re-treatment had not yet been developed; 2) only patients 75 years or younger would undergo liver transplantation [41]; 3) Medicare and Medicaid programs would have similar follow-up and treatment costs; 4) patients would become eligible for full Medicare benefits at age 65 years; however, to account for Medicare-Medicaid dual eligibility, we estimated that 14% of Medicaid recipients younger than 65 years would receive Medicare disability benefits while 14% of Medicare beneficiaries older than 65 years received Medicaid benefits [[42], [43]]; and 5) the size of the Medicaid hepatitis C population would remain static over time. We accounted for a one-time Medicaid expansion in a sensitivity analysis.
 
Cost-Effectiveness Analyses
 
We completed the analyses separately for cohorts of 45-, 50-, and 55-year-old Medicaid beneficiaries with hepatitis C. In the base case, we calculated the incremental cost-effectiveness ratio (ICER), which reflects the additional investment required to gain an additional QALY. Although a $50,000/QALY threshold has classically been used in cost-effectiveness analyses, ICER thresholds of $100,000/QALY to $150,000/QALY may better reflect contemporary preferences [[44], [45]].
 
We also conducted sensitivity analyses to determine whether variations in model inputs would change the preferred strategy. First, we varied model inputs individually over a range of plausible values in one-way sensitivity analyses (Table 1). Then, we used Monte-Carlo probabilistic sensitivity analyses in which values are randomly sampled from each variable's probability distribution and repeated over 5000 iterations to determine the likelihood that each strategy is cost-effective [46]. We performed all analyses using TreeAge Pro 2015 (TreeAge Software, Williamstown, MA).
 
Structural Sensitivity Analyses
 
Because it is not feasible to treat all Medicaid patients with HCV in a single year, we also conducted structural sensitivity analyses using staged treatment strategies, in which patients would be treated over time. We estimated that 450,000 patients with genotype 1 hepatitis C are currently receiving Medicaid benefits, and up to 600,000 may be enrolled if Medicaid expansion is widely adopted [[17], [19], [47], [48], [49], [50]].
 
We also estimated treatment capacity for each strategy. On the basis of total Medicaid hepatitis C drug expenditures in 2014 and previous reports of treatment capacity, we estimated that approximately 30,000 Medicaid patients with hepatitis C could be treated in a given year [[51], [52]]. Because more patients are likely to be treated each year under the Full-Access strategy, we also modeled an expanded Full-Access strategy with an annual treatment capacity of 40,000 patients. Recent developments suggest that increased treatment capacity is likely to be feasible because new drug regimens are now 24 to 36 weeks shorter in duration than interferon-based regimens, allowing more patients to be treated by the same number of physicians in any given year. In addition, a recent study demonstrated that primary care providers can effectively administer hepatitis C treatment in uncomplicated cases [53]. If this practice were widely adopted in the United States, then a much larger physician workforce would be available to treat early-stage patients with hepatitis C. To derive approximate annual treatment probabilities, we estimated that 13% of early-stage patients die or progress each year, whereas the number of patients with advanced-stage disease is reduced by approximately 1% each year, accounting for entry, progression, and death, based on data from our natural history model (see Appendix Table 2 in Supplemental Materials found at doi:10.1016/j.jval.2016.01.010). In the Current Practice strategy, treatment would be offered to early-stage patients only after all patients with advanced fibrosis or cirrhosis have been treated. In Full-Access strategies, treatment would be equally allocated across fibrosis stages each year.
 
Budget and Public Health Impact Analyses
 
Finally, we compared the budget and public health impact of each treatment strategy. Using a Markov cohort analysis, which describes the costs and utilities associated with each Markov state during each model year, we estimated and compared cost estimates as well as adverse health outcomes for each strategy. We compared the annual and cumulative costs for both treatment strategies in our base-case analysis. Next, we used the model to estimate the annual and cumulative number of cases of adverse health outcomes such as hepatocellular carcinoma, liver transplantation, and mortality, per 100,000 Medicaid recipients.
 
Results
 
Base-Case Analyses

 
In the base case, the Full-Access strategy was cost saving and more effective compared with the Current Practice strategy for all age cohorts from the Medicare perspective (Table 3). For the 50-year-old cohort, which represented the average Medicaid patient with hepatitis C, the Current Practice strategy ($30,610, 5.47 QALYs) cost an additional $9,200 per patient and yielded 0.84 fewer QALYs compared with the Full-Access strategy ($21,410, 6.31 QALYs). Cost savings for the Full-Access strategy increased with cohort age.
 
From the CMS perspective, the Full-Access strategy was also cost saving for each age cohort, but to a lesser degree. Compared with the Full-Access strategy ($90,524, 15.79 QALYs), the Current Practice strategy cost an additional $8,003 per patient and yielded 2.73 fewer QALYs ($98,527, 13.06 QALYS) for the 50-year-old cohort (Table 3). The Full-Access strategy was more cost saving for younger cohorts from the CMS perspective.
 
Sensitivity Analyses
 
In one-way sensitivity analyses from the Medicare perspective, the Full-Access strategy was cost saving for all age cohorts regardless of variations in any individual model input. From the CMS perspective, variations in follow-up costs for patients with early-stage disease and in the discount rate impacted the ICER differently in each age cohort. The Full-Access strategy remained cost saving as long as the cost of follow-up for early-stage patients was more than approximately $200 per year in the 45-year-old cohort, $350 per year in the 50-year-old cohort, and $600 per year in the 55-year-old cohort. In addition, the Full-Access strategy was cost saving for discount rates below 5% to 6%, depending on the age of the cohort. The Full-Access strategy was cost saving over the range of plausible values for all other model inputs.
 
In probabilistic sensitivity analysis, the Full-Access strategy was cost-effective in 100% of iterations from the Medicare perspective at all willingness-to-pay thresholds. From the CMS perspective, the Full-Access strategy was cost-effective in 93% of iterations at the cost-saving threshold of $0/QALY and in 100% of iterations at $4500/QALY. Including the three-drug regimen instead of SOF/LDV did not change the preferred strategy from either perspective. In our structural sensitivity analysis, the staged Full-Access strategy was cost saving compared with the staged Current Practice strategy for all age cohorts, regardless of annual treatment capacity or the size of the Medicaid hepatitis C population (Table 4).
 
Budget and Public Health Impact Analyses
 
Our budget impact analyses revealed that, from the CMS perspective, the Full-Access strategy became cost saving compared with the Current Practice strategy after 13 to 16 years, depending on cohort age. By the end of the study period, the Full-Access strategy saved $10,340 per patient for the 45-year-old cohort, $8,148 for 50-year-olds, and $5,695 for 55-year-old patients. With staged treatment strategies, Full Access became cost saving after 9 years for each age cohort. In the worst-case scenario, with 600,000 hepatitis C patients and 30,000 treated per year, the Full-Access strategy saved $3,197 to $3,568 per patient by the end of the study period, depending on the age of the cohort. For a cohort of 450,000 50-year-old Medicaid patients with hepatitis C, treating 30,000 patients per year using interferon-free regimens would cost Medicaid programs an average of $4,746 per beneficiary annually with the Current Practice strategy and $4,568 per beneficiary annually with the Full-Access strategy. If a total of 600,000 patients required treatment, costs would decrease to $4,640 per beneficiary with Current Practice and $4,428 per beneficiary with Full Access. In comparison, no treatment would cost $2309 per beneficiary.
 
The public health impact analysis demonstrated that for every 100,000 50-year-old Medicaid beneficiaries, the Full-Access strategy could avert approximately 5,994 cases of hepatocellular carcinoma and 121 liver transplants compared with the Current Practice strategy. The number of cases averted varied over time for each age cohort (Fig. 2).
 
 
 
 
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