Evaluation of Mass Drug Administration Impact on Transmission of Lymphatic Filariasis in 13 Sanitary Districts in Burkina Faso

Introduction: Lymphatic filariasis (LF) is one of the neglected tropical diseases targeted for elimination as a public health issue in the world by 2020. To achieve this goal, one of the strategies is interruption of transmission using chemotherapy (mass drug administration). Burkina Faso in west Africa, an endemic country, has endorsed this resolution. In 2000, all Sanitary Districts (SD) in the country were endemic, and then a national elimination program has made it possible to stop mass treatment in 45 out of 70 SD over 12 years. Sixteen years later, 13 other SD were reeligible for Transmission Assessment Surveys (TAS). This study aimed to determine the current level of the Mass drugs Administration (MDA) impact indicators in these 13 targeted SD in order to decide whether we need to continue MDA. Method: It was a descriptive study that took place from June to September 2017 in 13 SD regrouped into 7 Evaluation Units (EU). The population of the study was 6 to 7 years old children. The community-based cluster survey method was used. The diagnostic test used to detect Wuchereria bancrofti’s circulating antigen (W. bancrofti) is the Filariasis Test Strip (FTS). The critical threshold of positivity was set at 18 positive subjects per EU. Results: We sampled a total of 12,060 children, 48.9% were female and 51.1% male. In the 7 EU, 13 children were positive to W. bancrofti test. The average antigenic prevalence was 0.11% (13/12,060). In all EU, the number of positive subjects was below the critical threshold. Conclusion: At the end of this evaluation of the transmission of lymphatic filariasis in 13 SD of Burkina Faso, we can tell the MDA How to cite this paper: Ouedraogo, N.A., Ouedraogo, S.M., Tapsoba, G.P., Bougma, W.R., Serme, M., Kima, A., Kaboret, N., Sangare, I., Bougouma, C. and Drabo, F. (2018) Evaluation of Mass Drug Administration Impact on Transmission of Lymphatic Filariasis in 13 Sanitary Districts in Burkina Faso. Journal of Cosmetics, Dermatological Sciences and Applications, 8, 185-194. https://doi.org/10.4236/jcdsa.2018.84020 Received: August 17, 2018 Accepted: October 19, 2018 Published: October 22, 2018 Copyright © 2018 by authors and Scientific Research Publishing Inc. This work is licensed under the Creative Commons Attribution International License (CC BY 4.0). http://creativecommons.org/licenses/by/4.0/ Open Access N. A. Ouedraogo et al. DOI: 10.4236/jcdsa.2018.84020 186 J. Cosmetics, Dermatological Sciences and Applications could be stopped in these areas without risk of resurgence of the disease, according to the current recommendations of WHO. This can be possible by setting up post-TMM surveillance, considering migratory flows, and including villages where positive cases were found to search possible residual transmission zones.


Introduction
Lymphatic Filariasis (LF) is a neglected tropical disease with vector-borne transmission. It is one of the diseases targeted by the World Health Organization (WHO) for elimination as a public health problem in the world by 2020. LF is endemic in 73 countries and about 1.39 billion people are at risk of infestation [1]. It is a parasitic disease that causes disabilities due to its chronic manifestations such as hydrocele, lymphoedema and elephantiasis. That is why LF is one of the leading causes of preventable disabilities in the world [1] [2]. Wuchereria bancrofti, Brugia malayi and Brugia timoris are the three parasitic species responsible for the disease. These parasites are transmitted to humans by the bite of mosquito: anopheles, culex, or aedes, depending on the zone. The interruption of transmission to prevent morbidity, as well as the management of the disabilities of those affected by the disease, are two components of WHO's elimination plan for filariasis. In order to stop transmission, WHO recommends the dispensation of combinated two drugs (ivermectin + albendazole) to all populations at risk in countries where there is co-endemicity with onchocerciasis. This strategy is known as "Mass Drug Administration (MDA)". MDA is a modality of preventive chemotherapy in which antihelminthic medicines are administered to the entire population of an area (e.g. state, region, province, district, subdistrict, village) at regular intervals, irrespective of the individual infection status.
The interruption of transmission involves four steps: mapping, MDA, post-MDA monitoring, and checking of elimination by Transmission Assessment Surveys (TAS) [2].  [4]. Sixteen years later, 13 other SD were eligible for this assessment. Have these districts also been able to reduce the prevalence of infection to a level where resurgence of the disease is unlikely, even without mass treatment? The aim of this study was to determine the current level of MDA impact indicators in the 13 targeted SD in order to decide whether the mass treatment should be discontinued or not.

Method and Patients
We carried out a descriptive cross-sectional study that ran from June to September 2017 in 13 SD of the country that met the eligibility criteria of the WHO  Table 1 shows the criteria used for the inclusion of SD.
The 13 SD have been regrouped into 7 Evaluation Units (EU) to meet the WHO criteria for evaluation below. All areas of an EU must share the same epidemiological features and a similar dynamic of LF transmission (epidemiological drug coverage, baseline prevalence, Mf or Ag prevalence at sentinel sites, point control sites, major LF parasites, and vector abundance). The population of the EU must not exceed two million inhabitants.

Sampling
The study population was 6 to 7 years-old children living in these EU. These children was born when MDA where already established. The positivity of the antigen test would be more indicative of a recent transmission of filarial infection than in adults who had previously been exposed to infection during their lifetime. Recruitment could be done in schools if the net school enrollment rate is higher than 75%, if not, it should be done in the community. Due to the low rate of schooling (<75%) in all evaluation units, we have recruited children in the community [2]. A cluster survey was conducted in each EU to form the sample.

Selection of Clusters
The enumeration areas (EA) from the last general population and housing census were retained as clusters.

Household Selection
All the households in the selected EAs were enumerated and numbered by the head nurses of the corresponding health facilities in a census book. Only households with numbers corresponding to the numbers provided by the SSB tool were surveyed.

Selection of Children
All children aged 6 to 7 present in the selected household and living in the region for at least 6 months were recruited in the study. They were subjected to a blood test for filarial antigenemia. The qualitative detection of circulating antigen of W. bancrofti was performed on a blood sample using the Filariasis Test Strip (FTS), which is recommended by WHO for its better sensitivity [6]. All Positive results had been confirmed by at least one additional assay.

Data Collection and Analysis
Data collection was ensured in each EU by a team of 4 investigators including a biomedical technician. Investigators were first trained in the use of the data collection tool and the technicians were trained to use the FTS tape.
The data collection was done by a survey, including socio-demographic and biological items of the children. Additional information (length of stay in the region and level of schooling) was collected from children with a positive result.
The data were entered with the Epi Info Version 7. During implementation, the teams were supervised on the spot with a supervision tool [6].

Interpretation of Results
The threshold value is the infestation prevalence threshold below which it is − If the number of positive cases is greater than the set threshold, at least two additional rounds of MDA should be performed.
The SSB tool was used to select the threshold value of 18 positive cases for each EU in this study [5]. This number is determinated automatically by the Survey Sample Builder (SSB) taking into account the sample size and the prevalence of microfilaraemia.

Ethical Considerations
The study protocol was submitted and approved by the ethics committee of the Ministry of Health. Consent was required from parents or the responsible adult before the inclusion of children in the study. Treatment with ivermectin and albendazole was administered free of charge to the children who were positive and to their immediate entourage.

Results
The 13 SD selected to participate to this study were Bogandé, Manni, Gayéri,   In all 7 EU, 13 children were tested positive on 12060 children, that means an average of 0.11% for filarial antigen prevalence of children born during MDA.
The number of children tested positive was below the critical threshold (18 positives) in each EU. Table 3

Discussion
This evaluation, carried out in 13 SD (regrouped in 7 EU) of Burkina Faso, shows an average filarial antigenic prevalence of children born during MDA of 0.11%. The number of children tested positive, was below the critical threshold (18 positive) in each of the 7 EU, which is consistent with the forecasts of the Neglected Tropical Diseases National Program. Actually, the results of the mid-term and pre-TAS surveys were very conclusive compared to the baseline prevalence ( Figure 1). For example, in the EU of Bogandé and Manni, we started from a prevalence of 23.90% to a mid-term prevalence of 1.80%, then 0.86% to the Pre-TAS; at the end the prevalence was 0% to TAS. Therefore in the 7 EU, the end of MDA could be effective without the fear of resurgence of the disease, according to WHO evaluations (no resurgence of infection was reported above the critical limit value where active transmission is likely to occur). The low number of positive cases per EU (1 to 4) reflects a significative reduction in the prevalence of infection in these EU compared to the EU that have achieved the same health survey of transmission in 2009 and 2012, during which the number of subjects tested positive reached 12 [7]. These results show the progress made in the interruption of transmission component and then, in the elimination of LF in Burkina Faso: the number of SD to be excluded from MDA in 2018 should be increased to 60 out of the total 70 SD in the country, which represent 88.7% of the country's population [7]. The efforts of the neglected tropical diseases program should now be focused the remaining 10 SD.
For the post-MDA period, the other possibility is a resurgence of the disease in these supposedly controlled zones. These resurgences could come from imported cases (migration), or residual foci of transmission of the disease [8].
In the EU where positive cases were reported, 2 children (out of the 13) were immigrants from Côte d'Ivoire, a neighbouring country of Burkina Faso. This raises problems of migration, one of the factors that can threaten the success of lymphatic filariasis control activities [9]. Migration (permanent or temporary) of people seeking a job or a well-being is a common and growing fact in developing countries. Several migration scenarios that can impact LF elimination efforts may be encountered [8]: − migration from endemic areas to non-endemic areas (rural or urban), − migration from endemic areas to areas that have controlled the disease − cross-border migration.
The last two cases are the ones concerning us: Migration from an endemic area to an area that controlled the disease within the country, and cross-border migration.
Burkina Faso is a migration country, the rural exodus towards the big cities, or more recently towards the mining zones. Thus, a migration of the endemic zones towards controlled areas is to consider because that could reintroduce the disease into these cleaned areas and the NTD program must be vigilant.
About cross-border migration, the first destination for Burkinabe immigrants is Côte d'Ivoire and also in the opposite direction, from Côte d'Ivoire to Burkina and is not only limited to border areas. The role of migrants in reintroducing transmission in "cleaned" areas would depend on several factors (climate, level of development of the country, etc.) [9] [10] [11] [12] [13]. The participation of vectors is also mentioned in the potentiality of the disease resurgence [9].
If the migrant arrives in an area where the vector cannot survive, the transmission is interrupted. The Persian Gulf countries are the destination of millions of workers from South and Southeast Asian countries, a very endemic region of the LF. The antigenemic prevalence of LF in immigrant workers in Kuwait is 18% to 20% and the prevalence of microfilariae is 3%. However, there has been no evidence of infection of indigenous people [8]. Actually, the difficult environmental conditions for vector survival and the economic prosperity of the Persian Gulf countries make difficult the indigenous transmission and establishment of active transmission foci [8]. Plus, the ability of Aedes vectors to transmit the parasite responsible for LF is comparatively higher than that of Culex and Anopheles vector species. Thus, in countries where Aedes is a vector, infected migrants could be a greater threat. In some countries in the South Pacific region, where Aedes is a vector, a resurgence of LF has been observed from very low levels of post-evaluation infection [9] [14] whilst in Trinidad, where C. quinquefasciatus is the vector, no reintroduction of FL was seen in a 21-year study [10] [11].
The SD of Gayeri and Pama, bordering Niger and Sebba bordering Togo and Benin have however registered no positive cases. This brings the thought that the border zone can be used as transit for the migrant, who does not always settle there.
The implementation of an LF elimination program as well as intensive moni-N. A. Ouedraogo et al.
toring and evaluation between the two countries is needed. Particular focus is needed in coordinating programs with health authorities of neighboring countries for better efficiency on both sides. The zones of high migration and the one that hosts the most population returning from endemic areas should be targeted, for a more regular control. We can work to make drugs available to migrants before entering in Burkina Faso.
The implementations of adequate post-MDA surveillance as well as the reinforcement of morbidity management in the concerned SD are the immediate challenges to be meet. Considering the villages that have recorded positive cases in the next surveys for the transmission of LF in these EU, will allow assessing the impact of the treatment of the positive cases and their entourage. It will also determine the existence of a residual focus of transmission.

Conclusion
At the end of this evaluation study of the transmission of lymphatic filariasis in 13 SD of Burkina Faso, we can affirm that the MDA can be interrupted in these zones without risk of resurgence of the disease, according to the current recommendations of WHO. That can be possible by setting up post-MDA surveillance, considering migratory flows, and including villages where positive cases were found to search for any residual transmission focus.