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Revista de la Facultad de Medicina Humana

versión impresa ISSN 1814-5469versión On-line ISSN 2308-0531

Rev. Fac. Med. Hum. vol.21 no.3 Lima jul./set. 2021

http://dx.doi.org/10.25176/rfmh.v21i3.3905 

Original article

Cost of pulmonary arterial hypertension in Peru

Fabián Hernández1 

Julieta Larrosa2 

Jéssica Nacazume3 

Oscar Aguirre4 

Nelson Larrea5 

Sarah Franco-Watanabe3 

Jorge Álvarez5 

André Morais5 

1 IQVIA Colombia - Bogotá, Colombia

2 IQVIA México - Ciudad de México, México

3 IQVIA Brasil - São Paulo, Brasil

4 Instituto Nacional Cardiovascular (INCOR) - Lima, Perú

5 Janssen Pharmaceuticals, Belgica.

ABSTRACT

Introduction:

Pulmonary arterial hypertension (PAH) is a low prevalence condition for which there is very little information in Peru. Various studies indicate that it generates significant costs for health systems in the world.

Objective:

To establish the economic burden of PAH in the Peruvian context.

Methods:

Information on the use of health resources was collected through consultations with clinical experts and opinion leaders. The cost information was obtained from two tariff manuals and the Observatory of Pharmaceutical Products.

Results:

The experts indicated that about 68% of the patients were in an intermediate stage of the disease and that sequential combination therapy is predominant in the FC III and FC IV stages, compared to earlier stages. The annual cost of PAH treatment in Peru was $ 14,842 USD (S / 25,885), where the main item were drugs (81.72%), followed by diagnosis (8.96%) and outpatient follow-up (5, 75%).

Conclusion:

Information on pulmonary arterial hypertension in Peru is critical for decision-makers due to the high economic impact. Furthermore, studies in this therapeutic area are relevant for disseminating knowledge of the disease to different health professionals.

Keywords: Pulmonary Arterial Hypertension; Cost of Illness; Peru. (Source: MeSH - NLM)

INTRODUCTION

Pulmonary hypertension groups have different low prevalence conditions that have a similar clinical presentation. It is defined as a mean pulmonary arterial pressure greater than 25 mmHg at rest and greater than 30 mmHg during exercise. Among the conditions grouped by pulmonary hypertension, pulmonary arterial hypertension (PAH) stands out, which, in addition to the previous criteria, is characterized by a wedge pressure of the pulmonary artery less than 15 mmHg1,2. The increase in pressure is mainly caused by an increase in the vascular resistance of the pulmonary arteries that can have genetic, environmental, or idiopathic etiology; therefore, the risk factors for the development of PAH are related to genetic mutations (especially in the BMPR2 gene)3, congenital heart problems4, living in high altitude regions5and the consumption of some drugs or substances6. Currently, there is no information on the prevalence or incidence of PAH in Peru. However, the prevalence of this disease in high-income countries is estimated to be between 5 and 52 cases per million inhabitants, with an incidence of 2.5 to 7.1 new cases per million inhabitants7. Given its low prevalence, this disease has been classified as an orphan disease, according to Ministerial Resolution 1075 of 2019 of the Ministry of Health of Peru, so its care and treatment are guaranteed by the national government8,9. Since the diagnosis of PAH usually requires active screening of patients with risk factors and preexistence10, and that the pharmacological treatments indicated for this condition are expensive11, the burden imposed on the health of the system is considerable. In this sense, a systematic review of cost studies in PAH found that the monthly cost per patient per month varies between the US $ 2,476 and $ 11,875, where the costs related to pharmacological treatment and medical care were the key sources of direct medical costs12. Similarly, some studies have estimated that there are significant differences in the cost of the disease by Functional Classification (FC) of the World Health Organization (WHO)13, so it becomes relevant to know this economic burden within the Peruvian health system. The objective of the present study was to estimate the economic burden associated with the diagnosis, treatment, and follow-up of PAH from the perspective of the Peruvian third-party payer.

METHODS

Design and study area

This study was based on in-depth interviews with four cardiologists with experience in the management of PAH in reference centers in Peru.

Population and sample

The universe of patients covered by these specialists was 186 patients during 16 years of clinical practice.

Variables and instruments

The analysis variables are the costs related to the events associated with PAH. Information collection instruments were developed based on the proposed objectives, which guided the conduct of the interviews. These were intended to identify the use of resources and relevant cost-generating events in the treatment of patients with a diagnosis of PAH from the perspective of the Peruvian third-party payer, in this case, MINSA and EsSalud only those that generated costs were considered to direct physicians.

Procedures

The study consists of two phases: the first consists of interviews with clinical experts to determine the management of PAH; the second focuses on the performance of microcosting related to events associated with PAH. The approach followed both in the interviews and in the cost, estimation is summarized below.

Identification of resources and cost-generating events

The four cardiologists were consulted regarding five relevant aspects of these patients’ health care: diagnosis, drug treatment, outpatient follow-up, in-hospital care, and adverse events (AE). The questionnaires that guided the interviews were prepared based on the guidelines of the European Society of Cardiology (ESC) and the European Respiratory Society (ERS) for the treatment of PAH(14). Similarly, the experts were questioned regarding the functional classification of the patients they treated and its etiology.

Cost estimation

Each resource and the cost-generating event was assigned a price-weighted by the frequency of use and the proportion of patients to which each was prescribed to estimate the total cost of PAH in Peru per patient per year. This approach is called microcosting, and its use is common in economic evaluations15. In Peru, the sources of costs for procedures and consultations were the rate manuals of the National Institute of Neoplastic Diseases and the Cayetano Heredia Hospital16,17. For drugs, the database of the Pharmaceutical Products Observatory (DIGEMID / MINSA) was consulted Statistical analysis. The final cost of the disease was expressed in United States dollars (USD) adjusted for Purchasing Power Parity (PPP), which allows the comparison of the acquisition of goods and services between different economies since this value is less sensitive to changes in supply and demand. In this study, the conversion rate of the Peruvian sol to USD PPP for 2018 was used, which is equivalent to S / 1,744 for each USD.

Ethical consideration

This study did not require intervention in humans, so there is no need for review by an ethics committee.

RESULTS

Within the universe of patients comprised by the cardiologists interviewed, it was evidenced that 63.7% of patients with PAH had a diagnosis associated with congenital heart disease, 20.8% corresponded to patients with a disease of idiopathic etiology, and 8.5% of the patients had a disease associated with connective tissue disorders. On the other hand, the experts consulted indicated that they stratified the patients mainly by functional class, showing that 68% of them were in intermediate stages of disease severity (32% in FC II and 36% in FC III). In contrast, 15% and 16% of patients were in FC I and FC IV states, respectively. In general, the report on the use of resources (procedures and laboratories) for the diagnosis of PAH was quite homogeneous among the experts interviewed, generating an average annual cost of diagnosis of $ 1,329.9 per patient. Regarding the cost of outpatient follow-up, the use of resources was more heterogeneous among specialists, and its total annual cost was $ 852.9 per patient. On the other hand, the annual cost of non-pharmacological treatment and adverse events corresponded to $ 276.4 and $ 1.10, respectively (Table 1). Regarding hospitalizations and length of hospital stay, the experts consulted indicated that patients in FC I and II states usually do not report hospitalizations or admissions to the Intensive Care Unit (ICU); therefore, they do not incur costs related to this item. In contrast, FC III and FC IV patients spend an average of 12 and 14 days a year in the general hospitalization room and 7 and 7.5 days a year in the ICU, respectively. The cost of the general inpatient ward stay is $ 595.5 and $ 693.1 for FC III and FC IV patients, respectively. The cost of staying in the ICU is 1,404.6 and 1,490.7, respectively. Regarding pharmacological treatment, it was evidenced that sequential combination therapy is predominant in the FC III and FC IV states. In contrast, in the FC I and FC II state, the use of monotherapy and initial combination therapy is much more common (Figure 1). Similarly, it was observed that the most widely used pharmacological alternative for the treatment of PAH in Peru was sildenafil, followed by the combination of sildenafil + bosentan (Figure 2). Adjuvant treatment in this setting consisted of anticoagulants, diuretics, and digoxin. In general, the distribution of the costs of diagnosis, follow-up and non-pharmacological treatment within the total cost of treatment remained constant throughout the different stages of disease severity. Additionally, it was observed that the cost of pharmacological therapy constitutes the largest proportion of the total cost of treatment (Table 2) per year per patient, which, in this case, was $ 14,841.7.

Table 1.  Main procedures and laboratories for each treatment step in usd. Ppa: purchasing power parity 

Procedure Quantity Proportion Annual cost per patient (PPA)
Diagnostic procedures
Left heart catheterization 1 100.0% $ 251.48
Pulmonary exploration by ventilation/perfusion 1 100.0% $ 202.07
Transesophageal echocardiography 1 100.0 % $ 160.73
MRI of the heart 1 37.6% $ 157.49
Pulmonary angiography 1 37.6% $ 86.42
Computed tomography 1 93.0% $ 85.43
Right heart catheterization 1 100.0% $ 57.41
X-ray of chest 1 100.0% $ 47.65
DLCO (Carbon monoxide pulmonary diffusion test) 1 93.0% $ 45.92
Electrocardiogram 1 100.0% $ 29.85
Other procedures 1 - $ 205.46
Outpatient follow-up
Transesophageal echocardiography 1 5 100.0% $ 241.10
brain natriuretic 2.5 100.0Peptide% $ 107.63
thyroid function test 2 100.0% $ 99.89
right heart catheterization 1.5 100.0% $ 86.11
Electrocardiogram 1 5 100.0% $ 74.63
Ionogram 2.5 100.0% $ 47.36
Hematocrit 2 100.0% $ 34.44
6MWT: Test 6 minute walk 1.5 10 0.0% $ 26.69
Serum iron 2 100.0% $ 26.41
Prothrombin time 3 100.0% $ 18.94
Other procedures - 100.0% $ 89.66
Adverse events
Headache 1 44.3% $ 0.49
Elevation of transaminases 1 44.4% $ 0.49
Hypotension 1 11.2% $ 0.12
Other follow-ups and outpatient treatments
Physical rehabilitation therapy 1.6 100.0% $ 121.0
Consultation with a PAH specialist 5.3 100.0 % $ 61.1
Psychological assistance 2.6 100.0% $ 34.6
Consultation with other specialists 2 100.0% $ 22.8
Immunization against pneumococcal disease 1 67.2% $ 18.6
Social assistance 1.7 100.0% $ 13.6
Iron supplementation for anemia 1 34.0% $ 3.5
Oxygen therapy 1 25.9% $ 1.2

PPA: purchasing power parity

Figure 1:distribution of treatment regimens across functional states 

Figure 2: use of pharmacological therapies indicated in PAH  

Table 2.  Distribution of annual treatment cost per pah patient in Peru in usd.  

Item Total Cost (PPA) Percentage
Diagnosis $ 1,329.9 8.96%
Outpatient follow-up $ 852.9 5.75%
Other follow-up and outpatient treatments $ 276.4 1.86%
Adjuvant treatment $ 148.8 1.00 % In-
hospital treatment $ 91.0 0.61%
Transplantation $ 12.7 0.09%
Adverse events $ 1.1 0.01%
Pharmacological treatment $ 12,128.9 81.72%
Total $ 14,841.7 100.0%

PPA: PURCHASING POWER PARITY PAH: Pulmonary arterial hypertension

DISCUSSION

Information regarding the economic impact of PAH in Peru is scarce. However, this study makes it possible to establish clear treatment patterns and some relevant cost-generating events within the management stages of this pathology. Similarly, it is evidenced that most patients are in a moderate stage of the disease, specifically in stages FC II and FC III, in which the evidence indicates that there is a significantly different survival prognosis18. The drugs used in patients with functional classes I and II agree with the norms in international guidelines. However, a group of patients that even in functional class II requires therapy with drugs that use the prostaglandin pathway, specifically an agonist of selective IP receptors that have shown a reduction in morbidity and mortality in this phase19. In patients with functional class III and IV, there are still cases with the use of monotherapy, which reveals the limited access to recommended drugs at this level of the disease. Also, even when most patients have indicated sequential therapy, it is restricted mostly to Sildenafil and Bosentan (Figure 2), making clear the risk of disease progression in advanced stages given the need for prostaglandin analogs in this group of patients. Of special attention is the group of patients in functional class IV, who have a high risk of death or require transplantation. The indication of prostaglandin analogs should be administered parenterally20, drugs that are not yet available in the national market. Early diagnosis continues to be the best alternative to improve the prognosis of patients since drugs are available locally for the early stages of the disease. However, it is known that even in developed countries the delay in diagnosis ranges around 2 years21, for which early stratification is the next decision to be taken, there is evidence even in patients with FC III and high risk where the Early and effective pharmacological intervention reduces rehospitalization and disease progression20. Finally, for patients diagnosed in advanced stages, resources should be directed to specialized centers of reference, where the opportunity is given to administer parenteral drugs in a protocolized manner, which allows the stabilization of the patient and subsequent overlap with oral drugs that facilitate their treatment, administration, and adherence. Pulmonary arterial hypertension (PAH) is a rare disease and, at the same time, generates a high cost that can be analyzed from different aspects of the disease. The rapid progression towards hospitalization and premature death in young adults is definitely reflected in high hospitalization rates, Lacey et al.,22reported that more than 75% of PAH patients were hospitalized within the first year of diagnosis (mean hospital stay: 11 days), of which 20% were readmitted again within 30 days (mean hospital stay 24.5 days)23, which significantly increases the cost of treatment. The advance in treatment, with the development of new molecules that reduce hospitalization and stop the progression of the disease, is also related to a high cost. The analysis focuses on establishing whether the new therapies impact reducing the costs progression of the disease. Retrospective studies have analyzed the costs of health care and medical resources used in the diagnosis of PAH in the United States, Copher et al.,24estimated costs since diagnosis, reporting 8,187 US dollars (USD) per month, 94% of The patients were on monotherapy (Sildenafil or Bosentan), being necessary to titrate the therapy in 13% of them, given this trend established in the treatment routine, Sikirica et al.,25estimated costs during the diagnosis process (visit index) and 12 months later, the changes in treatment were: titration, change of medication or discontinuation. The costs at this time estimated per year were 116,681 and 98,243 USD in the index visits and in the follow-up respectively, the decrease of these estimates was despite an increase in the cost of the drugs used (Sildenafil, Bosentan, Ambrisentan, Tadalafil, Iloprost Treprostinil, and Epoprostenol), they postulated that the result was due to the reduction in hospital costs, which were significantly reduced (81,577 USD and 26,297 USD at the baseline and follow-up visit respectively). This association was observed more recently in the study by Burger et al.,26, with a greater number of patients included, where a greater than 50% reduction in the frequency of hospitalization for pulmonary hypertension was evidenced after initiating specific vasodilator therapy. Hospitalization is a prognostic variable that is currently used to measure in studies of pulmonary arterial hypertension, not only because of the high incidence described and the costs involved22, but also because it is a factor that increases the mortality rate27. The low-risk profile is the goal to be achieved in patients with PAH28. The goal is to avoid hospitalization as a proxy for mortality, for which treatment adherence is essential. Some instruments allow it to be measured, such as the Morisky Scale or the Proportion of days covered; Under these scales, patients with PAH generally show favorable adherence values29,30. However, these could be affected by multiple factors, such as the need to use more than 1 drug, requiring multiple daily doses, or having PAH associated with connective tissue diseases. The presence of comorbidities is a factor in favor of adherence to multiple pharmacological therapies29. Other clinical variables considered were the presence of adverse events and hospitalization, which were associated with lower compliance with treatment30,31. The cost is not mentioned within the related factors, but it is mentioned that more than 95% of the patients have financial support from different assistance programs or foundations30. Among the limitations of this study is the use of the opinion of clinical experts as the primary source of information since the estimates made could be biased towards the clinical practice of these specialists and do not reflect the real-world scenario in this pathology. Similarly, since the only specialty consulted for this study was cardiology, the characteristics described of the patients in this research could only reflect those of the patients who attend cardiology to treat this condition. On the other hand, considering that the experts consulted have extensive experience in the treatment of PAH, the use of resources and the patient's time probably correspond to the ideal or recommended course of treatment for these patients; however, in the real world, many patients may not arrive quickly for consultation with a PAH specialist, so their use of resources and treatment alternatives may differ significantly from the estimates presented in this study. Finally, this reality prompts us to do more outreach and education about this disease towards an increasingly early diagnosis that improves the prognosis of patients. It alleviates the economic burden on the health systems that assume the financing of health programs.

CONCLUSIONS

This study shows that patients with greater functional impairment (functional class III and IV) mostly require combined therapy. Because they are more likely to be hospitalized even with a longer stay, a higher cost is generated not only due to the use of drugs but also due to the use of drugs due to hospital causes

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Funding sources: The development of this study was funded by Janssen Pharmaceuticals.

Received: May 21, 2021; Accepted: June 08, 2021

Correspondence : Fabián Hernández Address: Calle 100 # 13 - 21, Bogotá DC, Colombia Tolnahuac, Cuauhtémoc, 06920 Tolnahuac, CDMX - México. Telephone: +57 316 5299829 E-mail:fabian.hernandez1@iqvia.com

Authorship contributions: Fabián Hernández: Drafting the manuscript, conducting the study, analyzing the results. Jéssica Nacazume, Julieta Larrosa: Study design, results report. Óscar Aguirre, Nelson Larrea: Contributions to the discussion and conclusions of the study. Sara Franco Watanabe, André Morais, Jorge Álvarez: Management of the study, final approval of the manuscript.

Declaration of conflicts of interest: Dr. Oscar Aguirre has served as speaker for Janssen, Nelson Larrea, Jorge Álvarez and André Morais are employees of Janssen Pharmaceuticals.

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