Reverse Auction: A Potential Strategy for Reduction of Pharmacological Therapy Cost

Brandão, Sara Michelly Gonçalves; Issa, Victor Sarli; Ayub-Ferreira, Silvia Moreira; Storer, Samantha; Gonçalves, Bianca Gigliotti; Santos, Valter Garcia; Carvas Junior, Nelson; Guimarães, Guilherme Veiga; Bocchi, Edimar Alcides

doi:10.5935/abc.20150076

Abstracts

Background:

Polypharmacy is a significant economic burden.

Objective:

We tested whether using reverse auction (RA) as compared with commercial pharmacy (CP) to purchase medicine results in lower pharmaceutical costs for heart failure (HF) and heart transplantation (HT) outpatients.

Methods:

We compared the costs via RA versus CP in 808 HF and 147 HT patients followed from 2009 through 2011, and evaluated the influence of clinical and demographic variables on cost.

Results:

The monthly cost per patient for HF drugs acquired via RA was $10.15 (IQ 3.51-40.22) versus $161.76 (IQ 86.05‑340.15) via CP; for HT, those costs were $393.08 (IQ 124.74-774.76) and $1,207.70 (IQ 604.48-2,499.97), respectively.

Conclusion:

RA may reduce the cost of prescription drugs for HF and HT, potentially making HF treatment more accessible. Clinical characteristics can influence the cost and benefits of RA. RA may be a new health policy strategy to reduce costs of prescribed medications for HF and HT patients, reducing the economic burden of treatment.

Heart Failure; Pharmaceutical Preparations / economics; Competitive Bidding / economics; Budgets; Cost Savings; Heart Transplantation

Fundamento:

A polifarmácia tem um significativo peso econômico.

Objetivo:

Testar se o uso de pregão em comparação ao de farmácias comerciais (FC) para a compra de medicamentos reduz o custo do tratamento de pacientes ambulatoriais de insuficiência cardíaca (IC) e transplante cardíaco (TC).

Métodos:

Comparação dos custos do tratamento através de pregão versus FC em pacientes de IC (808) e TC (147) acompanhados de 2009 a 2011, avaliando-se a influência de variáveis clínicas e demográficas no custo.

Resultados:

Os custos mensais por paciente para medicamentos de IC adquiridos através de pregão e através de FC foram $10,15 (IQ 3,51-40,22) e $161,76 (IQ 86,05-340,15), respectivamente. Para TC, aqueles custos foram $393,08 (IQ 124,74-774,76) e $1.207,70 (IQ 604,48-2.499,97), respectivamente.

Conclusão:

O pregão pode reduzir o custo dos medicamentos prescritos para IC e TC, podendo tornar o tratamento de IC mais acessível. As características clínicas podem influenciar o custo e os benefícios do pregão, que pode ser uma nova estratégia de política de saúde para baixar os custos dos medicamentos prescritos para IC e TC, diminuindo o peso econômico do tratamento. (Arq Bras Cardiol. 2015; [online].ahead print, PP.0-0)

Insuficiência Cardíaca; Preparações Farmacêuticas / economia; Proposta de Concorrência / economia; Orçamentos; Redução de Custos; Transplante de Coração

Introduction

It is estimated that there are 5.1 million patients with heart failure (HF) in the United States of America (USA)¹1 Go AS, Mozaffarian D, Roger VL, Benjamin EJ, Berry JD, Borden WB, et al; American Heart Association Statistics Committee and Stroke Statistics Subcommittee. Heart disease and stroke statistics--2013 update: a report from the American Heart Association. Circulation. 2013;127(1):e6-245. Erratum in: Circulation. 2013;127(23):e841. and 6.4 million patients in Brazil²2 Bocchi EA, Arias A, Verdejo H, Diez M, Gómez E, Castro P; Interamerican Society of Cardiology. The reality of heart failure in Latin America. J Am Coll Cardiol. 2013;62(11):949-58.. Heart failure was the single most frequent cause of hospitalization in the elderly population in Brazil²2 Bocchi EA, Arias A, Verdejo H, Diez M, Gómez E, Castro P; Interamerican Society of Cardiology. The reality of heart failure in Latin America. J Am Coll Cardiol. 2013;62(11):949-58.. Pharmacological therapy-oriented guidelines reduce progression, morbidity, mortality, and hospitalization in HF³3 Bocchi EA, Marcondes-Braga FG, Ayub-Ferreira SM, Rohde LE, Oliveira WA, Almeida DR, et al. Sociedade Brasileira de Cardiologia. III Diretriz Brasileira de Insuficiência Cardíaca crônica. Arq Bras Cardiol. 2009;93(1 supl 1):1-71.^,⁴4 Chase SL, Pickworth KK. Clinical and economic implications of new strategies for heart failure managed care setting. Pharmacotherapy. 2007;27(4 Pt 2):29S-32S.. Public and private spending on pharmaceuticals account for a substantial fraction of the total expenses of health care in developed and developing countries⁵5 World Health Organization (WHO). WHO. Global comparative pharmaceutical expenditures with related reference information: health economics and drugs series. No. 003. [Accessed 2014 Jan 4]. Available from: http://apps.who.int/medicinedocs/documents/s18569en/s18569.
http://apps.who.int/medicinedocs/documen... . Heart failure is a cardiovascular disease with estimated costs of $32.4 billion in the USA in 2015⁶6 Heidenreich PA, Trogdon JG, Khavjou OA, Butler J, Dracup K, Ezekowitz MD, et al; American Heart Association Advocacy Coordinating Committee; Stroke Council; Council on Cardiovascular Radiology and Intervention; Council on Clinical Cardiology; Council on Epidemiology and Prevention; Council on Arteriosclerosis; Thrombosis and Vascular Biology; Council on Cardiopulmonary; Critical Care; Perioperative and Resuscitation; Council on Cardiovascular Nursing; Council on the Kidney in Cardiovascular Disease; Council on Cardiovascular Surgery and Anesthesia, and Interdisciplinary Council on Quality of Care and Outcomes Research. Forecasting the future of cardiovascular disease in the United States: a policy statement from the American Heart Association. Circulation. 2011;123(8):933-44.. Approximately 3% of the total cost of HF was expended on medications costing approximately $1.11 billion in 2009⁷7 Stålhammar J, Stern L, Linder R, Sherman S, Parikh R, Ariely R, et al. Resource utilization and cost of heart failure associated with reduced ejection fraction in Swedish patients. J Med Econ. 2012;15:938-46.. Surprisingly, despite the impact on HF costs, few studies have examined the pharmacological costs in patients with HF and the influence of demographic and clinical characteristics⁸8 Xuan J, Duong PT, Russo PA, Lacey MJ, Wong B. The economic burden of congestive heart failure in a managed care population. Am J Manag Care. 2000;6(6):693-700.

9 Masoudi FA, Baillie CA, Wang Y, Bradford WD, Steiner JF, Havranek EP, et al. The complexity and cost of drug regimens of older patients hospitalized with heart failure in the United States, 1998-2001. Arch Intern Med. 2005;165(18):2069-76.

10 Hussey LC, Hardin S, Blanchette C. Outpatient costs of medications for patients with chronic heart failure. Am J Crit Care. 2002;11(5):474-8.

11 Bocchi EA, Guimarães G, Tarasoutshi F, Spina G, Mangini S, Bacal F. Cardiomyopathy, adult valve disease and heart failure in South America. Heart. 2009;95(3):181-9.^-¹²12 Ayub-Ferreira SM, Mangini S, Issa VS, Cruz FD, Bacal F, Guimarães GV, et al. Mode of death on Chagas heart disease: comparison with other etiologies. a subanalysis of the REMADHE prospective trial. PLoS Negl Trop Dis. 2013;7(4):e2176.. In addition, those few studies do not reflect contemporary practice. No previous study examined the influence of additional procedures, such as heart transplantation (HT).

Health resources are scarce, but the needs are unlimited. Remarkably, strategies for reducing the cost of pharmacological HF treatments have not been tested, despite the impact of drug costs on government budgets and noncompliance with the use of medications. Studies regarding pharmacological treatments and their costs can provide a rationale for government policies to plan financial resources, and are essential tools for pharmacoeconomics in public health. Therefore, the purpose of this study was to compare the costs of the pharmacological treatment of HF and HT via reverse auction (RA) versus estimated costs in commercial pharmacies (CP).

Methods

Study population

We retrospectively obtained the clinical, demographic, and pharmacological treatment data of all patients diagnosed with HF or of HT recipients consecutively managed at the Heart Failure Outpatient Clinic of Heart Institute of the Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo in Brazil. Demographic data collected included ethnicity escribed according to a previous study¹³13 Bocchi EA, Cruz F, Guimarães G, Pinho-Moreira LF, Issa VS, Ayub-Ferreira SM, et al. A Long-term prospective randomized controlled study using repetitive education at six-month intervals and monitoring for adherence in heart failure outpatients: the REMADHE trial. Circ Heart Fail. 2008;1(2):115-24., age, sex, comorbid condition, cause of HF, left ventricular ejection fraction (LVEF), number of ambulatory visits, medications, and most frequent stage of HF during the study period. The LVEF was obtained by use of any method, such as echocardiography, radionuclide ventriculography, cardiac magnetic resonance, or ventriculography via cardiac catheterization. The first LVEF of each patient in the study period was considered. The patients were being cared for by physicians and by a multidisciplinary team specialized in HF and HT from January 2009 through April 2011. Patients older than 16 years and on ambulatory care were included, except for one 9-year-old HT patient. Patients with incomplete clinical or cost information and any prescription drugs received during hospitalization were excluded.

Study design

Data relating to outpatient visits are stored in electronic health records so that any electronic medical prescription is automatically generated through an automated data-entry process. Medications are delivered every month to patients according to the last validated medical prescription. We retrieved information about all the medications each patient received, and the investigators reviewed all the medication information to ensure consistency.

At our institution, which is a public body, drugs are purchased via RA. Reverse auction, is a mechanism through which, once consolidated the demand of the participating entities and established the technical characteristics of the products to be purchased, those with the best price are selected through electronic biddings towards the lowest. This guarantees a fair and transparent competition, and the most inexpensive prices of the market, especially in Latin American countries, such as Brazil. Purchases are financed by an annual budget assigned to each public body by public health funds. In procurement auctions for pharmaceuticals, suppliers bid for a very detailed contract of medicine supply, which specifies the drug, quantity, place and time schedule to delivery¹⁴14 Arvate PR, Barbosa KS, Gambardella D. Generic-branded drug competition and the price for pharmaceuticals in procurement auctions. [Accessed in 2014 Jan 28]. Available from: http://bibliotecadigital.fgv.br/dspace/handle/10438/11322.
http://bibliotecadigital.fgv.br/dspace/h... .

A procurement contract specifies a very detailed drug to be supplied, which is a unique combination of active ingredient, form, concentration, number of units, and packing. Public bodies are forbidden to procure a drug of a specific brand. They are obliged to acquire the drug from the lowest bid's supplier, which, in principle, can be a generic or a branded drug¹⁴14 Arvate PR, Barbosa KS, Gambardella D. Generic-branded drug competition and the price for pharmaceuticals in procurement auctions. [Accessed in 2014 Jan 28]. Available from: http://bibliotecadigital.fgv.br/dspace/handle/10438/11322.
http://bibliotecadigital.fgv.br/dspace/h... .

The medications are delivered gratuitously to patients treated at a public hospital according to the prescription. We compared the pharmacological treatment of HF and HT purchased via RA versus estimated costs in the private market in CP. The price of CP was defined using Brasíndice Pharmaceutical Guide, an official federal index that regulates drug marketing in Brazil (private cost): the Brazilian government sets maximum retail prices practiced by the pharmacies. The cost of each pill was based on the last institutional purchase in 2011 to avoid differences in prices between time periods. Value cost was converted into American dollars according to the market exchange rate of $0.50815 on April 12, 2013, to establish the values in a stable currency. The monthly cost per patient was calculated.

Drugs included were beta-blockers, diuretics, calcium channel blockers (CCB), angiotensin-converting enzyme inhibitors (ACEI), angiotensin receptor blockers (ARB), other cardiovascular drugs (OCD), lipid-lowering drugs, antiplatelet drugs, antiarrhythmic drugs, nitrates, anticoagulants or inhibitors of platelet adenosine diphosphate receptor (ACG-IPADPR), digitalis, immunosuppressants and other noncardiovascular drugs (ONCD). Drugs typically used for short course treatments (antibiotics) or on an as-needed basis (analgesics or sublingual nitroglycerin) were also included.

We further analyzed costs according to clinical and demographic variables. The study protocol was approved by the Ethics Committee of the Instituto do Coração de São Paulo (registration number 22831813.2.0000.00680), which waived the need for patient consent because no identifying participant information was obtained.

Statistical analysis

Measurement data are reported as mean ± standard deviation (SD) for variables normally distributed, and as medians within the interquartile range (IQ) for variables not normally distributed or as frequencies with percentages for all categorical variables. Univariate analysis was done with the chi-square or Fisher exact test to compare categorical variables. Normally distributed continuous variables were compared using the Student t test, and, for those non normally distributed, the Kruskal-Wallis test was used to assess differences between variables. Significant results demonstrated by the Kruskal-Wallis test were further analyzed for significance with the least significant difference (LSD) multiple-comparison post hoc test. To determine the correlation between continuous variables, we applied the correlation test according to normality distribution (r). The LVEF was analyzed in cohorts stratified into ≤ 40% and > 40%.

The monthly cost per patient was log transformed. Multivariate analysis was performed with Generalized Estimating Equations (GEE), and the results expressed as nonstandardized coefficients (β). Generalized Estimating Equations were applied using the continuous variables (age, LVEF, and ambulatory appointments), and the categorical variable 'cause of HF' as fixed effects. Comorbidities, functional class, ethnicity and sex were used as random effects. The advantage of this approach is that it used all available data and adjusted results based on correlations between outcomes and predictor variables. We used the criterion Wald chi-square test for choosing the best structure to be adopted in the model concerned. The quasi likelihood ratio test was also used to compare adjusted models.

Statistical analysis was performed with SPSS 17.0. p-values < 0.05 were considered significant, and p-values < 0.10, as a trend.

Results

Baseline characteristics (Table 1)

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Table 1
Baseline characteristics of the study population

In the HF group, the mean time of study follow-up was 16.7 ± 8.8 months, with a median number of eight ambulatory appointments for each patient, whereas, in the HT group, the study follow-up was 23.1 ± 5.8 months, and the median number of ambulatory appointments for each patient was 16. A total of 8,448 medical prescriptions were analyzed in HF patients, and 3,217 medical prescriptions in HT recipients. Complete cost data could not be retrieved in 82 (10.1%) patients with HF and in 1 (0.7%) HT recipient, and these patients were excluded. Ambulatory appointments were more frequent among HF patients in functional class III and IV as compared with those in class I and II. In patients with functional class III and IV, 26.8% of the cause was chagasic, 34.1% ischemic, and 39% other causes, compared with 12.9%, 29.6%, and 57.5%, respectively, in patients with functional class I and II (p = 0.003).

Drugs prescribed for HF

The most frequently prescribed drugs in descending order were beta-blockers, diuretics, ONCD, lipid-lowering drugs, ACEI-ARBs (Table 1). Prescribed drugs differed between patients with LVEF ≤40% and those with LVEF > 40%. Beta-blockers, diuretics, antiplatelet drugs, antiarrhythmic drugs and nitrates were more frequently prescribed for HF patients with LVEF ≤ 40%, whereas CCB prescriptions were more frequent for patients with LVEF > 40% (Table 2). Beta-blockers (75.9%, p = 0.009), diuretics (75.9%, p = 0.009), ACEI-ARB (76.6%, p = 0.034), nitrate (61.9%, p = 0.001) and OCD (68.8%, p = 0.036) were more frequently prescribed in functional classes I and II. Patients of white and yellow ethnicity received more OCD (74.1%, p = 0.015) and antiplatelet drugs (82.2%, p = 0.018). Calcium channel blockers (60.3%, p < 0.001) and lipid-lowering drugs (47%, p < 0.001) were more frequently prescribed for other causes, while antiplatelet drugs (53.3%, p < 0.001) and nitrates (43%, p < 0.001) were more frequently prescribed for ischemic patients, and antiarrhythmic drugs (41%, p < 0.001) for chagasic patients. ACEI-ARB (33.3%, p = 0.001), OCD (42.1%, p = 0.013), antiplatelet drugs (31.4%, p = 0.003) and ONCD (40.2%, p = 0.001) were less frequently prescribed for female patients.

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Table 2
Profile of prescribed drugs according to left ventricular ejection fraction

In the HF group, men consumed lower doses of atenolol, captopril, losartan, spironolactone, and isosorbide, and higher doses of carvedilol and hydralazine, but equal doses of enalapril, although the difference was not statistically significant among daily prescribed medication doses between sexes. In respect to functional class, the median doses of enalapril in functional class III and IV and also I and II were 30.28 mg/daily (IQ 14.12-35.79) and 33.85 mg/daily (IQ 22.00-38.67), respectively (p = 0.014). The median doses of captopril were 39.58 mg/daily (IQ 13.54-107.29) and 77.52 mg/daily (IQ 43.23-146.42), respectively (p = 0.059). Regarding ethnicity, African-Brazilians (black and mulatto) used more enalapril (35.42 mg/daily, IQ 23.61-39.27) than white and yellow Brazilians (32.93 mg/daily, IQ 18.33-37.78) (p = 0.039). Concerning age, 41 to 65 year-old patients with HF more frequently received enalapril (34.29 mg/daily, IQ 20.21-38.65, p = 0.019) and spironolactone (25.93 mg/daily, IQ 24.24-30.56, p = 0.049), a trend toward higher doses of carvedilol (48.08 mg/daily, IQ 35.04-62.50, p = 0.076) and captopril (93.05 mg/daily, IQ 66.67-145.4, p = 0.087) being observed. Regarding cause, lower doses of carvedilol (42.11 mg/daily, IQ 25.00-50.00, p < 0.001) and enalapril (23.33 mg/daily, IQ 14.44-32.22, p < 0.001) were administered to chagasic patients as compared to ischemic patients and those with heart disease of other causes, and lower doses of losartan (85.55mg/daily, IQ 52.77-100.00, p = 0.021) were administered to chagasic and ischemic patients as compared to those with heart disease of other causes. The correlations between daily consumption of carvedilol and LVEF were weak (r =.125, p = 0.017).

In the HT group, immunosuppressants, ONCD, lipid-lowering drugs and CCB were most frequently prescribed (Table 1). Additionally, there was a difference regarding the use of nitrates between patients with LVEF ≤ 40% and those with LVEF > 40% (p = 0.026) (Table 2). Patients of white and yellow ethnicity received more antibiotics (77.9%, p = 0.006). With respect to cause, differences were not statistically significant among the drugs used. Concerning sex, antibiotics were more frequently used by men than by women (58.8%, p = 0.016). Figure 1 shows the magnitude of cost reduction for drugs purchased via RA.

Figure 1
Percentage cost reduction in delivered prescription drugs purchased via reverse auction in comparison with private costs according to each drug group in heart failure (Top) and heart transplantation (Bottom). Immunosup: immunosuppressants; ONCD: other noncardiovascular drugs; CCB: calcium channel blockers; ACEI: angiotensin-converting enzyme inhibitors; ARB: angiotensin receptor blockers; OCD: other cardiovascular drugs; Antiplatelet: antiplatelet drugs; ACG: anticoagulants; IPADPR: inhibitors of platelet adenosine diphosphate receptor.

Cost of pharmacological treatment via reverse auction

In HF patients, the total cost was $534,010.20 (n = 726), and the median monthly cost per patient was $10.15 (IQ 3.51-40.22). The most costly classes of drugs in decreasing order of value were ONCD, lipid-lowering drugs and OCD (Table 3).

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Table 3
Total cost in dollars of prescribed drugs for heart failure and heart transplantation study populations

On the other hand, the total cost for HT recipients was $1,787,462.17 (n = 146), and the median monthly cost per patient was $393.08 (IQ 124.74-774.76). The most costly classes of drugs were immunosuppressants and ONCD (Table 3).

Cost of pharmacological treatment via private market

In HF patients, the estimated total cost was $3,991,176.38 (n = 726), and the median monthly cost per patient was $161.76 (IQ 86.05-340.15). The most costly classes of drugs in decreasing value were ONCD and beta-blockers (Table 3).

For HT patients, the total cost was $5,725,965.20 (n = 146), and the median monthly cost per patient was $1,207.70 (IQ 604.48-2,499.97). Not surprisingly, the most costly classes of drugs were immunosuppressants and ONCD (Table 3).

Cost via reverse auction according to subgroup analyses

The monthly median cost per HF patient was $9.74 (IQ 3.48-33.65, n = 453) for men and $12.24 (IQ 3.57-44.01, n = 273) for women (p = 0.127). An increment in monthly median cost for HF was observed in hypertension (p < 0.001) and diabetes (p < 0.001). Hypertension was responsible for an incremental cost of $8.02 (48% higher) (p < 0.001) and diabetes, for an incremental cost of $24.35 (76% higher) (p < 0.001). The cost for ischemic cardiomyopathy ($16.84, IQ 6.32-16.84) was significantly higher than that for Chagas' disease ($8.53, IQ 2.98-26.52, p < 0.001) and other causes ($6.79, IQ 3.21-18.58, p < 0.001). The lower cost for Chagas' disease may be due to the fact that chagasic patients may not tolerated full doses and doctors are not encouraged to use full doses because there is no trial in Chagas' disease. In the multivariate analysis, older HF subjects had significantly higher costs (β = .021, p < 0.001), and patients without hypertension and diabetes had significantly lower costs (β = -.517, p < 0.001; β = -.979, p < 0.001). The magnitude of cost reduction via RA was higher in diabetes and hypertension (Figure 2).

Figure 2
Cost of delivered prescription drugs purchased via reverse auction (RA) compared with commercial pharmacy (CP) costs according to the diagnosis of systemic arterial hypertension and diabetes mellitus in heart failure and heart transplantation.

In the HT group, the monthly median cost per patient was $365.17 (IQ 100.83-683.59, n = 101) for men and $435.58 (IQ 248.40-920.86, n = 45) for women (p = 0.268). None of the comorbidities caused an incremental cost. Differences were statistically significant between the costs of patients with a previous history of chagasic cardiomyopathy ($271.71, IQ 66.49-568.54) and other causes ($472.40, IQ 182.05-888.53, p = 0.009). Additional parallels between clinical variables and monthly median cost for both groups are shown in Table 4. In multivariate analysis, HT patients without hypertension had lower cost (β = -.324, p < 0.001). In this model, other variables were not statistically significant in predicting cost. The magnitude of cost reduction via RA was higher in diabetes and hypertension (Figure 2).

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Table 4
Monthly cost via reverse auction or commercial pharmacies of prescribed drugs for heart failure and heart transplantation study populations according to clinical and demographic variables

Cost via commercial pharmacies according to subgroup analyses

In the HF group, the monthly median cost for men was $155.34 (IQ 91.30-314.85) and for women $175.21 (IQ 80.68-415.44) (p = 0.412). With respect to comorbidities, an incremental monthly median cost was associated with hypertension (p < 0.001) and diabetes (p < 0.001). Hypertension was responsible for an incremental cost of $60.35 (28% higher) (p = 0.005), and diabetes, for an incremental cost of $130.19 (48% higher) (p < 0.001). The cost of ischemic cardiomyopathy ($200.96, IQ 113.73-447.87) was significantly higher than that of chagasic cardiomyopathy ($138.85, IQ 19.03-303.53, p = 0.003) and other causes ($139.82, IQ 84.39-274.33, p = 0.004). In the multivariate analysis, a significant interactive effect between cost and age was observed for HF patients; not surprisingly, older subjects had significantly higher costs (β = .018, p < 0.001). Men (β = -.165, p < 0.001) and subjects without diabetes had significantly lower costs (β = .568, p = 0.003).

In the HT group, a tendency toward a lower monthly median cost for prescribed drugs was observed for men ($1,056.83, IQ 532.31-2,325.00) than for women ($1,313.48, IQ 907.33-3,011.20) (p = 0.069). Nevertheless, diabetes was the only comorbidity responsible for an incremental cost of $795.99 (40% higher) (p = 0.045). No difference in cost was observed between causes. Additional parallels between clinical variables and monthly median cost for both groups are shown in Table 4. In the HT group, the multivariate analysis showed a significant interactive effect for cost and absence of hypertension (β = -.218, p < 0.001). The absence of hypertension resulted in lower costs in the private system. In this model, there were no statistically significant differences for other variables.

Discussion

To our knowledge, this is the first study to demonstrate that the cost of delivered prescription drugs in HF and HT, patients purchased via RA is remarkably lower than estimated private market costs in the real world scenario of clinical practice. In fact, in this comparison, purchasing via RA for HF followed by delivery to patients is likely a bargain. Older age was associated with higher costs, and the absence of diabetes was associated with lower costs in HF patients via both purchasing systems. The magnitude of cost reduction via RA was higher in diabetes and hypertension (Figure 2).

Our cost for HF pharmacological treatment was expressively lower in comparison with the previously reported cost, ranging from $261 to $438 per month per patient⁹9 Masoudi FA, Baillie CA, Wang Y, Bradford WD, Steiner JF, Havranek EP, et al. The complexity and cost of drug regimens of older patients hospitalized with heart failure in the United States, 1998-2001. Arch Intern Med. 2005;165(18):2069-76.^,¹⁰10 Hussey LC, Hardin S, Blanchette C. Outpatient costs of medications for patients with chronic heart failure. Am J Crit Care. 2002;11(5):474-8.. Actually, the cost of drugs purchased via RA in our investigation ranged from approximately 2.28% to 3.8% of previously published data from the USA, whereas the estimated cost in the private market ranged from 37% to 62%. The USA health system, acknowledged as one of the most expensive in the world with consequently higher prices for medications¹⁵15 Squires DA. The U.S. health system in perspective: a comparison of twelve industrialized nations. Issue Brief (Commonw Fund). 2011;16:1-14., could contribute for those differences. However, the enormous difference in cost corroborated our findings of the RA effectiveness in reducing costs for HF treatment.

Regarding HT, the comparison with data of only one published study analyzing the cost of immunosuppressants from solid organ transplantation up to 2 years post-transplantation shows that RA may be proportionally less effective in reducing costs after HT. In that study, costs ranged from $448 to $1,321 per patient per month¹⁶16 Levy AR, Sobolev B, James D, Barrable W, Clarke-Richardson P, Sullivan SD, et al. The costs of change: direct medical costs of solid organ transplantation in British Columbia, Canada, 1995-2003. Value Health. 2009;12(2):282-92.. However, the cost of other medications was not considered, which could underestimate the total cost of pharmacological treatment.

To explain our results, we would like to speculate that purchasing via RA might create a competitive environment for many industries involved in producing HF medications. The competition, rather than being a disadvantage to industry, would push pharmaceutical manufacturers to improve their business processes to maintain a profit while at the same time benefiting society. Conversely, the small number of industries involved in the production of immunosuppressant drugs and the restricted market may prevent the development of a competitive environment and limit the effectiveness of RA for HT. As a result, the pharmacological therapy for transplantation has a high cost as compared with that for HF¹⁶16 Levy AR, Sobolev B, James D, Barrable W, Clarke-Richardson P, Sullivan SD, et al. The costs of change: direct medical costs of solid organ transplantation in British Columbia, Canada, 1995-2003. Value Health. 2009;12(2):282-92..

As expected and confirming published data, comorbidities were associated with a higher cost⁸8 Xuan J, Duong PT, Russo PA, Lacey MJ, Wong B. The economic burden of congestive heart failure in a managed care population. Am J Manag Care. 2000;6(6):693-700.^,⁹9 Masoudi FA, Baillie CA, Wang Y, Bradford WD, Steiner JF, Havranek EP, et al. The complexity and cost of drug regimens of older patients hospitalized with heart failure in the United States, 1998-2001. Arch Intern Med. 2005;165(18):2069-76.. The higher cost for older patients could be explained by the ageing process leading to greater comorbidity. In general, comorbidities require polypharmacy treatment; however, it is worth noting that diabetes was associated with higher incremental costs in HF, probably because of the role of diabetes in the development of many comorbidities⁹9 Masoudi FA, Baillie CA, Wang Y, Bradford WD, Steiner JF, Havranek EP, et al. The complexity and cost of drug regimens of older patients hospitalized with heart failure in the United States, 1998-2001. Arch Intern Med. 2005;165(18):2069-76.. However, RA was more effective in diabetes (Figure 2).

Our findings suggest that RA is a positive alternative for health system

Our findings suggest that RA is a positive alternative for health system financial support and could be introduced to other countries to reduce the cost of the pharmacological treatment of HF and after HT. People involved in medication supply for HF should reflect about the possibility of purchase via RA and delivery to patients. The cost of outpatient medications may influence the patients' adherence to recommended pharmacological treatment¹⁰10 Hussey LC, Hardin S, Blanchette C. Outpatient costs of medications for patients with chronic heart failure. Am J Crit Care. 2002;11(5):474-8.. The lower cost could result in greater access to pharmacological treatment with greater adherence to prescribed medications, better survival and less hospitalization. The worldwide use of RA to health policies could benefit many people in developed and mainly undeveloped countries, reducing the economic burden of HF.

Limitations

Our study has limitations. We assessed only prescribed and delivered drugs; consequently, we were unable to ascertain patient adherence. However, it is sufficient to demonstrate how much pharmacological therapy occurs in clinical practice. The regimens administered to the patients were based on those prescribed by specialized cardiologists at a tertiary center and may not represent primary care in HF treatment. Our single-center study did not include patients from multiple practices and diverse Brazilian geographic regions; however, in these conditions, the pharmacological treatment is not usually guideline-oriented. Finally, our study was a retrospective review of medical records, because a prospective study would require more time and economic resources.

Conclusion

In the present study in contemporary practice, we were able to demonstrate that RA may be valuable as a potential tool for reducing HF burden dependent on the pharmacological therapy cost of HF outpatients and after HT. In addition, the prevalence of comorbidities and older age are associated with higher cost, which should be considered in planning health strategies for HF. Likewise, the key finding is that RA could become a government strategy to extend drug therapy access to less socially privileged people and in the optimal use of public resources.

Sources of Funding

There were no external funding sources for this study.
Study Association

This study is not associated with any thesis or dissertation work.

References

¹
Go AS, Mozaffarian D, Roger VL, Benjamin EJ, Berry JD, Borden WB, et al; American Heart Association Statistics Committee and Stroke Statistics Subcommittee. Heart disease and stroke statistics--2013 update: a report from the American Heart Association. Circulation. 2013;127(1):e6-245. Erratum in: Circulation. 2013;127(23):e841.
²
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Publication Dates

Publication in this collection
21 July 2015
Date of issue
Sept 2015

History

Received
23 Jan 2015
Reviewed
04 Mar 2015
Accepted
06 Apr 2015

This is an Open Access article distributed under the terms of the Creative Commons Attribution NonCommercial License which permits unrestricted noncommercial use, distribution, and reproduction in any medium provided the original work is properly cited.

[1] Sources of Funding

There were no external funding sources for this study.

[2] Study Association

This study is not associated with any thesis or dissertation work.

CHARACTERISTICS	HF n = 808 n (%)	HT n = 147 n (%)
Age, years	56.5 ± 12.2	49.9 ± 16.6
< 20	5(0.6)	9(6.1)
20 to 40	80 (9.9)	37 (25.2)
41 to 65	427 (52.8)	57 (11.8)
≥ 66	296 (36.6)	44 (29.9)
Ambulatory appointment
< 5	250 (30.9)	16 (10.9)
6 to 10	302 (37.4)	17 (11.6)
11 to 15	127 (15.7)	42 (28.6)
16 to 20	48 (5.9)	28 (19.0)
≥ 21	81 (10.0)	44 (29.9)
Ethnicity
White and yellow	619 (78.3)	127 (86.4)
Black and mulatto	172 (21.7)	20 (13.6)
Cause
Ischemic	141 (30.7)	18 (12.9)
Other causes	232 (50.5)	73 (52.5)
Chagasic	86 (18.7)	48 (34.5)
Sex
Male	508 (62.9)	101 (68.7)
Female	300 (37.1)	46 (31.3)
Comorbidities
Hypertension	157 (19.5)	40 (27.2)
Diabetes	150 (18.6)	30 (20.4)
Cerebrovascular accident	31 (3.9)	5 (3.4)
Renal Failure	56 (7.0)	18 (12.2)
COPD	13 (1.6)	2 (1.4)
Myocardial revascularization	20 (2.5)	0 (0.0)
Coronary angioplasty	9 (1.1)	2 (1.4)
Myocardial infarction	56 (7.0)	4 (2.7)
Prescribed cardiovascular drug
Beta-blocker	703 (87.1)	40 (27.2)
Diuretic	703 (87.1)	54 (36.7)
CCB	205 (25.4)	114 (77.6)
ACEI, ARB	573(71.0)	54 (36.7)
Lipid-lowering	595 (73.7)	117 (79.6)
Antiplatelet drug	354 (43.9)	30 (20.4)
ACG or IPADPR	212 (26.3)	20 (13.6)
Antiarrhythmic drug	85 (10.5)	4 (2.7)
Digitalis	309 (38.3)	15 (10.2)
Nitrate	197 (24.4)	11 (7.5)
OCD	330 (40.9)	47 (32.0)
Prescribed non-cardiovascular drug
Antibiotic	42 (5.2)	68 (46.3)
Immunosuppressant	0 (0)	147 (100)
ONCD	630 (78.1)	147 (100)

Prescribed drug	HF			HT
Prescribed drug	LVEF ≤ 40% (n = 321) n (%)	LVEF > 40% (n = 134) n (%)	p	LVEF ≤ 40% (n = 10) n(%)	LVEF > 40% (n = 126) n (%)	p
Beta-blocker	287 (89.4)	109(81.3)	0.020	5(50.0)	32 (25.4)	0.13
Diuretic	287(89.4)	109(81.3)	0.020	4(40.0)	48(38.1)	1.00
CCB	67(20.9)	43(32.1)	0.011	7(70.0)	102(81.0)	0.41
ACEI, ARB	221(68.8)	90(67.2)	0.72	6(60.0)	46(36.5)	0.18
OCD	153(47.7)	55(41.0)	0.19	5(50.0)	41(32.5)	0.30
Lipid-lowering	241(75.1)	89(27.0)	0.059	7(70.0)	106(84.1)	0.37
Antiplatelet	154(48.0)	44(32.8)	0.003	3(30.0)	24(19.0)	0.41
ACG or IPADPR	93(29.0)	39(29.1)	0.97	1(10.0)	19(15.1)	1.00
Antiarrhythmic	44(13.7)	9(6.7)	0.034	0(0.0)	3(100)	NP
Digitalis	127(39.6)	44(32.8)	0.17	0(0.0)	15(11.9)	NP
Nitrate	104(32.4)	24(17.9)	0.002	3(30.0)	7(5.6)	0.026
Antibiotic	25(7.8)	7(5.2)	0.33	5(50.0)	62(49.2)	1.00

Prescribed drug	HF				HT
	Reverse Auction	Reverse Auction	Private	Private	Reverse Auction	Reverse Auction	Private	Private
	Total	%	Total	%	Total	%	Total	%
Beta-blocker	5,587.37	1.05	594,268.42	14.89	600.39	0.03	13,832.19	0.24
Diuretic	7,656.28	1.43	146,626.03	3.67	368.85	0.02	8,441.09	0.15
CCB	1,212.11	0.23	58,448.57	1.46	6,847.05	0.38	51,373.17	0.90
ACEI, ARB	16,905.47	3.16	209,315.46	5.24	2,102.12	0.12	15,675.55	0.27
OCD	24,174.38	4.52	162,075.63	4.06	4,846.76	0.27	15,933.67	0.28
Lipid-lowering	79,108.02	14.80	196,806.89	4.93	6,267.88	0.35	66,905.15	1.17
Antiplatelet	566.45	0.11	19,825.63	0.50	67.07	0.00	2,347.49	0.04
ACG or IPADPR	7,911.35	0.15	58.458,19	1.46	662.50	0.04	9,667.25	0.17
Antiarrhythmic	1,993.28	0.37	17,018.91	0.43	40.55	0.00	729.86	0.01
Digitalis	672.34	0.13	15,980.01	0.40	18,70	0.00	336.58	0.01
Nitrate	5,300.55	0.99	37,563.87	0.94	559.03	0.03	1,799.95	0.03
Antibiotic	217.40	0.04	5,880.07	0.15	6,647.44	0.37	199,964.37	3.49
Immunosuppressant	-	-	-	-	1,540,724.53	86.20	4,159,017.41	72.63
ONCD	390,244.35	73.02	2,468,908.68	61.86	217,709.30	12.18	1,179,687.44	20.60
TOTAL	534,428.49	100	3,991,176.38	100	1,787,462.17	100	5,725,965.20	100

CHARACTERISTICS	HF				HT
CHARACTERISTICS	n	MEDIAN COST	IQ 25%-75%	p	n	MEDIAN COST	IQ 25%-75%	p
Reverse auction cost in $
Age, y				< 0.001				0.19
≤ 19	5	3.16	2.87-24.39		9	732.48	493.62-1,026.12
20 to 40	68	4.35	2.07-15.63		37	410.07	239.07-844.68
41 to 65	380	9.8	3.20-45.88		57	365.19	97.16-619.52
≥ 65	273	13.46	4.80-52.75		43	245.93	90.60-1,021.26
Causes				< 0.001				0.036
Ischemic	132	16.84	6.32-16.84		18	402.49	77.07-932.54
Chagasic	76	8.53	2.98-26.52		48	271.71	66.49-568.54
Others	217	6.79	3.21-18.58		73	472.40	182.05-888.53
Ambulatory appointment, times				0.005				0.016
< 5	192	10.84	2.88-39,19		16	576.34	292.84-1,396.98
6 to 10	286	8.09	3.07-30.27		16	512.22	149.78-1,062.56
11 to 15	124	15.13	5.23-70.22		42	227.05	73.86-607.01
16 to 20	46	6.55	2.91-54.35		28	273.05	61.67-654.69
≥ 21	78	12.89	5.06-41.86		44	493.46	223.14-847.01
Functional class				< 0.001
I and II	326	7.04	2.82-32.86
III and IV	101	16.47	5.43-67.55
Ethnicity				0.96				0.34
White and yellow	564	10.07	3.59-10.07		126	390.47	118.43-737.32
Black and mulatto	148	10.92	3.52-40.47		20	40.47	225.65-1,074.95
LVEF				0.43				0.97
≤ 40%	296	11.82	3.47-47.80		10	358.93	86.11-957.32
> 40%	119	9.46	3.72-27.61		126	390.47	124.75-740.92
Private cost in $
Age, y				< 0.001				0.52
≤ 19	5	105.45	52.69-520.48		09	1,851.58	1,284.76-2,755.11
20 to 40	68	114.52	62.57-188.12		37	1,234.25	839.74-2,455.04
41 to 65	380	148.90	79.68-331.97		57	1,155.17	556.26-2,491.22
≥ 65	273	193.19	113.57-420.72		43	1,004.99	572.62-2,734.57
Causes				0.004				0.14
Ischemic	132	200.96	113.73-447.87		18	1,581.77	554.10-3,141.53
Chagasic	76	138.85	19.03-303.53		48	1,024.00	355.21-1,553.49
Others	217	139.82	84.39-274.33		73	1,378.35	784.73-2,485.21
Ambulatory appointment, times				0.002				0.009
< 5	192	168.48	67.85-321.16		16	1,507.97	984.70-3,821.39
6 to 10	286	147.90	79.49-308.74		16	1,530.34	713.99-2,890.81
11 to 15	124	190.69	111.44-510.07		42	800.50	446.29-2,232.58
16 to 20	46	151.78	89.09-339.14		28	905.63	309.77-1,756.99
≥ 21	78	189.04	116.25-363.56		44	1,445.44	955.98-2,737.73
Functional class				0.010
I and II	326	134.27	72.15-278.23
III and IV	101	213.35	110.97-637.56
Ethnicity				0.57				0.15
White and yellow	564	169.05	85.18-339.40		126	1,161.89	573.85-2,432.95
Black and mulatto	148	157.10	86.02-391.50		20	1,709.93	800.58-3,134.78
LVEF				0.92				0.32
≤ 40%	310	149.32	75.75-331.42		10	1,133.99	712.47-2,548.44
> 40%	129	136.30	72,65-286.64		126	1,203.64	583.40-2,487.27