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Cost-Effectiveness Analysis of Metronidazole versus Metronidazole with Diloxanide Furoate in the Treatment of Amoebiasis in Ethiopia

Authors Legese N , Aferu T , Kassa T

Received 26 March 2021

Accepted for publication 15 June 2021

Published 1 July 2021 Volume 2021:13 Pages 611—617

DOI https://doi.org/10.2147/CEOR.S312821

Checked for plagiarism Yes

Review by Single anonymous peer review

Peer reviewer comments 2

Editor who approved publication: Prof. Dr. Dean Smith



Nanati Legese,1 Temesgen Aferu,2 Tsehay Kassa3

1School of Pharmacy, College of Health and Medical Sciences, Haramaya University, Harar, Ethiopia; 2School of Pharmacy, College of Medicine and Health Sciences, Mizan Tepi University, Mizan Aman, Ethiopia; 3Teklehaimanot health center, Addis Ababa, Ethiopia

Correspondence: Nanati Legese Email [email protected]

Introduction: Amoebiasis is one of the world’s most prevalent and fatal infectious diseases. Several surveys revealed that amoebiasis is one of the most widely distributed diseases in Ethiopia. The combination of metronidazole with diloxanide furoate represents a new approach for the treatment of the infection.
Objective: This study aimed to analyze the cost-effectiveness of diloxanide plus metronidazole compared with metronidazole alone in the treatment of amoebiasis in Ethiopia.
Methods: An analytical decision model was used to analyze costs and effectiveness from a societal perspective by taking adult amoebic patients as the study population with a time horizon of two months. The potential impacts of uncertainty in single parameters were explored in one-way sensitivity analyses.
Results: Metronidazole with diloxanide had a higher cost and effect compared to metronidazole alone with an incremental cost-effectiveness ratio (ICER) of 8 US$ per amoebic case cured. The result was sensitive to the decrease in the effectiveness of metronidazole with diloxanide.
Conclusion: This study revealed the addition of diloxanide to standard treatment to be a more effective and more costly treatment strategy. Therefore, a decision for choosing the medication should be based on the ability of patients to pay for the treatment.

Keywords: amoebiasis, metronidazole, metronidazole with diloxanide, cost-effectiveness analysis, Ethiopia

Introduction

Amoebiasis is the third leading parasitic cause of mortality after malaria and schistosomiasis.1 Annually, around 500 million peoples are infected worldwide while 40 to 100,000 (75,000 on average) die of the disease.1–3 Eighty to ninety percent of those infected are asymptomatic and one percent may develop invasive/extra-intestinal amoebiasis.2,3

Studies in Ethiopia indicated that amoebiasis is one of the most widely distributed diseases.4 In a countrywide survey of 97 communities, the overall prevalence of amoebiasis, as measured by the rate of cyst-passers, in non-school communities was 3.5%.5 In another study in 50 communities in Northern Ethiopia, the prevalence of amebiasis ranged a 3% to 55%. Management of the infection caused a significant economic burden in this area and other parts of the country where the disease was widespread.6

Although frequently overlooked in practice, for the adequate therapy of invasive amoebiasis, treatment should be directed at all the sites where the parasite is present. Luminal or contact amoebicides will not be effective against amoebae in the tissues. On the other hand, parenteral amoebicides do not possess sufficient activity against amoebae in the bowel lumen.7

Metronidazole is sufficient for the treatment of hepatic amoebiasis resulting in an apparent cure. However, the dose may be inadequate in amoebic dysentery and patients are liable to a symptomless cyst-passing state with the danger of subsequent relapse. The drug is highly absorbed and is more active in the tissues than in the gut lumen. It follows that a higher dose is needed to cure luminal than systemic infections. Besides, most strains of Escherichia coli are capable of inactivating metronidazole. The drug is also characterized by a short duration of action, repeat dosage requirement, and possible drug resistance.7,8 As a result, drugs with a longer half-life and more convenient dosage regimen and combinations with other active drugs are needed to meet these demands. Diloxanide furoate is a luminal, while metronidazole is both luminal and tissue amoebicide. The combination of the two medications represents a new approach for the treatment of the infection.9 Contrary to this, the standard treatment guideline in Ethiopia recommends metronidazole 750 mg three times a day for seven days as the first-line treatment.10

Even though researches suggested the clinical significance of the combination of metronidazole with diloxanide over metronidazole alone, the economic side of this treatment strategy remains uncertain. Therefore, this study analyzed the incremental costs, effects, and cost-effectiveness of these treatment options. The analysis was from a societal perspective by taking adult amoebic groups as a study population.

Method

Description of the Intervention

Eradicating the parasite is the essential outcome measure to prevent the risk of relapse and recurrences from amoebiasis.8 Therefore, case cured (parasite eradicated) was a primary efficacy measure used in this economic analysis.

The two alternative treatment protocols analyzed were:

  1. Metronidazole alone
  2. Metronidazole with diloxanide furoate

Both metronidazole and diloxanide is a prescription drug that is available in an oral dosage.

The required dose in the first alternative is metronidazole 800 mg three times a day for seven days.8 For patients not cured with metronidazole, diloxanide furoate 500 mg three times a day for ten days is the subsequent therapy.3 In the second alternative, metronidazole 400mg and diloxanide furoate 500 mg three times a day for five days is recommended.11

PubMed and Google Scholar were the searched database for finding evidence. Besides, the pharmaceutical fund and supply agency (state-owned importer and distributor of pharmaceuticals in Ethiopia), the ministry of health and expert opinions were incorporated.

We found one randomized controlled trial that compared metronidazole and diloxanide over metronidazole alone.11 We also found a meta-analysis of 9 randomized controlled trials on the effectiveness of metronidazole.12 All the results of effectiveness data were based on probabilities.

We constructed a decision tree to calculate the expected costs and effectiveness of alternative therapies. Discounting of costs and effects was not necessary since the time horizon of the study was only two months. We chose this time horizon because relapse from amoebiasis most frequently occurs within 4 to 6 weeks of completing treatment.8

We analyzed direct costs and effects from the societal perspective and calculated incremental costs, effects, and cost-effectiveness for both treatment strategies. We presented all monetary values in the 2016 US dollar (US$) with an average exchange rate of 21.4 Ethiopian Birr per US$.

Calculating Effectiveness

We calculated the expected clinical outcomes for the two alternative strategies using a decision tree model (Figure 1). Amoebic patients may either take metronidazole alone or metronidazole with diloxanide furoate. Both of these alternatives have a probability of cure or not. Amoebic patients not cured with metronidazole alone are assumed to return to the health facility to take diloxanide furoate, which again has the probability of cure or not.

Figure 1 Analytical decision model.

For the first alternative (metronidazole alone), the likelihood of a favorable treatment outcome (cure) was based on evidence from a systematic review and meta-analysis of nine randomized clinical trials conducted on populations with both suspected and documented disease in endemic areas.12 And the probability of cure of diloxanide was found from one randomized clinical trial.18 The cure rate for patients who took metronidazole alone was 86%.12 And of those who failed, 93% were cured with the diloxanide given on their second visit.18

For the second alternative, the effectiveness data was found from one randomized controlled trial that compared metronidazole against metronidazole with diloxanide furoate. In the study, all amoebic patients treated with metronidazole combined with diloxanide get cured (100%).11 (Table 1)

Table 1 Effectiveness of Metronidazole Alone versus Metronidazole with Diloxanide Furoate

Mortality from Amoebiasis

Mortality from amoebiasis is highly associated with the complications of the disease. Severe toxemia, perforation of the bowel, toxic megacolon, rupture of the hepatic abscess into pleura, lung, peritoneum, pericardium, skin, and subcutaneous tissue are among the complications leading to death. Hepatic abscess-producing obstructive jaundice can also occur. Fever, leukocytosis with elevated polymorphs, rise in hepatic enzymes and serum bilirubin are the accompaniments of the complications. Late diagnosis and treatment increase the probability of complications and mortality from amoebiasis. The global mortality rate of amoebiasis is 36,040,000 (7.5%) per 480 million people infected, the majority of the death being secondary to complications. This complication and death usually occur due to delay in starting therapy or treatment failure.13 Based on this, we assumed that 7% of the individuals in the first alternative would face treatment failure, a complication from the disease, or death.

Calculating Costs

The cost items incorporated were: health professional consultation time costs, laboratory examination costs, medication cost, physician visits cost, medical supplies cost, and transportation costs. Most of these costs are the same for both alternatives. However, medication costs, laboratory examination costs, physician visits costs, health professional consultation time costs, and transportation costs are doubled for patients not cured with metronidazole alone (alternative 1).

We found the cost of metronidazole from the market prices of 10 public and private pharmacies in different areas of Addis Ababa. Because the cost distribution is skewed, we took the mean cost (0.02$ per capsule). Therefore, the total cost of metronidazole needed in the first alternative was 1.24$. Also, we found the cost of diloxanide furoate from 10 community pharmacies in Addis Ababa (the medication was not available in public facilities), and we used the mean cost (0.12$ per tablet).

We obtained laboratory examination costs from 10 private facilities in Addis Ababa (laboratory examination cost is subsidized in public facilities), and we used the mean cost (1.07$ per one examination). The physician visit cost (3.04$) was also the mean cost obtained from 10 private health facilities (physician visit cost is subsidized in public facilities).

In Ethiopia, amoebic patients are usually treated in health centers by health officers or nurses whose salary was 147$ per month, and the national average consultation time at the outpatient department was 10 minutes (from the expert opinion). Therefore, the cost for 10 minutes of consultation time was 0.03 US$. Also, the average stool examination time was 10 minutes (from the expert opinion) and, since the salary of the laboratory technician was the same as that of the health officer, the cost for 10 minutes examination time was 0.03 US$. We used the national average dispensing time (1.31 minutes) for calculating dispensing time cost.17 By taking the monthly salary of the dispenser (182.75US$), the cost of dispensing time was 0.006US$. Finally, we used the national average transportation cost (0.364$ per trip).14

Metronidazole costs 1.24 US$ alone while it costs 0.59US$ when given together with diloxanide. Diloxanide costs 3.77 US$ on the failure of metronidazole alone, while it costs 1.89 US$ together with metronidazole. Alternative two has a lower cost associated with physician visits, laboratory, health care providers, and transportation because all patients get cured on their first visit to the health facility (Table 2).

Table 2 Costs Parameters (US $)

Uncertainty and Sensitivity Analysis

There is uncertainty on the rate of effectiveness of diloxanide furoate (93%) for patients not cured with metronidazole alone. We found the data from the study conducted on homosexual men.18 However, studies reported the number of parasites on homosexual men is higher than the general population.3,15 Also, there is uncertainty on the rate of effectiveness of metronidazole plus diloxanide (100%). The study did not incorporate the confidence interval for the result.11 The other uncertainty was attached to the prices of medications. In the first alternative, the dose of metronidazole needed to treat amoebiasis is 800 mg three times a day. However, the metronidazole dose available in the country is 250 mg.9 Hence, we used 750 mg (3 capsules) of metronidazole to calculate the cost. Also, we took the price of 500 mg (2 capsules of 250 mg) metronidazole instead of 400mg in the second alternative. On the other hand, we found the price of diloxanide from private pharmacies only. We determined the impacts of these uncertainties in one-way sensitivity analyses. We varied the costs of the medications by 20% and the effectiveness of metronidazole and diloxanide by 14% and 7% respectively, for the sensitivity analysis input not to exceed 100%. We varied the effectiveness of metronidazole with diloxanide in one direction only because its effectiveness was 100%.

Results

Base Case Analysis

The expected cost and effect of alternative 1 (metronidazole alone) were 6.94 US$ and 0.99, respectively. On the other hand, the expected cost and effect of alternative 2 (metronidazole with diloxanide) were 7.02 US$ and 1, respectively. The incremental cost and effectiveness of metronidazole with diloxanide over metronidazole alone were 0.08 US$ and 0.01, respectively. The incremental cost-effectiveness ratio (ICER) was 8 US$ per amoebiasis case cured (Table 3, Figure 2).

Table 3 Outcome Values of the Decision Tree

Figure 2 A cost effectiveness plane comparing metronidazole alone with metronidazole plus diloxanide.

Sensitivity Analysis

In the one-way sensitivity analysis, the ICER was sensitive when the effectiveness of metronidazole with diloxanide varies to the lowest range. Metronidazole alone gives an extra expected effect of 0.19 (0.99–0.8) at the same expected cost of 7.02 US$. Therefore, metronidazole alone dominated the combination of metronidazole with diloxanide (Table 4).

Table 4 Results from One Way Sensitivity Analysis

Discussion

Based on this analysis, metronidazole with diloxanide was more effective and more costly with an ICER of 8 US $ per case cured. However, we did not explore if metronidazole with diloxanide is affordable by society. How much of this incremental cost is paid varies with different coverage criteria and reimbursement policies of each plan. The sensitivity analysis revealed the same when the price of the medications varies. However, the result changed when we reduce the effectiveness of metronidazole with diloxanide. We ignored the tolerability difference between the two alternatives in the calculations made. Because metronidazole is common to both alternatives, there are no incremental cost differences due to adverse effects. Besides, studies revealed that diloxanide is a tolerable medication when given alone or in combination with metronidazole.3,8,11,16

Limitation

This study did not incorporate the indirect costs. Besides, the results are not generalizable to children and pregnant women.

Conclusion

A transition to metronidazole with diloxanide is associated with higher expected costs and effectiveness. The poorer sections of the community may face problems in paying for the treatment. Therefore, the current preference for metronidazole alone over the combination may continue unless the country shifts some of its resources based on its specific health care needs and financial capacity.

Data Sharing Statement

The datasets used and analyzed during the current study are available from the corresponding author upon reasonable request.

Acknowledgments

The authors would like to thank experts from the Ethiopian Federal Ministry of Health and Pharmaceuticals Fund and Supply Agency. Community pharmacies and private health facilities in Addis Ababa are also highly acknowledged for their contribution to this work.

Disclosure

The authors declare that they have no competing interests concerning the publication of this article.

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