Background
Thailand is a low-endemic area for lymphatic filariasis (LF). LF cases have only been reported among Thai residents in one southern province, and the country is in the process of verifying the elimination of the disease [
1]. However, the high degree of immigrant movement from LF-endemic countries to industrial areas of Thailand, together with an existing potential vector (
Culex quinquefasciatus)
, may result in the emergence of LF in these areas [
2‐
6]. High prevalence of Imported Bancroftian Filariasis (IBF) caused by the nocturnally periodic
Wuchereria bancrofti among Myanmar immigrants over recent decades [
4,
7] has spurred the Thai Ministry of Public Health (MoPH) to implement a countrywide biannual treatment program using 6 mg/kg of diethylcarbamazine (DEC) for all Myanmar immigrants to prevent IBF transmission [
8]. Multiple doses of DEC have shown long-term efficacy with microfilariae (MF) [
9‐
14] and macrofilariae [
11]. Due to low cost and minimal toxicity [
13,
14], two doses DEC with interval of 6 months is more feasible and cost-effective for preventing IBF transmission among highly mobile populations [
9‐
14].
To reduce the sources of LF infection effectively, DEC coverage among eligible immigrants must be >90 %, while the prevalence of MF antigen must be <1 % [
8]. The MoPH uses two strategies to deliver DEC biannually to immigrants: through general hospitals during work permit renewal, and through health center outreach to communities [
15]. Metropolitan areas commonly have high levels of population mobility and high numbers of undocumented immigrants, which may compromise DEC administration by cumulative delayed or missed doses [
12]. Moreover, convenient transportation may enable Myanmar immigrants to commute from the Myanmar border to metropolitan areas and serve as active sources of LF infection.
Therefore, this study aimed to evaluate biannual DEC administration and to identify barriers to DEC access among Myanmar immigrants in a metropolitan area. The findings of this study may provide insights regarding the situation of IBF control in areas where Myanmar immigrants are highly mobile and improve the effectiveness of DEC administration and IBF prevention & control programs in metropolitan areas.
Results
In total, 939 Myanmar immigrants were included in the study and 75 % of the study sample was received DEC only once annually. When asked when and where they obtained their drugs, all responded, “During physical examination for work permit renewal at the hospital”. The proportion of DEC access reported between documented immigrants (81.7 %) and undocumented immigrants significantly differed (5.1 %) (
P <0.001) (Table
1). Immigrants older than 50 years reported the lowest proportion of DEC (
P = 0.038). The proportion of DEC accessibility significantly differed between married, single and widowed (
P = 0.034). Of those employed monthly, 88.3 % had accessed DEC compared with 64.4 % of unemployed (
P < 0.001). A lower reported DEC intake was observed among immigrants who recently arrived in Thailand (≤12 months) than immigrants affirming longer lengths of stay (
P = 0.009). Finally, respondents living in fishing areas tended to access DEC at a significantly lower proportion (69.2 %) than those living in factory areas (81.2 %). Sex and educational status were not significantly associated with different proportions of DEC accessibility (Table
1).
Table 1
Accessibility of DEC by individual characteristics (n = 939)
Documented | | | | | | <0.001 |
Yes | 860 | 703 | 81.7 | 157 | 18.3 | |
No | 79 | 4 | 5.1 | 75 | 94.9 | |
Sex | | | | | 0.351 |
Female | 542 | 402 | 74.2 | 140 | 25.8 | |
Male | 397 | 305 | 76.8 | 92 | 23.2 | |
Age group (years) | | | | | | 0.038 |
<21 | 191 | 150 | 78.5 | 41 | 21.5 | |
21–30 | 338 | 243 | 71.9 | 95 | 28.1 | |
31–40 | 237 | 191 | 80.6 | 46 | 19.4 | |
41–50 | 116 | 86 | 74.1 | 30 | 25.9 | |
>50 | 57 | 37 | 64.9 | 20 | 35.1 | |
Marital status | | | | | | 0.034 |
Married | 652 | 478 | 73.3 | 174 | 26.7 | |
Other | 287 | 229 | 79.8 | 58 | 20.2 | |
Occupation | | | | | | <0.001 |
Unemployed | 267 | 172 | 64.4 | 95 | 35.6 | |
Employed monthly | 453 | 400 | 88.3 | 53 | 11.7 | |
Employed daily | 219 | 135 | 61.6 | 84 | 38.4 | |
Education status | | | | | | 0.405 |
None | 225 | 175 | 77.8 | 50 | 22.2 | |
Primary school | 481 | 358 | 74.4 | 123 | 25.6 | |
Secondary school | 215 | 163 | 75.8 | 52 | 24.2 | |
University | 18 | 11 | 61.1 | 7 | 38.9 | |
Length of stay in community (months) | | | | | | |
≤12 | 169 | 112 | 66.3 | 57 | 33.7 | 0.009 |
13–36 | 221 | 178 | 80.5 | 43 | 19.5 | |
37–60 | 157 | 123 | 78.3 | 34 | 21.7 | |
>60 | 392 | 294 | 75.0 | 98 | 25.0 | |
Living zone | | | | | | <0.001 |
Factory area | 478 | 388 | 81.2 | 90 | 18.8 | |
Fishery area | 461 | 319 | 69.2 | 142 | 30.8 | |
Five interviewed health personnel reported that two general hospitals were responsible for providing DEC to all immigrants during physical examination at the hospitals. In addition, they had not been involved in DEC administration for longer than ten years. None of the health personnel had delivered a second dose to Myanmar immigrants.
Multiple logistic regression analysis was used to examine obstacles to DEC access among the Myanmar immigrants. The results showed that undocumented immigrants were 74.23 times more likely to have obstacles to DEC access than documented immigrants (95%CI = 26.32–209.34), while unemployed and daily employed participants had substantially greater obstacles to DEC access compared with participants employed monthly (OR = 5.09; 95%CI = 3.39–7.64 and OR = 4.33; 95%CI = 2.91–5.46, respectively). Short term Myanmar immigrants, and those living in fishery areas were more likely to suffer obstacles to DEC access than other groups (OR = 1.62; 95 % CI = 1.04–2.52 and OR = 1.57; 95%CI = 1.01–2.26, respectively) after adjusting for age, sex, educational status and marital status (Table
2).
Table 2
Factors associated with lack of access to DEC
Documented | | | | |
Yes | 1 | 1 | | |
No | 83.96 | 74.23 | 26.32–209.34 | <0.001 |
Occupation | | | | |
Employed monthly | 1 | 1 | | |
Unemployed | 4.70 | 5.09 | 3.39–7.64 | <0.001 |
Employed daily | 4.17 | 4.33 | 2.91–6.46 | <0.001 |
Length of stay in community (months) | | | | |
≤12 | 1.53 | 1.62 | 1.04–2.52 | 0.032 |
13–36 | 0.73 | 0.78 | 0.78–0.50 | 0.262 |
37–60 | 0.83 | 0.87 | 0.54–1.40 | 0.560 |
>60 | 1 | 1 | | |
Living zone |
Factory areas | 1 | 1 | | |
Fishery areas | 1.92 | 1.57 | 1.09–2.26 | 0.015 |
Discussion
The overall coverage of DEC among immigrant was 75 %. The proportion of documented and undocumented immigrants who have received DEC equaled 81.7 % and 5.1 %, respectively. A similar level of coverage was reported in southern Thailand [
12,
15,
16].
Low DEC accessibility was also found in the fishery areas and was likely related to the higher proportion of undocumented immigrants (13 %), compared with factory areas (3.9 %). The low DEC coverage might have resulted from DEC-administration practices, namely, DEC was provided by two general hospitals during health examinations for the renewal of work permits. Even though health centers were designated one of the two strategies to deliver bi-annual DEC to immigrants according to national guidelines [
8,
15], no health center reported DEC administration. This fact indicated a lack of DEC access among undocumented immigrants who mostly used health center services.
Undocumented immigrants commonly accessed healthcare services at general hospitals less because of their illegal status [
17‐
19]. Additionally, undocumented immigrants living in fishery areas mostly worked on fishing vessels, and frequently went to sea for months at a time resulting in untreated DEC. Undocumented immigrants receiving only a single annual DEC treatment can gain partial protection against microfilariae, but not macrofilariae [
9,
10].
The suboptimal DEC administration may not interrupt IBF transmission in areas with high population movement from endemic areas. Local health personnel, responsible for the LF program, face a great challenge. They must disseminate health information to undocumented immigrants and their employers that multiple DEC treatment is a key factor to prevent LF transmission and benefits the health of their employees. The high movement of Myanmar immigrants has suggested the need to strengthen the surveillance system for LF at border checkpoints and immigration stations regarding the national policy for border health prevention and control [
20].
No immigrant who received the first round of DEC received a second dose. The Thai helminthiasis-control DOTS policy requires Myanmar immigrants to ingest a single dose of 300 mg DEC and 400 mg albendazole in front of the nurse during physical examination for work permit renewal. This drug combination completely eradicates both microfilariae and macrofilariae [
9,
10,
21]. Due to the policy, we expected 100 % DEC coverage among documented immigrants. Apparently, DEC intake during work permit renewal has not been strictly enforced because the reported DEC coverage among documented immigrants did not reach expectations. Therefore, the national LF program should strengthen monitoring and evaluation at general hospitals.
Factors associated with DEC inaccessibility included being undocumented, employed daily, unemployed, short-term immigration and living in a fishery area. Being an undocumented immigrant was strongly associated with impeded DEC access. This finding may be related to undocumented immigrants’ fear of accessing healthcare services because of their undocumented status [
18‐
20]. A significant association was found between being unemployed or employed daily and impeded DEC access, consistent with previous studies conducted in southern Thailand [
12,
15,
16]. This can be explained by the socioeconomic status of these groups of immigrants. Unemployed immigrants and immigrants employed daily had low education levels and limited incomes. They barely visited hospitals because of potential lost income and time [
20]. The low DEC coverage among short term immigrants and those living in fishery areas confirmed the results of other studies [
12,
16]. They were highly mobile, resulting in reduced access to healthcare services [
12,
16,
18]. Moreover, negative perceptions about the side effects of DEC were reported among the Myanmar immigrants, which created another barrier to DEC administration in this area.
This study found that hospital-based administration of DEC is inappropriate in areas with high proportions of undocumented immigrants and highly mobile populations. Thailand has a well-developed healthcare infrastructure. At lower levels of health services delivery such as health centers personnel work actively on disease prevention and control and generally know the community context rather well. Health-center personnel can identify the homes of all community members and easily deliver DEC to undocumented immigrants [
22‐
25]. In Thailand, almost all undocumented immigrants are daily employed workers living in fishery areas. Therefore, local health personnel can target active DEC delivery in this group. Moreover, health-center personnel work closely with community leaders and members, and can improve the perceptions and understanding of DEC administration among Myanmar immigrants and their employers. Health personnel can reduce fears about illegal status among undocumented immigrants because they normally live in the area and are familiar with community members, such as their employers [
23,
25]. As a result, including health centers in DEC administration should improve both accessibility and coverage. In addition, the national LF program should strengthen close surveillance and monitoring of LF programs in highly mobile populations.
Conclusion
Our study revealed that the IBF component of the Thai National Program to Eliminate Lymphatic Filariasis in study site did not achieve the desired goals as hospital-based DEC administration did not reach undocumented and short term Myanmar immigrants. Moreover, such a strategy was unable to provide DEC to Myanmar immigrants bi-annually, according to policy. To increase DEC coverage, health center-based DEC administration is suggested as a more effective way of reaching undocumented immigrants.
Acknowledgements
The researchers would like to thank to all the immigrants who responded and the public health personnel in Samut Sakhon Province and the Department of Vector-Borne Diseases. This study was funded and partially supported for publication by the China Medical Board (CMB), Faculty of Public Health, Mahidol University, Bangkok, Thailand.
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http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
Competing interests
The authors declare they have no conflicts of interest pertaining to this article.
Authors’ contributions
TT participated in developing the proposal and carried out data collection. MT designed the study, developed the proposal, analyzed the data and drafted the manuscript. NS and SS conceived the proposal and the manuscript. All authors read and approved the final manuscript.