Skip to main content
Advertisement
Browse Subject Areas
?

Click through the PLOS taxonomy to find articles in your field.

For more information about PLOS Subject Areas, click here.

  • Loading metrics

Social and Cultural Factors Affecting Uptake of Interventions for Malaria in Pregnancy in Africa: A Systematic Review of the Qualitative Research

  • Christopher Pell ,

    Christopher.pell@gmail.com

    Affiliations Centre de Recerca en Salut Internacional de Barcelona (CRESIB), Hospital Clínic-Universitat de Barcelona, Barcelona, Spain, Centre for Global Health and Inequality, University of Amsterdam, Amsterdam, The Netherlands

  • Lianne Straus,

    Affiliation Centre de Recerca en Salut Internacional de Barcelona (CRESIB), Hospital Clínic-Universitat de Barcelona, Barcelona, Spain

  • Erin V. W. Andrew,

    Affiliation Centre de Recerca en Salut Internacional de Barcelona (CRESIB), Hospital Clínic-Universitat de Barcelona, Barcelona, Spain

  • Arantza Meñaca,

    Affiliation Centre de Recerca en Salut Internacional de Barcelona (CRESIB), Hospital Clínic-Universitat de Barcelona, Barcelona, Spain

  • Robert Pool

    Affiliations Centre de Recerca en Salut Internacional de Barcelona (CRESIB), Hospital Clínic-Universitat de Barcelona, Barcelona, Spain, Centre for Global Health and Inequality, University of Amsterdam, Amsterdam, The Netherlands

Abstract

Background

Malaria during pregnancy (MiP) results in adverse birth outcomes and poor maternal health. MiP-related morbidity and mortality is most pronounced in sub-Saharan Africa, where recommended MiP interventions include intermittent preventive treatment, insecticide-treated bednets and appropriate case management. Besides their clinical efficacy, the effectiveness of these interventions depends on the attitudes and behaviours of pregnant women and the wider community, which are shaped by social and cultural factors. Although these factors have been studied largely using quantitative methods, qualitative research also offers important insights. This article provides a comprehensive overview of qualitative research on social and cultural factors relevant to uptake of MiP interventions in sub-Saharan Africa.

Methods and Findings

A systematic search strategy was employed: literature searches were undertaken in several databases (OVID SP, IS Web of Knowledge, MiP Consortium library). MiP-related original research, on social/cultural factors relevant to MiP interventions, in Africa, with findings derived from qualitative methods was included. Non-English language articles were excluded. A meta-ethnographic approach was taken to analysing and synthesizing findings. Thirty-seven studies were identified. Fourteen concentrated on MiP. Others focused on malaria treatment and prevention, antenatal care (ANC), anaemia during pregnancy or reproductive loss. Themes identified included concepts of malaria and risk in pregnancy, attitudes towards interventions, structural factors affecting delivery and uptake, and perceptions of ANC.

Conclusions

Although malaria risk is associated with pregnancy, women's vulnerability is often considered less disease-specific and MiP interpreted in locally defined categories. Furthermore, local discourses and health workers' ideas and comments influence concerns about MiP interventions. Understandings of ANC, health worker-client interactions, household decision-making, gender relations, cost and distance to health facilities affect pregnant women's access to MiP interventions and lack of healthcare infrastructure limits provision of interventions. Further qualitative research is however required: many studies were principally descriptive and an in-depth comparative approach is recommended.

Introduction

Malaria during pregnancy (MiP) is a major global health concern, resulting in adverse birth outcomes and poor maternal health [1]. In 2007, worldwide, over 125 million pregnancies occurred in areas of malaria transmission [2]. However, the morbidity and mortality caused by MiP is most pronounced in endemic regions of sub-Saharan Africa [3]. MiP compounds or provokes maternal anaemia, which when severe, increases the risk of maternal death: it has been estimated that malaria-related anaemia causes around 10 000 maternal deaths annually [4]. MiP can also result in low birth weight (estimated to cause around 100 000 infant deaths in Africa [4]), pre-term delivery, congenital infection and reproductive loss [3].

In spite of its significance for maternal and infant health, MiP has been viewed as a neglected area of study [5]. The MiP Consortium was therefore established to address the need for coordinated research on MiP. This global initiative, made up of 47 institutions, is undertaking a five-year programme of research (2007–2012) to evaluate new and to improve existing interventions for the prevention and treatment of MiP [6]. This review is part of the social science component of the consortium's Public Health Impact theme.

The suitability of MiP interventions depends primarily on the local disease context and prevailing levels of drug resistance. Current recommended malaria prevention for pregnant women in areas of stable moderate to high transmission include the administration, after quickening, of at least two doses of intermittent preventive treatment (IPTp) as part of routine antenatal care (ANC) [7]). In spite of questions posed by increasing resistance and other concerns, due to the lack of available efficacy and cost effectiveness data for other drugs and its consistent effectiveness [8], Sulfadoxine pyrimethine (SP) is currently used for IPTp in many sub-Saharan African countries [9]. The WHO also recommends that pregnant women receive insecticide treated bednets (ITNs), preferably long-lasting insecticide-treated nets (LLINs), as part of routine ANC, and that they are used throughout pregnancy [10]. Current recommended therapies for appropriate MiP case management include (for uncomplicated falciparum malaria) quinine/artesunate plus clindamycin and locally effective artemisim combination therapies (ACTs) [11]. The most appropriate treatment however depends on gestational age, the malaria species and severity, local patterns of drug resistance and drug availability [12].

Coverage targets set for MiP interventions have commonly not been met and challenges are yet to be overcome to ensure their effectiveness. The Roll Back Malaria “Abuja” target set in 2000 aimed for 60% coverage of recommended MiP prevention and treatment by 2005 [13] and was subsequently increased to 80% by 2010 [14]. However, data from 2004 to 2009 suggests that, in spite of national policies for prevention and control of MiP (and the limitations and scarcity of available nationally representative survey data), insufficient progress has been made towards the targets for coverage of IPTp and ITN use during pregnancy: 25% of pregnant women received at least one dose of IPTp and, overall, coverage was lowest in areas of highest malaria transmission [15].

The effectiveness of MiP interventions, as is the case of all health interventions, not only relies on their clinical efficacy, but also on a range of factors, such as the attitudes and behaviours of target groups, and of the wider community (including those implementing interventions) [16]. Attitudes and behaviours towards interventions are often shaped by social and cultural factors and such factors are particularly relevant to the demand for and supply of MiP interventions: attitudes towards and understandings of pregnancy, pregnancy care, malaria and other illnesses can interact and influence how, where and when pregnant women seek malaria prevention and treatment. Furthermore, the social and cultural context has important implications for the provision of malaria prevention or treatment, whether as part of routine ANC at a health facility or care sought from a local healer [17].

Data on knowledge and perceptions of MiP and the response to MiP interventions have generally been collected using (more) quantitative methods, such as questionnaires, with comparatively little research based on (more) qualitative methods (for example, in-depth interviews, focus group discussions or participant observation) focusing on MiP [5], [17], [18], [19]. Examples of findings from questionnaire-based research include: women's limited knowledge about the health consequences of MiP [20]; ANC health workers' lack of familiarity with IPTp [21], [22]; and the association of sleeping under a bed net when pregnant [23], [24], [25], [26] or receiving IPTp [27] with education and/or wealth. However, qualitative research that situates behaviour in its context is also necessary in order to give insight into complexities highlighted by quantitative research. For example, surveys in Malawi and Kenya have revealed high ANC attendance (88% and 74% respectively), yet a far lower proportion of women receive two doses of IPTp with SP (44% and 22% respectively) [27], [28]. In this case, a qualitative approach could supplement quantitative research by exploring the factors that affect uptake of MiP interventions even when pregnant women reach the clinic for ANC. Qualitative research is therefore an important tool to inform policies aimed at meeting the updated Abuja goals for recommended MiP prevention and treatment [14].

Reviews of the social science literature on malaria control and prevention in sub-Saharan Africa have revealed the increasingly important role of the social sciences in the study of behaviours related to the diagnosis, treatment and prevention of malaria in sub-Saharan Africa [18], [29], [30]. Yet the reviews also identify significant research gaps and a lack of translation of findings, particularly from qualitative research, into policy [18], [19], [29]. These reviews are not however focused on pregnant women; the only review of the social science literature on MiP relied on personal fieldwork experience and a non-systematic search strategy to develop models for qualitative approaches to research on factors affecting MiP [17]. To the authors' knowledge, no systematic review of the qualitative literature on MiP in sub-Saharan Africa has yet been published.

This article aims to provide a comprehensive overview of qualitative research on the social and cultural factors relevant to the uptake of MiP interventions in sub-Saharan Africa. Specific objectives include the identification of qualitative studies using a systematic search strategy, the description of the current state of qualitative research, and, using a meta-ethnographic approach, the synthesis of study findings and their organization along relevant themes identified from the studies. This will enable the identification of gaps in the qualitative research, the discovery of complementary or contradictory findings and the development of priorities for further research. The review is restricted to sub-Saharan Africa, because, as a result of epidemiological and structural factors, this is the region where MiP-related morbidity and mortality is most pronounced [3]. The review focuses on social science research based on qualitative methods to ensure the synthesis of findings is manageable, to draw attention to a neglected body of research and to identify the gaps in qualitative research. For practical reasons the review is restricted to English language literature.

Methods

Identifying relevant literature

Literature was identified through searching a range of databases. Searches were undertaken using OVID SP [31] and ISI Web of Knowledge [32] (see Appendix S1 for the complete list of databases). Searches were also carried out using CSA ILLUMINA ASSIA (Applied Social Sciences Index and Abstracts), CINAHL (the Cumulative Index to Nursing and Allied Health Literature) and The Cochrane Library. An additional search was undertaken using the MiP Consortium online library; searching this comprehensive bibliographic database that includes published and unpublished MiP-related literature [33] (most recent update, at time of search, 17th April 2010) ensured that MiP-related research that was not accessible through conventional databases was included. The search terms used are detailed in Table 1. Test searches were carried beforehand to refine the search terms and ensure that relevant studies were captured.

Citations and abstracts were downloaded into Endnote X2 and duplicates identified and deleted. All titles and abstracts were read and the following inclusion criteria were applied: original research; relating to MiP; about social or cultural factors relevant to the uptake of MiP interventions; conducted in an African site; employed qualitative methods and findings were derived from qualitative methods; and English language. Methods considered to be qualitative were interviews, focus group discussions, observations (including participant observation), ethnography and participatory methods (including free-listing, mapping and identification exercises). Access to the full text of the remaining articles was sought and the articles read and the inclusion criteria applied again. The full text of nine articles could not be accessed. Details of these articles can be found in Appendix S2. (See Figure 1 for a review of the article inclusion/exclusion process).

thumbnail
Figure 1. Summary of the article inclusion/exclusion process.

https://doi.org/10.1371/journal.pone.0022452.g001

For articles that, in addition to relevant data, presented data that were unconnected to the uptake of MiP interventions, findings based these data were excluded from this review. If an article reported findings based on qualitative and quantitative methods, only findings based on the qualitative data were reviewed.

Analysis

A meta-ethnographic [34] approach was taken to analyzing and synthesizing the qualitative findings from the included articles. Meta-ethnography provides an alternative approach to traditional narrative reviews and is increasingly used for the synthesis of qualitative findings, for which the techniques of meta-analysis, applied in reviews of quantitative research, are not appropriate [35], [36], [37]. A meta-ethnography endeavours to go beyond individual studies' accounts of phenomena, producing novel insights, yet also seeks to preserve the detail of the original studies [34]. In the first instance, included articles were read by two authors and initial data retrieved and tabulated (including the articles' aim, methods, participants and location, see Appendix S3). Articles were classified according to their main topic and location of data collection (see Table 2). Key themes and concepts were then identified from the articles. These key themes and concepts were used for the reciprocal translation of the studies, whereby they were mapped across the other articles in order to understand how the articles relate to one another (see Tables 3, 4, 5). The quality of the articles was independently assessed by two reviewers using a standardized grading scheme [38]. Ten areas (title and abstract; introduction and aims; method and data; sampling; data analysis; ethics; bias; results; transferability or generalizability; and implications and usefulness) were awarded grades ranging from one (very poor) to four (good), providing a maximum score of 40. In cases of grading discrepancy, the two reviewers discussed the scores and when an exact score could not be agreed on, a mean was taken of the two scores.

thumbnail
Table 3. Mapping of key themes and concepts across the reviewed articles: illnesses and vulnerability.

https://doi.org/10.1371/journal.pone.0022452.t003

thumbnail
Table 4. Mapping of key themes and concepts across the reviewed articles: interventions.

https://doi.org/10.1371/journal.pone.0022452.t004

thumbnail
Table 5. Mapping of key themes and concepts across the reviewed articles: ANC services.

https://doi.org/10.1371/journal.pone.0022452.t005

Results

The nature of the evidence

Of the 37 studies reviewed, 14 focused on MiP, its treatment or prevention. The remaining studies dealt tangentially with MiP, as part of the broader topic of malaria treatment and prevention, factors related to ANC service use, anaemia during pregnancy or reproductive loss (see Table 2 for details).

The majority of the studies were carried out in East Africa (24 of 37). The geographical bias is largely explained by the number of studies that have been undertaken by the same or similar research teams: six of the articles from Uganda have the same lead author (and several of these are based on the same data) and three of the studies from Tanzania have the same lead author. Nevertheless, there is a paucity of research from southern and central Africa, and only three studies from francophone countries.

The studies relied largely on individual (33) and group interviews (31) and a minority of studies (7) utilized qualitative data from observational methods, including participant observation. Twenty-two studies employed quantitative data collection techniques (questionnaire-based surveys) in addition to the qualitative methods and six of the nine articles that employed only one type of qualitative methods also collected data using quantitative methods. A variety of respondent types participated in the studies: pregnant women, community members, opinion leaders, traditional birth attendants (TBAs), health workers and policy makers. However, of the 37 articles reviewed, only 17 included pregnant women as a specific group of respondents.

Despite the overall paucity of qualitative research on MiP in sub-Saharan Africa, as can be seen in Table 6, during the last 20 years there has been an increase in studies, most markedly over the last five years.

Based on the standardized grading scale [38], the reviewed studies were, on average, of fair quality (mean score 30.2/40 N = 31). The formats (study reports or theses) of six studies prevented their grading. Two studies from the 1990s received the lowest score of 25/40 [39], [40] and one study from 2008 received the highest score of 35/40 [41] (for a complete list of the grading scores see Appendix S3). The studies, particularly earlier studies, lacked details of any efforts undertaken to minimize bias and of ethical issues. The explanations of sampling procedures utilized were also limited.

Qualitative synthesis of findings

Based on the organization of the articles and their findings, the synthesis of qualitative findings is divided into several topics that influence the uptake of MiP interventions: concepts of malaria and risk in pregnancy; attitudes towards malaria prevention and treatment; perceptions of ANC services; and structural factors affecting the delivery and uptake of MiP interventions. As the principal MiP interventions are delivered as part of ANC services, their success will depend on appropriate ANC attendance and therefore factors affecting ANC service use are included in the synthesis.

Concepts of malaria and risk in pregnancy.

Several studies confirmed the common observation that local disease categories often do not correspond to biomedical definitions of malaria (and MiP). In rural southern Malawi the term used to describe malaria, malungo, implied a common and fairly harmless illness [42]. In south-western Uganda, omusujia, the word used to translate malaria, referred to any kind of fever or feelings of illness [39]. And Mbonye and colleagues [43] also described how, in central Uganda, through a blurring of disease categories, omusujia represented all types of fever. Okrah and colleagues [44] reported that in north-western Burkina Faso no “one-to-one equivalent of the biomedical concept of malaria” existed in any of the local languages. The broad term soumaya was therefore used in malaria related public health discourse, yet this condition encompassed a very wide range of symptoms [44]. On the coastal plain of Tanzania, respondents talked about their diseases and the diseases of outsiders (referring to foreign and Tanzanian internal migrants). The term linguistically closest to malaria and that used for public health education, homa ya malaria, was considered to represent a disease of outsiders. Moreover, homa ya malaria was not actually associated with malaria or anaemia during pregnancy [40]. Participants in Tolhurst and colleagues' study in southern Malawi attributed pre-term delivery to both “modern” and “traditional” illnesses, of which malaria was categorized as “modern” [45].

Local disease categories for fever and malaria can have implications for treatment or prevention seeking behaviour. For example, respondents from two areas in southern Ghana divided malaria into two types of fever, ‘common’ fever and ‘male’ fever; the former was relatively easy to cure with herbs at home, whereas the latter required attention from a health provider [46]. In Tanzania, the internal migrants, who used the “outsider” disease categories, which included homa ya malaria (malaria fever), were reported to show higher levels of ITN ownership and re-treatment [40].

Respondents from a number of study sites associated mosquito bites with malaria (or the local disease category that included malaria) (e.g. [39], [42], [43], [47]). However, in several settings, other factors were viewed as playing a role: in south-central Ethiopia, a lack of food during the fasting season and unhygienic practices were linked to malaria infection (or busaa as it was locally termed) [48]; in southern Ghana, exposure to heat, poor hygiene and evil spirits were important factors [46], [47]; Kengeya-Kayondo and colleagues also reported that in southwestern Uganda omusujia could be caused by dietary or environmental factors [39]; whereas in central Uganda, poverty, dirty water, poor hygiene and a lack of blood contributed to omusuji [43]; in southern Malawi, malungo, could be caused by hard work [42]; and in Burkina Faso humidity, rain and cold also reportedly led to soumaya [44].

Respondents in several countries (Kenya [49], Ethiopia [48], Nigeria [50], Senegal [51], Uganda [52], [53] and Zambia [54]) viewed pregnant women as particularly vulnerable to malaria infection, yet less vulnerable than children. However, in one study from south-western Uganda, malaria was identified as universal amongst all age groups and pregnant women were not singled out [39]. Although few studies subdivided pregnant women by age, age was contemplated in one study carried out in central Uganda: the study's findings suggest that respondents did not recognize pregnant adolescents as a group at particular risk of malaria [55].

Several studies emphasized that pregnant women's vulnerability to malaria should be contextualized among other risks and dangers inherent to pregnancy. In southern Malawi for example, pregnancy itself was seen as a vulnerable state in which women are at greater risk of illnesses generally, particularly harm caused by witchcraft [42], [56]. In central Uganda, Mbonye and colleagues emphasized the social vulnerability of adolescent pregnancy. Adolescents did not access healthcare because of the shame attached to pregnancy and commonly tried to terminate their pregnancy by any means possible [57].

Differences in perceived seriousness of MiP and the relationship between perceived seriousness and behaviour were identified in the studies. In southern Malawi, pregnant women did not view MiP as serious, or any more serious than malaria outside of pregnancy [42]. Similarly, in coastal Tanzania, MiP was not seen as a concern and problems that medically could be attributed to MiP such as anaemia, headaches and infant mortality were attributed to different causes [40]. Several studies found that fever is considered normal during pregnancy and post-partum [40], [42], [43], [57]. In contrast, respondents from studies carried out in Uganda [39], [43], [57], in north-eastern Tanzania [58], in south-central Ethiopia [48], in The Gambia [59] and (a different study) in southern Malawi [45] identified MiP as serious and associated it with miscarriages, pre-term birth, swelling, dizziness, high blood pressure, abortion, dehydration, headache, vomiting, persistent menstruation, weakness and joint pain.

Four studies reported perceptions about the link between malaria and anaemia in pregnancy. MiP was not recognized as a cause of anaemia (characterized locally as a lack of blood) amongst adolescents on Ghana's coastal savannah, which was rather seen as due to dietary factors and anxieties (particularly for unmarried girls) [60]. Central Ugandan respondents attributed anaemia (also “lack of blood”) in pregnancy to diet [43]. In The Gambia [59] and in a later study in the same region of Ghana [46] anaemia was however described as a consequence of MiP. The authors of the more recent study in the same region of Ghana suggest that this change in understanding of MiP and anaemia over time may be due campaigns of health education [46].

Attitudes towards malaria prevention and treatment.

Even when MiP is perceived as a serious risk or illness, attitudes towards particular interventions or ideas about malaria prevention in general may influence the uptake of preventive measures. For example, in Burkina Faso, pregnant women were reportedly unaware of how to prevent malaria (and anaemia) [61], and in southern Ghana, although MiP was recognized as having important health consequences, malaria prevention was not seen as possible and this impacted upon the use of preventive measures [46]; whereas in south-western Uganda, dietary measures were seen as the main means of preventing malaria [39]. Many women in Sudan did not comply with chloroquine chemoprophylaxis, as recommended in the 1990s, due to a lack of knowledge about its benefits and fears about the safety of taking chloroquine in pregnancy [62].

Low bednet usage was attributed to a range of factors: seasonality of use and complaints about nets being uncomfortable or not of a suitable size [57], [63]; perceptions surrounding ITNs' “chemicals”, which were viewed by some respondents as harmful to pregnant women and unborn children [57]; concerns related to the retreating of ITNs and the effects of the insecticides upon pregnant women and the unborn child [50], [51], [52], [54]; and affordability and availability [49], [57]. Also, in Kenya, respondents expressed concerns about the targeting of interventions, particularly the distribution of ITNs to specific population groups, mainly children and pregnant women; their anxieties were framed in terms of comments about attacks on Kenyan's fertility [49]. There was however evidence of demand for ITNs. In coastal and highland areas of Tanzania, Mubuyazi and colleagues reported that the national ITN voucher scheme for pregnant women had encouraged women to attend ANC at a clinic and collect their voucher [64]. Obtaining an ITN was also a motive for women in central Ghana to attend a health facility for ANC [65].

Respondents were often unsure about drugs used for IPTp and whether the drugs prevented MiP. In spite of this uncertainty, in two studies the trust placed in those administering IPTp provoked adherence. In The Gambia, respondents were unclear about the drugs used for IPTp, but they accepted the drugs as safe because health workers administered them [59]. Women in Uganda were also willing to take IPTp because they trusted TBAs and drug vendors who recommended IPTp[66]. SP was perceived to be a good cure by respondents in central Uganda however they showed little awareness of SP being used to prevent MiP [55]. Similarly, in southern Malawi, SP was associated with treating rather than preventing MiP and respondents reported that if a woman was issued SP at the ANC clinic, it was because she was sick [56].

In contrast, respondents from several studies viewed SP as harmful, suggesting that its “strength” caused miscarriages [42], [55], [58], [67], [68] and describing side effects that included mouth sores, fatigue, fever, rashes and itchiness [67], [68]. In north-eastern Tanzania, Mubyazi and colleagues reported similar concerns deterring women from taking SP as IPTp [58] and Mushi and colleagues described how women linked taking SP with large babies and therefore difficult deliveries, which they were keen to avoid [68]. However, these studies suggested that although these perceptions exist, there were very few cases of adverse effects, and that these ideas were based on hearsay rather than personal experience [58], [68].

One recent study that explored a potential alternative to IPTp, intermittent screening and treatment (IST), found that pregnant women did not distinguish between the two strategies and did not complain about the blood test required for IST [65]; the differences between the two strategies were diluted by the other ANC procedures.

The reviewed studies revealed diverse attitudes towards malaria medication and a range of sources of treatment for malaria treatment during pregnancy. In Ghana, self-medication was seemingly infrequent, as pregnant women would not take medicines unless advised by an “expert” – a traditional healer or a health worker [46]. Previous research in Ghana suggested that pregnant women were keen to care for their pregnancy and therefore sought formal treatment for malaria; this differed markedly from the behaviour of other adults who mainly self-medicated with herbal remedies and other medicines at home [47]. However, women were uncertain about taking any medication in early pregnancy [47]. In contrast, Kenyan pregnant women often bought drugs over the counter and self-treated: they preferred western pharmaceuticals and were familiar with their names [69]. Women from the same study identified MiP as an important health problem, yet they often refused to be admitted to hospital for treatment for severe malaria because they could not leave their children unsupervised [69]. In north-eastern Tanzania and western Uganda, to treat malaria, women accessed formal health services, self-medicated and sought the assistance of traditional healers or TBAs [58], [67].

As with IPTp, the perceived strength and side effects of treatments influence women's readiness to take them during pregnancy. In Uganda, Cholorquine's bitterness and the associated side effects (itching) discouraged women from taking it [67]. Mbonye and colleagues also reported concerns in Uganda about taking quinine during pregnancy [55]. Respondents in Malawi identified bitter medicines (including SP) as a cause of miscarriage and stillbirth, yet, in spite of this, they bought drugs (including SP) from drug sellers [45]. Waisa and colleagues also reported that diseases during pregnancy tend to be treated at first with herbs in the home prior to seeking assistance at the clinic [70].

Perceptions of ANC services.

Many factors were identified as influencing whether women receive ANC in a health facility. Several studies identified obtaining the maternity (or health or ANC) card as a factor that motivated women to attend a health facility for ANC [55], [56], [57], [65], [67], [70], [71]. The cards were desirable because they enabled women to deliver at health facilities without recrimination from health workers. Acquiring an ITN also motivated some women in coastal and highland areas of Tanzania and central Ghana to access ANC [64], [65]. Being tested for sickness, checking the progress of the pregnancy and having one's stomach examined at the ANC clinic were described as other important motivating factors [57], [64], [65]. In Uganda, pregnant women did not view ANC clinics as offering disease prevention, but attended ANC services when ill [55], [70].

Although gestational age at first ANC visit has consequences for the provision of MiP interventions, only one of the reviewed studies surveyed factors that influence timing of first ANC visit. In southern Malawi, women preferred not to start attending ANC early in their pregnancy (before about 24 weeks); they delayed because revealing an early-stage pregnancy put them at risk from witchcraft and animosity from the community, and, in a setting where miscarriages were common, they wanted to be certain about the pregnancy before making the long journey to the clinic [56].

Once at the ANC clinic, how care is provided can also affect women's understanding of ANC services and of MiP interventions. In Malawi, in a multi-lingual setting, health education was mainly delivered in the nurses' mother tongue rather than that of pregnant women [56]. In Uganda, Mbonye and colleagues reported that health workers provided misleading information to women accessing ANC: they advised pregnant women to drink plenty of sweet fluids when taking SP as IPTp, “to help them withstand the strength of Fansidar” (the brand name for SP) [55]. As a consequence, women were deterred from visiting the clinic because they could not afford to buy these liquids [55]. Women in Malawi also reported that being rebuked by health workers discouraged them from attending ANC [45].

Structural factors affecting the delivery and uptake of MiP interventions.

Overall, fifteen studies identified structural factors that can affect the delivery and uptake of MiP interventions, particularly those delivered through ANC services. Factors purely affecting demand for ANC services included distance to the clinic and cost of services [43], [55], [57], [58], [61], [66], [67]. Once at the ANC clinic, supply and demand were influenced by a range of factors: pregnant women and health workers complained about the lack of resources, including staff, laboratory tests, drugs, and clean cups and water to administer IPTp with SP [56], [58], [67]. Whilst Mubyazi and colleagues reported that in coastal and highland areas of Tanzania women were generally satisfied with ANC services, they also described the complex nature of ANC services and fees, which discourage some women: participants complained about varied user fees, penalties and punishments for late attendance, and unnecessary referrals, which also had to be paid for [64].

Tanzanian policy makers reported a range of factors that influence the delivery and uptake of IPTp. In addition to late ANC attendance, they reported concerns about compliance with the IPTp delivery guidelines at healthcare facilities, problems of monitoring delivery, a lack of SP, questions about the effectiveness of the direct observation treatment (DOT) procedure, and poor communication with the media, which led to misleading newspaper articles about the appropriateness of SP for IPTp [41]. One study in Uganda highlighted the difficulty of providing malaria and HIV prevention in an integrated manner due to insufficient drug stocks and health workers lacking adequate skills [72].

Various strategies have been employed to improve the delivery of MiP interventions: in central Uganda delivering IPTp in the community rather than at the ANC clinic improved uptake and increased awareness of the dangers of MiP [66]; and, in eastern Sudan, bednet distribution through local committees and leaders authorities encouraged their use more than distribution through the ministry of health [63]. In Tanzania, a social marketing approach, using vouchers that pregnant women received as part of ANC and then exchanged for a subsidized bed net, has been trialled. However, despite initial high voucher return rates, there have been mixed reports of awareness about the scheme, how to take part, and the intended recipients of the nets [73]. Even at a discounted price, some women were not able to afford the nets and nets also “leaked” from the system [74]. There was also disagreement amongst policy makers in Tanzania regarding the effectiveness of the subsidized system [41]. In Sudan, when exempted from costs, pregnant women visited the clinic more often and were able to buy a full course of medication [75]. The cost of malaria medication was also the priority for respondents from one study in Uganda [53].

Finally, household decision-making dynamics can also have an impact on how women access ANC and therefore MiP interventions. For example, in Uganda and Kenya, husbands were reportedly in control of domestic resources and acted as ultimate decision makers. They therefore influenced whether their wives sought ANC at a health facility or not and whether they purchased an ITN [49], [57].

Discussion

The reviewed studies illustrate that the symptoms (particularly fever) or symptom complexes often brought about by malaria infection are associated with various locally defined illnesses [39], [40], [42], [43], [44]. Furthermore, although many respondents linked mosquitoes bites with malaria (or the corresponding local disease category), other factors were also viewed as important, such as exposure to heat, cold or rain, diet and hard work [39], [42], [43], [44], [47], [48]. Given that women experience malaria-like symptoms during pregnancy [42], particularly fever, understanding how these symptoms are interpreted in local disease categories (and what action is taken) is of particular public health interest and is essential for the appropriate design of strategies of health education focused on MiP.

How women understand their vulnerability to malaria and other illnesses when pregnant is key to designing and promoting appropriate MiP interventions. Study respondents often viewed pregnant women as particularly vulnerable to malaria infection and identified serious potential health impacts of MiP [48], [49], [50], [51], [52], [54]. However, the vulnerability of pregnant women was often described in more general terms [42], [56]. Moreover, although adolescents are at greater risk of MiP and its adverse effects [3], the social vulnerability of pregnant adolescents is also important; pregnant adolescents suffer stigma, which has implications for pregnancy care and requires further study in African contexts [57].

Although clinicians, policy makers and scientists may focus on reducing the burden of MiP, the reviewed research suggests that pregnancy care is often less illness specific; women act, within certain socio-economic, social, cultural and individual constraints, so as to protect themselves and their pregnancies from what they see as the most important threats. Some of these threats, such as those described by Tolhurst [45], are not perceived in biomedical disease categories, and some are given personalistic explanations related to witchcraft [76], [77]. The promotion of pregnancy care that is based on a more holistic understanding of illness, and less disease-focused, is more likely, compared with a disease-focused approach, to resonate with women's own ideas of protecting their pregnancy.

Antenatal care at health facilities is a key platform for the delivery of MiP interventions. Therefore factors that influence the timing of ANC visits impact MiP interventions. A prior literature review has shown that a woman's (and her husband's) education, cost (travel and upfront fees) and distance to the clinic are key determinates of ANC attendance [78]. A women's age is also important, albeit in a complex manner; although young women in some contexts hide their pregnancy and delay formal ANC, older women may also delay or avoid ANC because they are accustomed to pregnancy [78], [79]. Ideas about the purpose of ANC services influenced ANC attendance [55], [70], [80]: women viewed ANC as providing treatment rather than prevention, and only attended when ill. Health workers' attitudes and behaviour towards pregnant clients and attitudes towards specific services offered can also potentially deter women from accessing ANC at health facilities [55]. For example, fears about HIV-testing (or status disclosure) has been reported as influencing ANC attendance in rural Zimbabwe [79]. The factors influencing ANC attendance are not only complex, but also often context-specific, requiring locally appropriate strategies to improve attendance [76]. Chapman for example, demonstrates the value of long-term qualitative research for providing an in-depth understanding of pregnancy care [76]. However, there is a general lack of qualitative studies, which could inform locally appropriate strategies [78].

A range of factors influences how recommended policies for MiP prevention and care are implemented and received locally. In addition to issues of cost and accessibility, deterrents to ITNs use and IPTp uptake included dissatisfaction with and anxieties about ITNs or the insecticide re-treatment [50], [51], [52], [54], [55], [57] and concerns about the side effects of taking SP during pregnancy [45], [55], [58], [68]. Concerns about SP and other malaria drugs were linked to local discourses [58], [68] and reinforced [55] or dispelled [46], [59] by health staff. Exploring the social relationship between pregnant women and healthcare staff in the context of formal ANC, and the influence of local discourses is therefore key to understanding attitudes towards and uptake of malaria interventions.

Structural factors affect the uptake of MiP interventions at a range of levels: from household decision-making to national and international implementation strategies. The reality of ANC in health facilities complicated the implementation of national IPTp guidelines in Tanzania [41] and the delivery of integrated HIV and malaria prevention in Uganda [72]. And although other strategies for IPTp and ITN delivery demonstrated some success, there remain structural challenges linked to delivery (e.g. shortages at healthcare facilities and a lack of health worker training) and uptake (e.g. cost and distance) to overcome [41], [63], [66], [74]. Access to MiP interventions (and formal ANC) is also influenced by the dynamics of in-household decision-making, and gender relations [57]. The qualitative research methods available to social scientists are well suited to the study of structural factors across multiple levels enabling observed phenomena to be situated within their household, community, cultural, social, economic and historical context.

Priorities for further research

To explore thoroughly the socio-cultural factors that affect the uptake of MiP interventions, malaria must be contextualized within local understandings of illness, (social and economic) vulnerability and care during pregnancy. However, many of the reviewed studies were disease-focused and the authors were unable to take such a broad approach. Furthermore, many of the articles were of a largely descriptive nature: perceptions about MiP and attitudes towards ANC services are detailed, however, attempts at identifying the social and cultural factors that underlay these perceptions and attitudes were limited. This illustrates the need for further study of the themes highlighted in this review. Moreover, through employing a comparative, in-depth research approach it will be possible to move beyond describing perceptions, to investigate if, how and why such perceptions affect behaviour, and how these perceptions are formed and changed. Such in-depth understanding would provide a useful basis for the development of public health policy to reduce the burden of MiP.

The review has also identified specific topics that have been neglected in the qualitative research on MiP and that should be afforded particular consideration in further study. Adolescent pregnancy receives little attention in the literature, in spite of the vulnerability of this population group to MiP and the stigma that accompanies adolescent pregnancy in many societies and has implications for pregnancy care. Anaemia during pregnancy, its corresponding local disease categories and ideas about causation are also neglected topics, the study of which would contribute to understandings of MiP. The factors influencing gestational age at first formal ANC visit are also largely neglected in the reviewed literature, in spite of the impact that ANC attendance has on MiP interventions and on maternal health in general. Structural factors influencing the delivery and uptake of MiP intervention are also under-explored: the relationships and interactions between structural factors at a range of levels and how these influence behaviour are of particular interest.

Further research is also required in order to keep pace with the changing strategies of MiP prevention and control. For example, in terms of structural factors at the household level, research on decision-making regarding which family member(s) use ITNs is important, particularly in light of changing patterns of ITN distribution. Given the increased reliance on ACTs with varying treatment regimens, social scientists must also continue to explore related attitudes and understanding of new antimalarials. Moreover, as demonstrated by changes over time in understandings of the relationship between MiP and anaemia in Ghana [46], [60], knowledge, perceptions and beliefs rarely remain static. Social science research is therefore necessary to track such changes and explore the underlying social and cultural factors.

Strengths and limitations of the review

This review provides a synthesis of a greater number of qualitative studies than the previous, albeit non-systematic, review focusing on social science research on MiP in Africa [17]. Searching the MiP Consortium Library ensured access to additional literature that would have been otherwise omitted from a search including only the conventional databases (OVID SP etc). The exclusion of non-English language research represents a limitation, however, as only five articles were excluded for this reason, the impact upon the themes identified in the review is likely to be minimal. The abstracts of the studies with unavailable full text were also assessed (see Appendix S2): several of the article were published over 15 years ago and therefore referred to outdated MiP interventions, others presented findings based on quantitative methods and those with relevant findings presented in the abstracts, largely confirmed the reviews findings (e.g. women lacking familiarity with IPTp [81] and adolescents not perceiving a greater risk of malaria during pregnancy [82]). It is unlikely therefore that the contents of these articles would have substantially altered the review's findings. Included studies were assessed as, on average, of a fair quality. This suggests that, in general, the findings are based on an overall sound body of research. However, the scope of the review's findings is restricted by the topics dealt with by the included articles.

Conclusions

Qualitative methods have become increasingly prominent in research on the uptake and delivery of MiP interventions. Despite the increasing number of qualitative studies, to date, reviews of social science research on malaria prevention and control have identified a lack of translation of findings, particularly from qualitative research, into policy [18], [19], [29]. In light of this, the findings from this review represent a potentially useful resource for policy makers as well as researchers in the field of MiP.

The reviewed qualitative research has revealed a range of factors as relevant to the uptake of MiP interventions, which are important considerations for the design and implementation of strategies to reduce MiP-related morbidity and mortality. The following factors are of particular importance: malaria and MiP is often understood in terms of locally-defined illness categories that may incorporate other causal explanations in addition to mosquito bites; although pregnant women are viewed as particularly at risk of malaria infection, and MiP as having important health impacts, the vulnerability of pregnant women is sometimes considered in less-disease specific terms; ideas about the purpose of ANC services and health workers' attitudes and behaviour towards pregnant clients influence attendance at health facilities for ANC; concerns about specific MiP interventions are influenced by local discourses and the attitudes and behaviours of health staff; patterns of household decision-making and gender relations influence women's access to MiP interventions; shortages of health personnel and resources, and inadequate infrastructure and health worker training impact upon the provision of MiP interventions; and cost of services and distance to health facilities influence women's access to MiP interventions.

In spite of the recent increase in qualitative research on MiP and MiP interventions, the review has highlighted a range of topics that require further research and demonstrated the need to follow a comparative yet in-depth research strategy. Key areas requiring further research include: local disease categories and symptoms of MiP and anaemia during pregnancy; understandings of pregnant women's and adolescents' perceived vulnerability to malaria and its consequences; perceptions about MiP interventions; wider political discourses around interventions; and factors that influence ANC attendance, including timing of first visit. In response to this, as part of the MiP Consortium's Public Health Impact research theme, a programme of anthropological research employing qualitative methods has been developed and is currently being carried out. Research is being undertaken in four settings across sub-Saharan Africa (Ghana, Kenya and Malawi), to investigate comparatively the social and cultural context to MiP and the uptake of MiP interventions.

Supporting Information

Appendix S1.

OVID SP and ISI Web of Knowledge databases.

https://doi.org/10.1371/journal.pone.0022452.s001

(DOC)

Appendix S2.

Articles with full text unavailable.

https://doi.org/10.1371/journal.pone.0022452.s002

(DOC)

Acknowledgments

The authors would like to thank Denise Roth Allen and Caroline Jones for the comments they provided on an earlier version of the article.

Author Contributions

Conceived and designed the experiments: CP LS RP. Performed the experiments: CP LS EVWA. Analyzed the data: CP LS EVWA. Wrote the paper: CP LS. Provided critical comments on the manuscript: LS EVWA AM RP. Approved the final version of the manuscript: LS EVWA AM RP.

References

  1. 1. Menendez C, D'Alessandro U, ter Kuile FO (2007) Reducing the burden of malaria in pregnancy by preventive strategies. Lancet Infectious Diseases 7: 126–135.
  2. 2. licour S, Tatem A, Guerra C, Snow R, Ter Kuile F (2010) Quantifying the Number of Pregnancies at Risk of Malaria in 2007: A Demographic Study. PLoS Medicine 7: 624–640.
  3. 3. Desai M, ter Kuile F, Nosten F, McGready R, Asamoa K, et al. (2007) Epidemiology and burden of malaria in pregnancy. Lancet Infectious Diseases 7: 93–104.
  4. 4. Guyatt HL, Snow RW (2004) Impact of malaria during pregnancy on low birth weight in sub-Saharan Africa. 17. Clin Microbiol Rev: table of contents. pp. 760–769.
  5. 5. Greenwood B, Alonso P, ter Kuile F, Hill J, Steketee R (2007) Malaria in pregnancy: priorities for research. Lancet Infectious Diseases 7: 169.
  6. 6. The Malaria in Pregnancy Consortium http://www.mip-consortium.org/. Accessed 5th May 2010.
  7. 7. World Health Organization (2004) A strategic framework for malaria prevention and control during pregnancy in the African region. World Health Organization, Regional Office for Africa, Brazzaville.
  8. 8. Parikh S, Rosenthal P (2010) Intermittent Preventive Therapy for Malaria in Pregnancy: Is Sulfadoxine–Pyrimethamine the Right Drug? Clinical Pharmacology & Therapeutics 87: 160–162.
  9. 9. World Health Organization (2007) Technical Expert Group meeting on intermittent preventive treatment in pregnancy (IPTp). Geneva: World Health Organization.
  10. 10. World Health Organization (2009) World malaria report. Geneva: World Health Organization.
  11. 11. World Health Organization (2010) WHO Guidelines for the Treatment of Malaria, Second Edition. Geneva: World Health Organization.
  12. 12. Sevene E, González R, Menendez C (2010) Current knowledge and challenges of antimalarial drugs for treatment and prevention in pregnancy. Expert Opinion on Pharmacotherapy 11: 1277–1293.
  13. 13. Organization WH (2000) The African Summit on Roll Back Malaria, Abuja, Nigeria. WHO/CDS/RBM/200017. Geneva: World Health Organization.
  14. 14. World Health Organization (2005) World Health Assembly Malaria Control Resolution. Presented at 58th World Health Assembly. Resolution WHA582. Geneva, Switzerland: World Health Organization.
  15. 15. van Eijk AM, Hill J, Alegana VA, Kirui V, Gething PW, et al. (2011) Coverage of malaria protection in pregnant women in sub-Saharan Africa: a synthesis and analysis of national survey data. The Lancet Infectious Diseases 11: 190–207.
  16. 16. Gysels M, Pell C, Mathanga DP, Adongo P, Odhiambo F, et al. (2009) Community response to intermittent preventive treatment of malaria in infants (IPTi) delivered through the expanded programme of immunisation in five African settings. Malaria Journal. 191 p.
  17. 17. Muela Ribera J, Hausmann-Muela S, D Alessandro U, Grietens K (2007) Malaria in pregnancy: What can the social sciences contribute? PLoS Medicine 4: 631.
  18. 18. Williams H, Jones C (2004) A critical review of behavioral issues related to malaria control in sub-Saharan Africa: what contributions have social scientists made? Social Science & Medicine 59: 501–523.
  19. 19. McCombie S (1996) Treatment seeking for malaria: A review of recent research* 1. Social Science & Medicine 43: 933–945.
  20. 20. Enato EF, Okhamafe AO, Okpere EE, Enato EFO, Okhamafe AO, et al. (2007) A survey of knowledge, attitude and practice of malaria management among pregnant women from two health care facilities in Nigeria. Acta Obstetricia et Gynecologica Scandinavica 86: 33–36.
  21. 21. Onyeaso N, Fawole A (2008) Perception and Practice of Malaria Prophylaxis in Pregnancy among Health care Providers in Ibadan. African Journal of Reproductive Health 11: 69.
  22. 22. Adam I, Omer E, Salih A, Khamis A, Malik E (2008) Perceptions of the causes of malaria and of its complications, treatment and prevention among midwives and pregnant women of Eastern Sudan. Journal of Public Health 16: 129–132.
  23. 23. Mnyika K, Kabalimu T, Mbaruku G (2006) Determinants Of Utilisation Of Mosquito Bednets For Malaria Prevention Among Pregnant Women In Kigoma Urban District, Western Tanzania. East African Journal of Public Heath 3: 31–34.
  24. 24. Ndour C, Ba O, Manga N, Fortes M, Nyamwasa D, et al. (2006) Le paludisme: connaissance, attitudes et pratiques des chefs de ménage de la population rurale de Gossas, Sénégal (Malaria: knowledge, behaviour and practices among a rural population of Gossas, Senegal). Bulletin de la Société de pathologie exotique 99: 290–293.
  25. 25. Belay M, Deressa W, Belay M, Deressa W (2008) Use of insecticide treated nets by pregnant women and associated factors in a pre-dominantly rural population in northern Ethiopia. Tropical Medicine & International Health 13: 1303–1313.
  26. 26. Pettifor A, Taylor E, Nku D, Duvall S, Tabala M, et al. (2008) Bed net ownership, use and perceptions among women seeking antenatal care in Kinshasa, Democratic Republic of the Congo (DRC): opportunities for improved maternal and child health. BMC Public Health 8: 331.
  27. 27. Gikandi PW, Noor AM, Gitonga CW, Ajanga AA, Snow RW, et al. (2008) Access and barriers to measures targeted to prevent malaria in pregnancy in rural Kenya. Tropical Medicine & International Health 13: 208–217.
  28. 28. Holtz TH, Patrick Kachur S, Roberts JM, Marum LH, Mkandala C, et al. (2004) Use of antenatal care services and intermittent preventive treatment for malaria among pregnant women in Blantyre District, Malawi. Tropical Medicine & International Health 9: 77–82.
  29. 29. Mwenesi H (2005) Social science research in malaria prevention, management and control in the last two decades: an overview. Acta Tropica 95: 292–297.
  30. 30. Maslove D, Mnyusiwalla A, Mills E, McGowan J, Attaran A, et al. (2009) Barriers to the effective treatment and prevention of malaria in Africa: A systematic review of qualitative studies. BMC International Health and Human Rights 9: 26.
  31. 31. OVID SP ovidsp.ovid.com. Accessed 5th May 2010.
  32. 32. ISI Web of Knowledge www.isiwebofknowledge.com Accessed 5th May 2010.
  33. 33. MiP Consortium Library http://www.mip-consortium.org/resource_centre/index.htm Accessed May 30th 2010.
  34. 34. Noblit G, Hare R (1988) Meta-ethnography: Synthesizing qualitative studies: Sage Publications, Inc.
  35. 35. Britten N, Campbell R, Pope C, Donovan J, Morgan M, et al. (2002) Using meta ethnography to synthesise qualitative research: a worked example. J Health Serv Res Policy 7: 209–215.
  36. 36. Munro S, Lewin S, Smith H, Engel M, Fretheim A, et al. (2007) Patient adherence to tuberculosis treatment: a systematic review of qualitative research. PLoS Medicine 4: e238.
  37. 37. Smith L, Pope C, Botha J (2005) Patients' help-seeking experiences and delay in cancer presentation: a qualitative synthesis. The Lancet 366: 825–831.
  38. 38. Hawker S, Payne S, Kerr C, Hardey M, Powell J (2002) Appraising the Evidence: Reviewing Disparate Data Systematically. Qualitative Health Research 12: 1284–1299.
  39. 39. Kengeya-Kayondo JF, Seeley JA, Kajura-Bajenja E, Kabunga E, Mubiru E, et al. (1994) Recognition, treatment seeking behaviour and perception of cause of malaria among rural women in Uganda. Acta Tropica 58: 267–273.
  40. 40. Winch PJ, Makemba AM, Kamazima SR, Lurie M, Lwihula GK, et al. (1996) Local terminology for febrile illnesses in Bagamoyo District, Tanzania and its impact on the design of a community-based malaria control programme. Social Science & Medicine 42: 1057–1067.
  41. 41. Mubyazi GM, Bygbjerg IC, Magnussen P, Olsen , Byskov J, et al. (2008) Prospects, achievements, challenges and opportunities for scaling-up malaria chemoprevention in pregnancy in Tanzania: the perspective of national level officers. Malaria Journal 7: (22 July 2008):
  42. 42. Launiala A, Kulmala TA (2006) The importance of understanding the local context: Women's perceptions and knowledge concerning malaria in pregnancy in rural Malawi. Acta Tropica 98: 111–117.
  43. 43. Mbonye AK, Neema S, Magnussen P (2006) Treatment-seeking practices for malaria in pregnancy among rural women in Mukono District, Uganda. Journal of Biosocial Science 38: 221–237.
  44. 44. Okrah J, Traore C, Pale A, Sommerfeld J, Muller O (2002) Community factors associated with malaria prevention by mosquito nets: an exploratory study in rural Burkina Faso. Tropical Medicine & International Health 7: 240–248.
  45. 45. Tolhurst R, Theobald S, Kayira E, Ntonya C, Kafulafula G, et al. (2008) ‘I don’t want all my babies to go to the grave': perceptions of preterm birth in Southern Malawi. Midwifery 24: 83–98.
  46. 46. Ahorlu C, Koram K, Weiss M (2007) Children, pregnant women and the culture of malaria in two rural communities of Ghana. Anthropology & Medicine 14: 167–181.
  47. 47. Agyepong IA, Manderson L (1994) The diagnosis and management of fever at household level in the Greater Accra Region, Ghana. Acta Tropica 58: 317–330.
  48. 48. Deressa W, Ali A (2009) Malaria-related perceptions and practices of women with children under the age of five years in rural Ethiopia. BMC Public Health 9: 259.
  49. 49. Chuma J, Okungu V, Ntwiga J, Molyneux C (2010) Towards achieving Abuja targets: identifying and addressing barriers to access and use of insecticides treated nets among the poorest populations in Kenya. BMC Public Health 10:
  50. 50. NetMark (2001) NetMark formative qualitative research on insecticide treated materials (ITMs) in Nigeria.
  51. 51. NetMark (2001) NetMark formative qualitative research on insecticide treated materials (ITMs) in Senegal.
  52. 52. NetMark (2001) NetMark formative qualitative research on insecticide treated materials (ITMs) in Uganda.
  53. 53. Mbonye AK, Bygbjerg IC, Magnussen P (2008) Prevention and treatment practices and implications for malaria control in Mukono District Uganda. Journal of Biosocial Science 40: 283–296.
  54. 54. NetMark (2001) NetMark formative qualitative research on insecticide treated materials (ITMs) in Zambia.
  55. 55. Mbonye AK, Neema S, Magnussen P (2006) Perceptions on use of sulfadoxine-pyrimethamine in pregnancy and the policy implications for malaria control in Uganda. Health Policy 77: 279–289.
  56. 56. Launiala A, Honkasalo ML (2007) Ethnographic study of factors influencing compliance to intermittent preventive treatment of malaria during pregnancy among Yao women in rural Malawi. Transactions of the Royal Society of Tropical Medicine and Hygiene 101: 980–989.
  57. 57. Mbonye AK, Neema S, Magnussen P (2006) Preventing malaria in pregnancy: a study of perceptions and policy implications in Mukono district, Uganda. Health Policy and Planning 21: 17–26.
  58. 58. Mubyazi G, Bloch P, Kamugisha M, Kitua A, Ijumba J (2005) Intermittent preventive treatment of malaria during pregnancy: a qualitative study of knowledge, attitudes and practices of district health managers, antenatal care staff and pregnant women in Korogwe District, North-Eastern Tanzania. Malaria Journal 4:
  59. 59. Brabin L, Stokes E, Dumbaya I, Owens S (2009) Gambian women's reliance on health workers to deliver sulphadoxine-pyrimethamine as recommended intermittent preventive treatment for malaria in pregnancy. Malaria Journal 8:
  60. 60. Agyepong IA, Wellington EK, Abbey MA (1997) A comparative study of clinical and sociocultural aspects of anaemia among adolescent girls in rural Ghana. Acta Tropica 65: 123–138.
  61. 61. Miaffo C, Some F, Kouyate B, Jahn A, Mueller O (2004) Malaria and anemia prevention in pregnant women of rural Burkina Faso. BMC Pregnancy and Childbirth 4: 18.
  62. 62. Adhanom Ghebreyesus T, Alemayehu T, Bosma A, Hanna Witten K, Teklehaimanot A (1996) Community participation in malaria control in Tigray region Ethiopia. Acta Tropica 61: 145–156.
  63. 63. Hassan SE-D, Malik E, Okoued S, Eltayeb E (2008) Retention and efficacy of long-lasting insecticide-treated nets distributed in eastern Sudan: a two-step community-based study. Malaria Journal 7: 85.
  64. 64. Mubyazi G, Bloch P, Magnussen P, Olsen O, Byskov J, et al. (2010) Women's experiences and views about costs of seeking malaria chemoprevention and other antenatal services: a qualitative study from two districts in rural Tanzania. Malaria Journal 9: 54.
  65. 65. Smith L, Jones C, Adjei R, Antwi G, Afrah N, et al. (2010) Intermittent screening and treatment versus intermittent preventive treatment of malaria in pregnancy: user acceptability. Malaria Journal 9: 18.
  66. 66. Mbonye AK, Bygbjerg I, Magnussen P (2007) Intermittent preventive treatment of malaria in pregnancy: evaluation of a new delivery approach and the policy implications for malaria control in Uganda. Health Policy 81: 228–241.
  67. 67. Ndyomugyenyi R, Neema S, Magnussen P (1998) The use of formal and informal services for antenatal care and malaria treatment in rural Uganda. Health Policy and Planning 13: 94–102.
  68. 68. Mushi AK, Schellenberg J, Mrisho M, Manzi F, Mbuya C, et al. (2008) Development of behaviour change communication strategy for a vaccination-linked malaria control tool in Southern Tanzania. Malaria Journal 7:
  69. 69. Soud FA (2005) Medical pluralism and utilization of maternity health care services by Muslim women in Mombasa, Kenya [Ph.D.]: University of Florida. 189 p.
  70. 70. Waiswa P, Kemigisa M, Kiguli J, Naikoba S, Pariyo GW, et al. (2008) Acceptability of evidence-based neonatal care practices in rural Uganda - implications for programming. BMC Pregnancy and Childbirth 8: 21.
  71. 71. Mrisho M, Obrist B, Schellenberg J, Haws R, Mushi A, et al. (2009) The use of antenatal and postnatal care: perspectives and experiences of women and health care providers in rural southern Tanzania. BMC Pregnancy and Childbirth 9: 10.
  72. 72. Mbonye AK, Hansen KS, Wamono F, Magnussen P (2010) Integration of malaria and HIV/AIDS prevention services through the private sector in Uganda. International Health 2: 52–58.
  73. 73. Tami A, Mbati J, Nathan R, Mponda H, Lengeler C, et al. (2006) Use and misuse of a discount voucher scheme as a subsidy for insecticide-treated nets for malaria control in southern Tanzania. Health Policy & Planning 21: 1–9.
  74. 74. Mushi AK, Schellenberg J, Mponda H, Lengeler C (2003) Targeted subsidy for malaria control with treated nets using a discount voucher system in Tanzania. Health Policy and Planning 18: 163–171.
  75. 75. Abdu Z, Mohammed Z, Bashier I, Eriksson B (2004) The impact of user fee exemption on service utilization and treatment seeking behaviour: the case of malaria in Sudan. The International Journal of Health Planning and Management 19: S95–S106.
  76. 76. Chapman RR (2003) Endangering safe motherhood in Mozambique: Prenatal care as pregnancy risk. Social Science & Medicine 57: 355–374.
  77. 77. Stokes E, Dumbaya I, Owens S, Brabin L (2008) The right to remain silent: a qualitative study of the medical and social ramifications of pregnancy disclosure for Gambian women. BJOG: An International Journal of Obstetrics & Gynaecology 115: 1641–1647.
  78. 78. Simkhada B, Teijlingen E, Porter M, Simkhada P (2008) Factors affecting the utilization of antenatal care in developing countries: systematic review of the literature. Journal of Advanced Nursing 61: 244–260.
  79. 79. Mathole T, Lindmark G, Majoko F, Ahlberg B (2004) A qualitative study of women's perspectives of antenatal care in a rural area of Zimbabwe. Midwifery 20: 122–132.
  80. 80. Magadi M, Agwanda A, Obare F (2007) A comparative analysis of the use of maternal health services between teenagers and older mothers in sub-Saharan Africa: Evidence from Demographic and Health Surveys (DHS). Social Science & Medicine 64: 1311–1325.
  81. 81. Mahama IY (2004) Community based study of the coverage of intermittent preventive treatment amongst pregnant women in a rural area of southern Malawi.
  82. 82. Mbonye A, Neema S, Magnussen P (2006) Malaria in pregnancy, risk perceptions and care seeking practices among adolescents in Mukono district Uganda. Int J Adolesc Med Health 18: 561–573.