Conceived and designed the experiments: BG. Performed the experiments: BG. Analyzed the data: BG. Wrote the paper: EO VG MB. Participated in the study design and its coordination, data collection and analysis: ASG VHG MA MLEA VYB BG JG CK HAK SK DK JL MM GM AN RMRR TGS AW MAB RR EAO ACH.
The authors have declared that no competing interests exist.
Because lymphatic filariasis (LF) elimination efforts are hampered by a dearth of economic information about the cost of mass drug administration (MDA) programs (using either albendazole with diethylcarbamazine [DEC] or albendazole with ivermectin), a multicenter study was undertaken to determine the costs of MDA programs to interrupt transmission of infection with LF. Such results are particularly important because LF programs have the necessary diagnostic and treatment tools to eliminate the disease as a public health problem globally, and already by 2006, the Global Programme to Eliminate LF had initiated treatment programs covering over 400 million of the 1.3 billion people at risk.
To obtain annual costs to carry out the MDA strategy, researchers from seven countries developed and followed a common cost analysis protocol designed to estimate 1) the total annual cost of the LF program, 2) the average cost per person treated, and 3) the relative contributions of the endemic countries and the external partners. Costs per person treated ranged from $0.06 to $2.23. Principal reasons for the variation were 1) the age (newness) of the MDA program, 2) the use of volunteers, and 3) the size of the population treated. Substantial contributions by governments were documented – generally 60%–90% of program operation costs, excluding costs of donated medications.
MDA for LF elimination is comparatively inexpensive in relation to most other public health programs. Governments and communities make the predominant financial contributions to actual MDA implementation, not counting the cost of the drugs themselves. The results highlight the impact of the use of volunteers on program costs and provide specific cost data for 7 different countries that can be used as a basis both for modifying current programs and for developing new ones.
Lymphatic filariasis (LF), commonly known as elephantiasis, is a profoundly disfiguring parasitic disease caused by thread-like nematode worms. This disease can often be disabling, thus reducing the potential productivity of the affected individuals. The WHO places the number of people at risk in 83 countries at 1.307 billion. This study was undertaken in seven countries—Burkina Faso, Ghana, Egypt, Tanzania, the Philippines, the Dominican Republic, and Haiti—using a common protocol to determine the costs of mass drug administration (MDA) programs to interrupt transmission of infection with LF, because there is lack of sufficient information about the costs of these programs. The results demonstrate that LF MDA is affordable and relatively inexpensive when compared to other public health programs. In the context of initiatives for integrating programs for the control and elimination of neglected tropical diseases, this study adds specifically to the relatively scarce body of information about the costs of MDA programs for LF. It also adds to the general knowledge about the application of methods that can be used to estimate the costs and cost-effectiveness of an integrated approach.
Lymphatic filariasis (LF), commonly known as elephantiasis, is a profoundly disfiguring parasitic disease caused by thread-like nematode worms. The World Health Organization (WHO) places the number of people at risk in 83 countries at 1.307 billion.
The 1997 World Health Assembly resolved to eliminate LF as a public health problem after LF had been identified as one of only a small number of diseases classified as potentially eradicable.
Demonstrating that LF elimination is a cost-effective and affordable investment is essential for both Ministries of Health and potential donors as they choose among competing health needs. While several cost-effectiveness analyses have been conducted and one estimate for MDA in high prevalence areas gives a range of $4–8 per disability adjusted life year (DALY) averted,
Cost analyses aggregated in this report are based on studies in Burkina Faso, the Dominican Republic, Egypt, Ghana, Haiti, the Philippines, and Tanzania. Detailed analyses from two of these countries have already been published elsewhere.
Data collection and analysis were carried out by research teams in each of the participating countries. The cost analysis teams in Burkina Faso, Tanzania, and Ghana were part of the Ministry of Health. In Egypt the study was a joint effort between the Ministry of Health and Population and the Ain Shams University Research and Training Center on Vectors of Diseases. The Philippines' research team was based at the National Institutes of Health-Philippines. The Dominican Republic researchers at the Centro de Gerencia Social, Instituto Tecnologico de Santo Domingo worked with the Ministry of Health LF program. External consultants in Haiti worked with Ministry of Health LF program staff to collect and analyze cost study data.
Researchers from the participating countries collaborated with the Emory University LF Support Center in the development of a protocol (
The cost analysis identified both
Inputs | Economic Costs | Financial Costs |
Albendazole | ||
Bicycles | ||
Clinic space | ||
Computers | ||
DEC | ||
Donated materials | ||
Existing vehicle | ||
Food and refreshments | ||
Fuel and maintenance | ||
Mectizan® | ||
Office Space -MOH | ||
Office Space -rented | ||
Office Supplies | ||
Other drugs | ||
Printing | ||
Purchased vehicle | ||
Staff time | ||
Utilities | ||
Volunteer training per diem | ||
Volunteer time |
The protocol adopted a national program perspective because most resources dedicated to the LF MDAs were channeled through Ministry of Health (MOH) programs. Participants agreed to gather MDA costs, beginning with the year 2000, the first year of the LF global elimination effort. Costs were calculated in local currencies and converted to US dollars for the final analysis, based on average exchange values for the years being analyzed (base year 2002).
Most of the countries were still in the early stages of expanding their MDAs when the cost analysis studies began. The exception was Egypt where the MDA targeted almost 90% of the population at risk the first year and 100% the second year studied.
Project inputs defined in the protocol were: personnel, supplies and drugs (medications for the MDA and for treatment of adverse reactions), as well as capital and recurrent costs for equipment, transportation, and facilities. Each input was allocated to one or more categories of activities involved in accomplishing the MDA: training, mapping, mobilization and education, drug distribution, adverse reaction monitoring, surveillance/laboratory, and administration (
Activity | Definition |
Instruction of MOH personnel to carry out the administrative and functional activities of the MDA and instruction of volunteers to develop skills required for the MDA. | |
Testing to establish microfilaria and/or antigenaemia prevalence in communities. | |
Media campaigns and community activities to increase MDA participation. | |
Logistic aspects of management of the drugs as well as administration of the drugs to the population. | |
Observation and treatment of persons suffering adverse reactions due to the MDA. | |
Tracking of community members in MDA area, laboratory work for testing, case identification, etc. | |
Supervisory work and paperwork to support the MDA. | |
Costs related to LF, but not the MDA (excluded from cost calculations). | |
MOH costs not at all related to the MDA or to LF (excluded from cost calculations). |
Study sites were chosen purposively to be representative of the LF- endemic regions in the countries (
Country | Total Population (millions) | Estimated Population At-Risk for LF (millions) | Drugs Used | Areas Included in Cost Analysis | Drug Distribution Strategy |
Burkina Faso | 12.62 | 12.62 | Mectizan albendazole | 2001: Gaoua Region | NPELF is integrated in the health system. House-to-house by volunteers |
2002: Gaoua, Tenkodogo, Koudougou (2 of 5 districts) and Manga Regions | |||||
Dominican Republic | 8.62 | 1.5 | DEC albendazole | 2002–2003: Southwest area | Year 1: community distribution (house to house) |
Year 2: partial integration with primary health care system (house to house) | |||||
Egypt | 70.51 | 2.57 | DEC albendazole | 2000: Qalyubia, Menofia, Sharkia, K. El Sheikh, Dakahlia, Gharbia, Giza, Governorates | House-to-house by teams of doctors and nurses |
2001: same plus Assiut Governorate | |||||
Ghana | 20.47 | 6.02 | Mectizan | 2003: Ahanta West, Builsa and Lawra Districts | Distribution posts, house-to-house or combination of two by volunteers |
albendazole | |||||
Haiti | 8.22 | 6 | DEC | 2000–2003: Leogane | Distribution posts by program staff |
albendazole | 2002: Milot | ||||
Philippines | 78.58 | 23.5 | DEC | 2003: Sorsogon Province | Distribution posts, house-to-house by volunteers |
albendazole | |||||
Tanzania | 35.23 | 31.17 | Mectizan | 2000: Mafia District | First at distribution posts, then house-to-house follow-up by health care workers and volunteers |
albendazole | 2001: Mafia and Mkuranga Districts | ||||
2002: Mafia, Mkuranga, Masasi Districts | |||||
2003: Mafia, Mkuranga, Masasi and Kilwa Districts |
(World Health Organization 2002, World Health Organization 2003, World Health Organization 2004a).
Tanzanian investigators studied four districts located on the eastern coast, Kilwa, Mafia, Mkuranga and Masasi for the years 2000–2003. Data collection for the first three years was retrospective.
Data collected retrospectively in Burkina Faso documented the first two years of the MDA in the region of Gaoua in the first year and expansion into Tenkodogo in the second year.
The Philippines team chose to study seven municipalities and one city in the province of Sorsogon. These were selected based on filariasis endemicity using microfilaria rates, accessibility and population size. Half had high microfilaria rates (MF), half were easily accessible, while one quarter had large populations. In each municipality, one sentinel barangay or village was selected based on high MF rates and one to three adjacent barangays were also studied.
Cost data collection in Haiti was conducted in Leogane, where the first MDAs took place. Located 30 km west of Port-au-Prince in the south, Leogane is one of the highest risk areas in the country. Except for lower coverage in year-2 (2001) of the MDA program (because of side reactions that occurred after the first MDA) the program expanded not only in Leogane in 2002 but also to Milot, another high risk area just south of Cap Hatien in the north.
Researchers in the Dominican Republic collected cost data for the first two MDA campaigns. These were launched in Barahona on the southwest coast of the country.
The Ghana study costed three districts from the two epidemiological zones in the country, north and south. The districts were selected to reflect differing levels of program assistance. Builsa in the upper eastern region of the country received government support only, while Lawra in the upper west and Ahanta West on the west coast also received NGO support.
The cost analysis in Egypt covered the eight governorates along the Nile affected by LF. Costs were obtained for one district in each governorate and applied to the rest of the affected areas in the governorate based upon information about numbers of persons at risk, participating government personnel and quantities of medication distributed.
Data collection was both retrospective and prospective. The number of rounds of MDA costed per country ranged from one to four, with most countries costing two rounds. Countries developed national estimates for the program using data collected from a sampling of sites representative of the program (
The data were collected from national, regional and district levels of the health care system via pre-tested questionnaires and spreadsheets, sometimes with the assistance of other agencies such as Ministries of Agriculture and Information. As LF is but one of many population-based health programs, most inputs (including personnel time, facilities, equipment, supplies, vehicles and fuel) were often shared by more than one program, and costs were apportioned accordingly. To capture the actual costs and percentage of the resources dedicated to LF, the teams reviewed program records and interviewed LF program administrators and personnel about allocations of personnel and resource time per year. Government tax fees such as customs tax on the drugs and the road tax were excluded.
As indicated in
Country | Year | MDA round | Population at Risk in Current MDA Areas | Population Treated | Financial Cost ($US) | Financial per Person Treated ($US) | Economic Cost per Person Treated ($US) | MDA Coverage Rate (%) |
Burkina Faso | 2001 | 1 | 559,000 | 431,399 | $46,000 | 0.11 | 4.55 | 77% |
Burkina Faso | 2002 | 2 | 2,613,000 | 1,801,125 | $110,000 | 0.06 | 4.82 | 69% |
Ghana | 2002 | 2 | 1,650,000 | 1,223,122 | $1,358,000 | 0.17 | 4.88 | 69% |
Tanzania | 2000 | 1 | 40,800 | 37,000 | $20,000 | 0.54 | 5.16 | 91% |
Tanzania | 2001 | 2 | 182,000 | 118,220 | $50,000 | 0.42 | 5.82 | 65% |
Tanzania | 2002 | 3 | 537,000 | 437,698 | $118,000 | 0.27 | 4.56 | 82% |
Tanzania | 2003 | 4 | 687,000 | 511,671 | $133,000 | 0.26 | 4.53 | 75% |
Dominican Republic | 2002 | 1 | 142,000 | 115,411 | $216,000 | 1.87 | 3.10 | 83% |
Dominican Republic | 2003 | 2 | 333,000 | 250,059 | $217,000 | 0.87 | 1.56 | 75% |
Egypt | 2000 | 1 | 2,088,000 | 1,795,553 | $2,412,000 | 1.37 | 1.80 | 86% |
Egypt | 2001 | 2 | 2,638,000 | 2,320,602 | $3,109,000 | 1.00 | 1.34 | 87% |
Haiti (Leogane) | 2000 | 1 | 150,000 | 105,750 | $236,000 | 2.23 | n/a | 71% |
Haiti (Leogane) | 2001 | 2 | 150,000 | 79,713 | $156,000 | 1.96 | n/a | 53% |
Haiti (Leogane) | 2002 | 3 | 150,000 | 121,139 | $158,000 | 1.30 | n/a | 81% |
Haiti (Milot) | 2002 | 1 | 126,000 | 100,376 | $110,000 | 1.10 | n/a | 79% |
Philippines | 2003 | 3 | 691,000 | 556,912 | $105,842 | 0.19 | 0.40 | 81% |
Adjusted for peso devaluation.
Of the several trends that can be seen in
Identification of resource allocation by activity and input is a useful and informative outcome of this study.
The use of resources for different activities varied among countries, and
National Program | MDA Round | Training | Mapping | Mobilization/Education | Drug Distribution | Adverse Reaction Monitoring | Surveillance/Lab | Admin. |
Burkina Faso | 2 | 9% | 0% | 7% | 45% | 1% | 5% | 33% |
Ghana | 2 | 11% | 2% | 30% | 13% | 1% | 27 | 16% |
Tanzania | 4 | 20% | <1% | 28% | 40% | 0% | 3% | 8% |
Dominican | 2 | 0% | 5% | 89% | 2% | 4% | ||
Egypt | 2 | 4% | 11% | 2% | 47% | 5% | 12% | 19% |
Haiti | 2 | 5% | 25% | 49% | 4% | 12% | 4% | |
Philippines | 3 | 10% | 10% | 15% | 38% | 6% | 3% | 18% |
AVERAGE | 10.8 | 4.1 | 16.0 | 45.9 | 2.4 | 9.1 | 14.6 |
Major expenditures for mapping activities predated the years covered by the cost studies.
Average of district and central levels.
Haiti and the Dominican Republic distributed training costs across the activities.
Governorate level.
Analysis of financial costs by input, particularly useful for projecting budgets and for gauging the need for additional program support, again gave results varying appreciatively by country (
National Program | MDA Round | Equip/Facilities | Personnel | Supplies | Transportation |
Burkina Faso | 2 | 9% | 47% | 36% | 8% |
Ghana | 2 | 21% | 59% | 1% | 19% |
Tanzania | 4 | 24% | 45% | 17% | 14% |
Dominican Republic | 2 | 2% | 56% | 33% | 8% |
Egypt | 2 | 16% | 30% | 53% | 1% |
Haiti | 2 | 15% | 61% | 10% | 14% |
Philippines | 3 | 5% | 75% | 18% | 3% |
AVERAGE | 13.1 | 53 | 24 | 9.6 |
These cost analyses not only identified how program resources were allocated, but data also were used to identify sources and amounts of funding for 5 of the 7 study countries. Funding was categorized as coming from national governments (excluding external donations for LF), international organizations (IDAs, NGOs, WHO), pharmaceutical companies and local communities (
National Program | Year | National Government | International Organizations (IDA,NGO,WHO) | Pharma Companies | Community | |
Burkina Faso | 2002 | 39% | 61% | 0% | <1% | |
Tanzania | 2003 | 55% | 45% | 0% | <1% | |
Dominican Republic | 2003 | 9% | 91% | 0% | <1% | |
Egypt | 2000 | 80% | 20% | 0% | <1% | |
Philippines | 2003 | 99% | <1% | 0% | <1% | |
Burkina Faso | 2002 | <1% | <1% | 99% | <1% | |
Tanzania | 2003 | 3% | 2% | 95% | <1% | |
Dominican Republic | 1998–2003 | 46% | 42% | 9% | 3% | |
Egypt | 2000 | 72.5% | 11.5% | 16% | <1% | |
Philippines | 2003 | 48% | 3% | 46% | 3% |
Sensitivity analyses were conducted on the personnel input (data not shown) to gauge how much an increase in personnel costs would impact overall costs. Personnel was selected for sensitivity analysis because, with the exception of Egypt, this input represented the largest source of costs in the participating countries. Sensitivity analyses conducted on personnel input for Ghana and Burkina Faso demonstrated that increasing the proportion of personnel time dedicated to the LF MDA did not raise financial costs beyond the currently-calculated ranges, even under conditions where personnel time was doubled (Ghana - US$0.25 and Burkina - US$0.08) or tripled (Ghana - US$0.34 and Burkina - US$0.11). Additionally, a sensitivity analysis of personnel costs in the Philippines showed that personnel costs would remain well within the range of the current Financial costs (US$ 0.69) even if personnel time were doubled.
There were three principal study limitations. First, investigators frequently encountered problems in estimating the proportion of time and money allocated specifically to the LF MDA programs. Staff had not previously tracked time apportioned to LF-specific activities, and since LF programs are small in relation to other MOH initiatives (consuming anywhere from 1% to 5% a year in most countries), recall was problematic at times. Similar situations were encountered with respect to other resources such as transportation, facilities and equipment dedicated to LF. Second, interpretations of the definitions of certain activity categories sometimes differed among researchers applying the cost analysis protocol and data collection instrument. At times questions arose about allocation to one or the other of categories mentioned. Third, while study teams attempted to identify the original source of funds, the original funder may not have been correctly identified in all cases, especially where money was channeled through one or more intermediary sources.
Good cost analysis is essential to provide an evidence-based rationale for investing in LF elimination. The key target figure is the cost per person treated. Few results have been available to date,
One of the most striking findings of the present studies is the variability in the Financial cost per person treated. Differences in programmatic structure can account for some of these differences because each country tailors the LF elimination strategy for a best fit to local conditions. But beyond the program-specific differences, the principal determinants underlying the variability appeared to be: 1) the newness of the country program (
MDA program start-up years resulted in higher Financial and Economic costs per person treated than did subsequent years. Inevitably, there are more costs and reallocation of resources in the first year of a program. At the same time, new programs typically cover a limited geographic area and a relatively small population in their first year. As the population covered expands after the first year, the cost per person treated tends to drop.
In addition to extra expenditures in a start-up year as compared to other years, costs can also decrease over time because new cost-savings strategies are identified and implemented. For example, in the first MDA year in the Dominican Republic, health workers from non-governmental organizations participated in the MDA; these individuals were paid per diem for all of the time they participated, in some cases higher than the wages of workers in the health system. MDA integration into the health system contributed to the 50% decrease in the second year Program cost per person treated. Similarly in Haiti, after the first year cost analysis revealed that 22% of resources were dedicated to adverse reactions, the adverse reaction protocol was revised to an equally effective but less costly strategy. In the second year only 4% of resources were used for adverse reactions.
The use of volunteers had the greatest impact on costs. In Burkina Faso, Tanzania, Ghana, and the Philippines - where Program costs are lowest - health workers are employed down to the sub-district level, and volunteers, who are compensated very little in the LF program, work at the village level. Volunteers in these countries contribute a large proportion of the time dedicated to the MDA (frequently receiving per diem only for days in training) and at times provide their own transportation (e.g., Burkina Faso). However, while there is a strong relationship between the use of volunteers and lower cost per person treated, this does not suggest that any country choosing to use volunteers would see savings of 85%. Country-specific conditions that lead to the use of volunteers may also determine lower costs overall.
The use of volunteers leads to the question of how to accurately value the time volunteers ‘donated’ to each program. One traditional approach to valuing volunteer time is to apply the wage from the volunteer's normal paid employment and value their volunteer time accordingly. The problem with this, as pointed out by McFarland
In the country programs included in this study, a diverse group of individuals, comprising students, teachers, farm laborers, and elderly retirees, served as volunteers. Owing to this fact and the economic conditions in the participating countries, applying traditional methodologies for costing volunteer time may not be appropriate. After several countries explored volunteer participation in MDAs and the earning capacity of volunteers in their regular pursuits, a decision was made by the investigators in all participating countries not to include these costs. Therefore, while the study included the per diem paid to volunteers during training, it did not account for the opportunity cost of the volunteer's time dedicated to the MDA itself. The evaluation of the community contribution from countries which used volunteers is very definitely underestimated.
Program managers can control, to some extent, the use of volunteers and might explore this strategy in resource-constrained environments. Beyond the monetary savings, there is a benefit from connecting the program with volunteers who are opinion leaders from different community sectors. So while initially decisions to utilize volunteers might be financially based, countries ultimately can benefit not only from volunteers' labor but also from their connections to the communities in which they serve. However, program managers must bear in mind the competition for volunteers from other health programs which sometimes pay volunteers more for their efforts. The sensitivity analyses on personnel time devoted to the MDA point to the possibility that it may be worthwhile exploring opportunities to increase remuneration for volunteers. Indeed, both valuing and best utilizing volunteer time merit continued examination.
The third principal source of variation in cost per person treated was the size of the population treated, an element that can be controlled by program managers during program expansion. When programs scale-up, the cost per person treated drops, primarily because most of the overhead costs are associated with start-up costs at the national and district levels. Once the system has been established, the majority of the new costs are in the new area (district or governorate) that is being covered. In Burkina Faso and Tanzania the Financial costs per person were halved as the MDA covered larger populations. Between 2001 and 2002 Program costs in Burkina declined 45% while the population treated increased by over 400%. The progression in Tanzania between 2000 and 2003 was similar, with the Financial cost per person treated decreasing by 47% while the treated population increased over 13-fold. Between 2000 and 2001, the number of persons treated in Egypt increased 29%, while the Financial cost per person treated decreased 27%.
Such findings emphasize the need to keep current programs adequately funded so that these programs can expand and increase the number of persons treated and thereby capture the savings resulting from the economies of scale.
Once the principal determinants of the cost per person treated are identified, they can be used to manage program costs either by making internal changes within a program, such as scaling-up and increasing efficiency, or by taking advantage of existing external resources, as through integration. LF elimination programs can be integrated into the existing health system, as in the Dominican Republic, or with other preventive chemotherapy programs. For the LF elimination program, costs per person treated are within the range of those estimated for other similar disease control and elimination programs; namely soil-transmitted helminths ($0.25 per treatment
Also of particular interest from this study was the documentation of the substantial contributions (
Surveillance and mapping activities represented a significantly higher proportion of resource requirements in Egypt than in other countries (between 10% and 12% at both the national and governorate levels), since Egypt has selected small MDA implementation units, i.e. the village level, and hence focused on monitoring potential ‘at-risk’ areas closely in a large number of implementation units.
Tanzania's national program chose to invest heavily in social mobilization and education to assist the districts in raising awareness in the general population for current and future MDAs. The districts placed more emphasis on funding drug distribution and personnel training.
The principal aim of this study was to provide critical information regarding the cost of implementing MDA for the prevention of lymphatic filariasis. The study demonstrates that the costs of MDA programs for LF elimination are comparable to those estimated for other similar disease control and elimination programs. While some programs had costs per person treated of over a dollar, it was quite straightforward to identify those factors most affecting program costs.
Such findings can be used on a national scale for program planning, development and fundraising, and on a global scale for calculating current global costs, predicting scale-up costs and calculating savings from integration with other programs. These results also will form the basis for guiding cost-effectiveness and cost-benefit analyses, as more information on the effectiveness of MDAs in the study countries becomes available. Additionally, the analytic tool used in this study will be valuable for further studies of the LF elimination program including costing of LF disability alleviation activities and the process certifying LF elimination.
A further finding of particular importance was documentation of the impact that the use of volunteers has on program costs. Further research on how best to utilize volunteerism for such public health programs could contribute appreciably to ensuring success of the MDA-based programs and to anchoring them in the communities they seek to protect.
Finally, implementation of this study produced a number of ancillary program benefits. The process of defining and reviewing costs allowed for a review of operations at all levels (inputs, processes and outputs) that was also frequently used to assess efficiency. The findings provide the opportunity for the development of cost-effective implementation models built on best practices from each country; hopefully, these can be adopted and adapted by new programs from the start, particularly in Africa where almost 30 more endemic countries still need to initiate LF elimination programs.
Our gratitude to Marco Del Negro for review of the methods section.