- Open Access
Malaria baseline survey in four special regions of northern Myanmar near China: a cross-sectional study
© Wang et al.; licensee BioMed Central Ltd. 2014
- Received: 26 May 2014
- Accepted: 31 July 2014
- Published: 7 August 2014
Epidemiological data in the border area of the northern Myanmar near China are either of little accuracy or sparse of information, due to the poor public health system in these areas, and malaria cases may be severely underestimated. This study aimed to investigate malaria prevalence and health facilities for malaria services, and to provide the baseline information for malaria control in these areas.
A cluster, randomized, cross-sectional survey was conducted in four special regions of northern Myanmar, near China: 5,585 people were selected for a malaria prevalence survey and 1,618 households were selected for a mosquito net-owning survey. Meanwhile, a total of 97 health facilities were surveyed on their malaria services. The data were analysed and descriptive statistics were used.
A total of 761 people were found positive through microscopy test, including 290 people for Plasmodium falciparum, 460 for Plasmodium vivax, two for Plasmodium malariae, and nine for mixed infection. The average prevalence of malaria infection was 13.6% (95% CI: 12.7-14.6%). There were significant differences of prevalence of malaria infection among the different regions (P < 0.01); 38.1% (95% CI: 28.3-48.0%) of health facilities had malaria microscope examination service, and 35.1% (95% CI: 25.4-44.7%) of these had malaria treatment services, 23.7% (95% CI: 15.1-32.3%) had malaria outreach services. 28.3% (95% CI: 26.1-30.6%) of households owned one or more long-lasting insecticidal bed nets (LLINs).
The prevalence of malaria infection was high in the four special regions of northern Myanmar, near China. Malaria services in health facilities in these areas were weak. ITNs/LLINs owning rate was also low. The cross-border cooperation mechanism should be further strengthened to share the epidemical data about malaria, support technical assistance, and conduct joint malaria control or elimination activities.
- Health facility
- Long-lasting insecticidal bed nets
- Special regions
Malaria is one of the most serious parasitic diseases in Myanmar, with more malaria deaths than any other country in Southeast Asia. According to the World Health Organization’s (WHO) Malaria Report, malaria incidence was 10.8% in 2008 . On the border of Myanmar, the high malaria burden population usually serves as a large reservoir of infection and likely constitutes a source of infection for neighbouring countries . For example, malaria prevalence in Myanmar migrants in Thailand is up to 20 times that of Thai local residents . In the border area of northern Myanmar, near China, malaria burden is particularly high and malaria outbreaks occur frequently. Malaria outbreaks in November 2003 in Special Region 1st (Kokang), Shan State resulted in the death of more than 100 people in 30 villages and sporadic outbreaks in 14 villages in three counties, Yunnan Province, and China .
Epidemiological data are either inaccurate or sparse of information on the border regions, due to the poor public health system in the remote border area of Myanmar; the malaria burden may be severely underestimated . Surveillance and reporting systems for malaria incidence are relatively very weak, and information concerning malaria is insufficient. It is important to analyse the malaria burden in these areas for malaria control programme planning.
In order to describe malaria prevalence and health facilities’ malaria services in the border area of northern Myanmar, near China, a cross-sectional study was conducted in four special regions (targeted for Global Fund malaria project) in Myanmar, including the Special Region 2nd (KR2), Kachin State; Special Region 1st (Kokang), Shan State; Special Region 2nd (Wa), Shan State; and, Special Region 4th (SR4), Shan State, which are considered the malaria-endemic regions.
Study population and sampling design
This cross-sectional study was conducted between January and March 2008, the dry season in Myanmar. Most of the local residents in the four special regions are ethnic minorities (Kachin, Wa, Kokang, Dai, Lahu, Bulang and Hani). Kachin ethnic minority is the main ethnic in KR2 region, Kokang ethnic minority in Kokang region, Wa ethnic minority in Wa region, and Dai ethnic minority in SR4. Due to the lack of official population statistics, the total population estimated 545,000 (about 67,000 in KR2, 129,000 in Kokang, 277,000 in Wa, and 72,000 in SR4).
There are a total of 46 districts/counties in the four special regions. The study population was obtained using multistage cluster sampling. Firstly, the villages were divided into three categories (representing high, middle and low malaria epidemics, based on the malaria data in recent years from 30 health facilities set up by Health Poverty Action) in every district/county. Secondly, one village was selected randomly from each category, and three villages were selected in every district/county. The proposed sample size was based on a balance of operational feasibility and costs. Everyone in selected village was invited to take part in the malaria prevalence study. The participation rate was >85%; some villagers refused participation and some villagers were not at home, these were excluded from the study. Finally, 5,585 people for malaria prevalence and 1,618 households for mosquito net-owning status were surveyed using this approach. Meanwhile, a total of 97 health facilities, excluding private clinics and drugstores, in the four special regions were surveyed on their malaria control services.
The drafts of questionnaires and their completion instructions were developed based on the local situation in the special regions. A meeting was held with the participation of a group of malaria experts and investigators. The contents of the questionnaire were reviewed and modified as necessary in the meeting. Three questionnaires were used for survey: registration for microscopic examination, insecticide-treated bed nets (ITNs/LLINs) questionnaire for households, and a malaria service questionnaire for the health facilities. Demographic information comprising code, village, district/county, and individual information on name, gender and age were included in the microscopic examination registration. The ITNs/LLINs questionnaire comprised household size and the number of ITN/LLINs. The malaria service questionnaire mainly included information on malaria diagnosis, treatment, reporting, and ITN/LLINs distribution at the health facility.
Data collection and quality control
The survey was conducted by six teams composed of one team leader, three investigators (microscopist, interviewer, translator) and a driver. Before the survey, all the team leaders and investigators received one week’s combination training. All the data were gathered by the investigating teams. Experienced microscopists were selected for taking and examining blood smears. The smears were read by one experienced microscopist. Once the positive smear was found, another microscopist would recheck it. One thick smear and one thin smear were made for each person, and smears were stained with Giemsa.
The quality of survey was supervised and monitored daily by a team leader at regional focal points to ensure the quality and quantity of data collected. The questionnaire and checklist was reviewed. Meanwhile, for the malaria prevalence survey, 20% of negative smears and 10% of positive smears were randomly checked by expert microscopists. The coincidence rate of negative slides was 89% (969/1092) and that of positive slides was 100% (70/70). Using Epidata3.1 software, all data were typed into a designed database and rechecked step-by-step.
The descriptive statistics and differences in distribution were evaluated using the Chi-square (χ2) test by SPSS version 17.0 and P <0.05 was considered statistically significant.
The study was reviewed and approved by the Ethical Committee of National Institute of Parasitic Diseases (NIPD), Center for Disease Control and Prevention (CDC). Informed consent was obtained from each respondent before conducting survey. Moreover, personal data of respondents were coded and kept as strictly confidential information. If the positive slide was detected, individuals testing positive would be treated with anti-malarials. The individuals with Plasmodium vivax were treated by chloroquine/primaquine; the other infected individuals were treated by ACT.
Characteristics of study population and health facility
Demographic characteristics of residents surveyed in four special regions (n = 5,585)
KR2 (n = 1,277)
Kokang (n = 1,400)
Wa (n = 1,535)
SR4 (n = 1,373)
Total (n = 5,585)
A total of 1,618 households (332 households from KR2, 449 from Kokang, 366 from Wa, and 471 from SR4) were interviewed on ITNs/LLINs ownership. Data for malaria services (diagnosis, treatment, reporting, and ITN/LLINs distribution) were collected from 97 health facilities, which were set up by the local governments and international non-government organizations (NGOs), but excluded private clinics and drug shops in the four special regions.
Prevalence of malaria infection
Prevalence of malaria infection in four special regions (n = 5,585)
P. f: P. v
Prevalence of malaria infection by age and sex
0 ~ 5
6 ~ 9
10 ~ 19
20 ~ 49
Malaria services in health facilities
In 97 health facilities of the four special regions, 38.1% (95% CI: 28.3-48.0%) of health facilities had malaria microscope examination service for fever patients, 35.1% (95% CI: 25.4-44.7%) of those had malaria treatment services for malaria cases, 23.7% (95% CI: 15.1-32.3%) of those had malaria outreach services (i e, mobile, health education). Meanwhile, 32.0% (95% CI: 22.5-41.4%) of health facilities could report malaria case information.
Malaria services in health facilities
Percentage of health facilities which had malaria services? (%)
Case report system
Malaria control activities in 2007
Fever patients received microscopy examination
Fever patients received RDT diagnosis
Malaria case received treatment appropriately
Household ITNs/LLINs ownership
Ownership of ITNs/LLINs in four special regions
Household owning LLINs
Owning rate (%)
Border malaria is one of the obstacles in malaria control for many countries . In four special regions of northern Myanmar, which were conflict or potential conflict areas, the local ethnic minorities are politically, economically, culturally, and geographically marginalized from the society of Myanmar , and therefore the health system of the four special regions is very weak. Only a few hospitals are set up in towns, and only few malaria control activities were conducted in the villages due to lack of investment and the complex relationship between the central and local government. Malaria control in the four special regions was still in the non-planning stages. The poor capacity on malaria in the health facilities led to weak malaria services in these areas. The malaria control network should be strengthened as a priority. There was a lack of experienced health workers and medical equipment, and the technical training for the local health workers on diagnosis, treatment and case reporting should be conducted to improve access to early and accurate diagnosis and treatment for malaria. Meanwhile, there were some international NGOs conducting malaria control activities, such as LLIN distribution, which may play an important role in the malaria control.
Information about malaria epidemiology in the four special regions is very sparse [8, 9]. This survey provided some data on malaria prevalence in the four special regions, which showed malaria prevalence was high. Plasmodium falciparum and P. vivax are the major malaria infections, mixed species infections (P. vivax/P. falciparum) and P. malariae infections are very low. The prevalence among children was higher than adults in these special regions, which was consistent with studies in some areas of Cambodia, Laos [10, 11]. There were a little difference between males and females for malaria prevalence, which differ from some surveys Southeast Asia. These studies show that prevalence of male adults was higher the other peoples due to forest related activities . The risk factor and reason of sex distribution of asymptomatic malaria in the four special regions couldn’t be discovered, due to lack of behaviour data. In the future, the behaviour survey should be included the malaria survey.
The proportion of P. vivax to P. falciparum infection was higher than that of malaria cases recorded in hospitals. The prevalence of P. vivax infection may be underestimated. The ethnic minorities in these areas have little access to routine health care service and would like malaria treatment to be available from the retail sector [6, 13], and the patients with P. vivax infection probably seek treatment less than patients with P. falciparum.
These special regions in northern Myanmar are near the Yunnan Province, China, whereas many malaria cases are probably imported from Myanmar [14, 15]. Cross-border behaviour was considered as high risk for malaria control in the border countries . The cross-border cooperation mechanism in the border area should be further strengthened to share the epidemiological data about malaria, support technical assistance and conduct joint malaria control or elimination activities [17–19].
LLIN is an effective preventative measure in many malaria-endemic countries [20, 21]. LLINs owning rate of household in the four special regions was very low, more and more LLINs should be distributed freely to the local villagers to protect from malaria infection. During the household interviews, it was found that some families did not use the LLINs distributed three years ago. It is suggested that malaria health education should be carried out to promote the use of LLINs .
In four special regions, the comprehensive interventions should be provided, such as bed nets, anti-malarial drugs, and vector control and health education. And there the local health systems and surveillance capabilities should be strengthened.
There are mountainous in these special regions and universal survey is difficult to be conducted because of funds and human resources. For sample survey, little malaria data and lack of official population statistics were big challenges. The sample villages were selected based on the malaria data from 30 health facilities by one NGOs (HPA). Then sampling bias may come from the preliminary data.
The sensitivity of microscopy declines rapidly at low parasite concentrations typical of asymptomatic infections . PCR method was much more sensitive than microscopy in detecting malaria infections . So the result in four special regions may be under-estimate the prevalence of infection. Additional studies are needed to estimate the implications of malaria activities conducted by the private clinics and drug shops.
Since 2008, the civil political situation had been changed and armed conflict recurred in Myanmar. The artemisinin resistance programmes were supported to control resistant parasites in Great Mekong regions. The international assistance from Global Fund, the Bill & Melinda Gates Foundation had dramatically increased in Myanmar. The prevalence data in four special regions over six years ago, as the historical information, will contribute to assess the above change.
The prevalence of malaria infection was high and malaria services in health facilities were weak in the four special regions of the northern Myanmar, near China. The cross-border cooperation mechanism should be further strengthened to share the epidemical data about malaria, support technical assistance, and conduct joint malaria control or elimination activities.
This work was supported by the Global Fund to Fight AIDS, Tuberculosis and Malaria (Grant No. CHN-607-G09-M). The authors thank the dedicated health workers from local health facilities and Health Poverty Action (HPA) of the four special regions, who made this work possible.
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