<?xml version="1.0" encoding="UTF-8"?><!DOCTYPE article PUBLIC "-//NLM//DTD Journal Publishing DTD v3.0 20080202//EN" "http://dtd.nlm.nih.gov/publishing/3.0/journalpublishing3.dtd">
<article xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink" dtd-version="3.0" xml:lang="en" article-type="research article">
 <front>
  <journal-meta>
   <journal-id journal-id-type="publisher-id">
    jbm
   </journal-id>
   <journal-title-group>
    <journal-title>
     Journal of Biosciences and Medicines
    </journal-title>
   </journal-title-group>
   <issn pub-type="epub">
    2327-5081
   </issn>
   <issn publication-format="print">
    2327-509X
   </issn>
   <publisher>
    <publisher-name>
     Scientific Research Publishing
    </publisher-name>
   </publisher>
  </journal-meta>
  <article-meta>
   <article-id pub-id-type="doi">
    10.4236/jbm.2024.1212024
   </article-id>
   <article-id pub-id-type="publisher-id">
    jbm-138141
   </article-id>
   <article-categories>
    <subj-group subj-group-type="heading">
     <subject>
      Articles
     </subject>
    </subj-group>
    <subj-group subj-group-type="Discipline-v2">
     <subject>
      Biomedical 
     </subject>
     <subject>
       Life Sciences
     </subject>
    </subj-group>
   </article-categories>
   <title-group>
    Malaria and Anemia among Pregnant Women in the Foumban Health District: West-Cameroon
   </title-group>
   <contrib-group>
    <contrib contrib-type="author" xlink:type="simple">
     <name name-style="western">
      <surname>
       Kolla Magang Nelly
      </surname>
      <given-names>
       Celestine
      </given-names>
     </name> 
     <xref ref-type="aff" rid="aff1"> 
      <sup>1</sup>
     </xref>
    </contrib>
    <contrib contrib-type="author" xlink:type="simple">
     <name name-style="western">
      <surname>
       Tchio-Nighie Ketina
      </surname>
      <given-names>
       Hirma
      </given-names>
     </name> 
     <xref ref-type="aff" rid="aff1"> 
      <sup>1</sup>
     </xref> 
     <xref ref-type="aff" rid="aff2"> 
      <sup>2</sup>
     </xref>
    </contrib>
    <contrib contrib-type="author" xlink:type="simple">
     <name name-style="western">
      <surname>
       Noumedem Anangmo Christelle
      </surname>
      <given-names>
       Nadia
      </given-names>
     </name> 
     <xref ref-type="aff" rid="aff1"> 
      <sup>1</sup>
     </xref>
    </contrib>
    <contrib contrib-type="author" xlink:type="simple">
     <name name-style="western">
      <surname>
       Ewodo
      </surname>
      <given-names>
       Symphorien
      </given-names>
     </name> 
     <xref ref-type="aff" rid="aff1"> 
      <sup>1</sup>
     </xref> 
     <xref ref-type="aff" rid="aff3"> 
      <sup>3</sup>
     </xref>
    </contrib>
    <contrib contrib-type="author" xlink:type="simple">
     <name name-style="western">
      <surname>
       Ateudjieu
      </surname>
      <given-names>
       Jerome
      </given-names>
     </name> 
     <xref ref-type="aff" rid="aff1"> 
      <sup>1</sup>
     </xref> 
     <xref ref-type="aff" rid="aff3"> 
      <sup>3</sup>
     </xref> 
     <xref ref-type="aff" rid="aff4"> 
      <sup>4</sup>
     </xref>
    </contrib>
   </contrib-group> 
   <aff id="aff1">
    <addr-line>
     aFaculty of Medicine and Pharmaceutical Sciences, University of Dschang, Dschang, Cameroon
    </addr-line> 
   </aff> 
   <aff id="aff2">
    <addr-line>
     aDepartment of Health Research, M.A. Sante, Yaounde, Cameroon
    </addr-line> 
   </aff> 
   <aff id="aff3">
    <addr-line>
     aNational Blood Transfusion Center of Cameroon, Yaounde, Cameroon
    </addr-line> 
   </aff> 
   <aff id="aff4">
    <addr-line>
     aDivision of Health Operations Research, Cameroon Ministry of Public Health, Yaounde, Cameroon
    </addr-line> 
   </aff> 
   <pub-date pub-type="epub">
    <day>
     02
    </day> 
    <month>
     12
    </month>
    <year>
     2024
    </year>
   </pub-date> 
   <volume>
    12
   </volume> 
   <issue>
    12
   </issue>
   <fpage>
    305
   </fpage>
   <lpage>
    314
   </lpage>
   <history>
    <date date-type="received">
     <day>
      24,
     </day>
     <month>
      September
     </month>
     <year>
      2024
     </year>
    </date>
    <date date-type="published">
     <day>
      10,
     </day>
     <month>
      September
     </month>
     <year>
      2024
     </year> 
    </date> 
    <date date-type="accepted">
     <day>
      10,
     </day>
     <month>
      December
     </month>
     <year>
      2024
     </year> 
    </date>
   </history>
   <permissions>
    <copyright-statement>
     © Copyright 2014 by authors and Scientific Research Publishing Inc. 
    </copyright-statement>
    <copyright-year>
     2014
    </copyright-year>
    <license>
     <license-p>
      This work is licensed under the Creative Commons Attribution International License (CC BY). http://creativecommons.org/licenses/by/4.0/
     </license-p>
    </license>
   </permissions>
   <abstract>
    Malaria is one of the deadliest endemic diseases in Africa. The causative agent of this disease, Plasmodium, contributes to severe complications such as anemia, particularly in vulnerable groups. In Cameroon, the health system aims to protect patients through the free distribution of long-lasting insecticide-treated mosquito nets and intermittent preventive treatment for malaria. However, access to these interventions remains limited. The objective of our study was to determine the distribution of malaria in pregnancy and its association with anemia. 
    <b>Methods</b>
    <b>:</b> This was a descriptive cross-sectional study targeting pregnant women attending consultations, selected by convenience sampling, from February to May 2021 in three major health facilities in the Foumban health district of West Cameroon. Data were collected through questionnaires administered to the pregnant women, results from malaria rapid diagnostic tests (RDTs), thick drop microscopy for malaria diagnosis, and blood counts. The prevalence of malaria and anemia was estimated, as well as the association between malaria infection and the occurrence of anemia. 
    <b>Results</b>
    <b>:</b> A total of 395 (91.86%) out of 430 pregnant women were enrolled in the study. The prevalence of malaria and anemia was 5.06% and 30.37%, respectively. Anemia was diagnosed in 120 women (30.37%), including 73 (60.83%) with mild anemia, 46 (38.33%) with moderate anemia, and 1 (0.83%) with severe anemia. Among women with malaria, 8 (40%) had anemia. Malaria infection was found to be associated with an increased risk of developing mild anemia (OR = 1.80 [0.66 - 4.85]) and a decreased risk of developing moderate anemia (OR = 0.74 [0.16 - 3.33]), although these associations were not statistically significant. 
    <b>Conclusion</b>
    <b>:</b> A relatively low malaria prevalence was registered in the study population while anemia was more prevalent. Lack of association between malaria and anemia may be linked to low malaria prevalence.
   </abstract>
   <kwd-group> 
    <kwd>
     Malaria
    </kwd> 
    <kwd>
      Anemia
    </kwd> 
    <kwd>
      Prevalence
    </kwd> 
    <kwd>
      Association
    </kwd>
   </kwd-group>
  </article-meta>
 </front>
 <body>
  <sec id="s1">
   <title>1. Introduction</title>
   <p>Malaria remains one of the most prevalent and deadly parasitic diseases in sub-Saharan Africa, and its eradication <xref ref-type="bibr" rid="scirp.138141-1">
     [1]
    </xref> is still far from being achieved. One of the major complications of constant exposure to Plasmodium in endemic areas is the development of anemia. During their life cycle, Plasmodium parasites infect red blood cells, causing them to burst <xref ref-type="bibr" rid="scirp.138141-2">
     [2]
    </xref>, leading to the cyclical depletion <xref ref-type="bibr" rid="scirp.138141-2">
     [2]
    </xref> of erythrocytes.</p>
   <p>The maternal mortality rate in Cameroon is approximately 669 per 100,000 live births. Between 2017 and 2020, the number of malaria cases in Cameroon increased by 3.8%, from 250 to 260 per 1000 people, contributing to a 0.8% rise in mortality and increased complications associated with the disease <xref ref-type="bibr" rid="scirp.138141-3">
     [3]
    </xref>.</p>
   <p>The Ministry of Health in Cameroon has implemented several strategies to reduce maternal and infant mortality, including the distribution of mosquito nets <xref ref-type="bibr" rid="scirp.138141-4">
     [4]
    </xref>, malaria prevention treatments <xref ref-type="bibr" rid="scirp.138141-5">
     [5]
    </xref>, and iron supplementation for pregnant women during their first antenatal visit. However, cases of maternal or infant death, spontaneous abortion, premature delivery, and other consequences of malaria and anemia during pregnancy are still reported <xref ref-type="bibr" rid="scirp.138141-6">
     [6]
    </xref>.</p>
   <p>Several studies have demonstrated that anemia in pregnancy is largely caused by malaria in endemic areas. For instance, a study conducted in Congo by Bouyou-Akotet and colleagues in 2003 found that 63% of malaria-infected pregnant women were anemic, compared to 41% in the healthy group <xref ref-type="bibr" rid="scirp.138141-7">
     [7]
    </xref>. Similarly, Makouotode’s study in Benin showed that 34.8% of anemia cases in pregnant women were attributed to malaria. This evidence underscores the importance of the simultaneous and systematic prevention of both malaria and anemia in endemic regions <xref ref-type="bibr" rid="scirp.138141-8">
     [8]
    </xref>.</p>
   <p>To identify the most effective method for preventing maternal and infant mortality and to optimize strategies for preventing malaria and anemia, it is crucial to determine whether anemia in the target region is primarily due to malaria exposure during pregnancy or if both conditions independently warrant separate investigations. This study was conducted to address this gap, with the objective of examining the distribution of malaria and anemia among pregnant women and investigating the association between the two conditions.</p>
  </sec><sec id="s2">
   <title>2. Methodology</title>
   <sec id="s2_1">
    <title>2.1. Study Design</title>
    <p>This was a descriptive cross-sectional study with a nested case-control component, targeting pregnant women attending consultations at the selected health facilities. The cross-sectional component focused on pregnant women in their first and third trimesters, who were included by convenience sampling. Those who consented were administered a face-to-face questionnaire, approved by the investigators, to assess their knowledge of anemia and malaria. The case-control analysis was used to assess the association between malaria and the presence of anemia in pregnant women.</p>
   </sec>
   <sec id="s2_2">
    <title>2.2. Study Setting and Period</title>
    <p>The study was conducted in the outpatient services of Kuéka, Njissé, and the District Hospital of Foumban, located in the Noun department, from February to May 2021. Samples were collected in the laboratories of these health facilities and analyzed at the Njissé health center and the District Hospital.</p>
   </sec>
   <sec id="s2_3">
    <title>2.3. Sample Size</title>
    <p>The minimum sample size was estimated to be 385 participants, based on an assumed prevalence of gestational malaria of 49.9%, a 95% confidence interval, and a precision of 5%. For the case-control component, the minimum sample size was estimated at 71 participants per group, assuming an anticipated prevalence of 35%, as reported in previous studies in Cameroon, a precision of 50%, and an expected odds ratio (OR) of 1.</p>
   </sec>
   <sec id="s2_4">
    <title>2.4. Sampling</title>
    <p>In the analytical component, any pregnant woman who presented during consultation with anemia (hemoglobin levels below 11 g/dL in the first and third trimesters, or below 10.5 g/dL in the second trimester) and with the presence of Plasmodium trophozoites was considered a case. For each case, two controls were selected with matching biological characteristics, such as age range and trimester of pregnancy, but with hemoglobin levels equal to or greater than 11 g/dL and without malaria. In both groups, the presence of trophozoites was assessed without specificity regarding concentration.</p>
   </sec>
   <sec id="s2_5">
    <title>2.5. Data Collection and Outcome Assessment</title>
    <p>Eligible pregnant women were approached for the study, and a face-to-face questionnaire was administered to collect participants’ health information. The questionnaire presented at the appendix comprised four main components: anthropometric characteristics, social characteristics, knowledge and practical skills regarding malaria and anemia , and medical history. Subsequently, a blood sample was taken for hematological analyses and malaria diagnostic tests. After the analyses, the results were communicated to the patients for medical follow-up. Additional information was gathered from the patients’ health diaries.</p>
   </sec>
   <sec id="s2_6">
    <title>2.6. Malaria Diagnosis</title>
    <p>Two methods were used for the diagnosis of malaria infection; the thick smear <xref ref-type="bibr" rid="scirp.138141-9">
      [9]
     </xref> and the rapid diagnostic test (RDT). The procedures were done and counts applied as per routine and manufacturer recommendations for the RDT <xref ref-type="bibr" rid="scirp.138141-10">
      [10]
     </xref>. All women whom both the Thick Gout examination and the malaria RDT were positive were considered to have malaria.</p>
   </sec>
   <sec id="s2_7">
    <title>2.7. Hematological Tests</title>
    <p>The blood count was performed using an automated counter, which provided erythrocyte parameters, including hemoglobin level, mean corpuscular volume (MCV), hematocrit, and mean corpuscular hemoglobin concentration (MCHC). The reference values for these parameters are defined in the Winthrop erythrocyte constants.</p>
   </sec>
   <sec id="s2_8">
    <title>2.8. Data Management and Analysis</title>
    <p>Data collected on hard copies were entered into Excel 2016 and analyzed using EPI Info 7.3.5 and Excel 2016. Incomplete data were supplemented using the patients’ records. The odds ratio (OR), p-value, and confidence interval were calculated to assess the association between anemia and malaria across different scenarios (mild and moderate anemia), with two individuals matching the same characteristics used as controls.</p>
   </sec>
   <sec id="s2_9">
    <title>2.9. Ethical Considerations</title>
    <p>The protocol for this study was approved by the Cameroon National Ethics Committee for Research in Human Health (No. 2021/08/93 UECNERSH/SP). Informed consent was obtained from all women prior to their inclusion in the study.</p>
   </sec>
  </sec><sec id="s3">
   <title>3. Results</title>
   <sec id="s3_1">
    <title>3.1. Characteristics of the Study Population</title>
    <p>During this study conducted in Foumban, 430 women visiting the health centers were approached, of whom 395 (91.86%) agreed to participate. The average age of the participants was 26.73 years. Most women (357 [89.62%]) resided in the city center of Foumban. A total of 292 (73.92%) of the women were in their third trimester of pregnancy, the majority had secondary education (323 [81.77%]) as highest level of education, while fewer had higher education (34 [8.61%]) as highest level of education. <xref ref-type="table" rid="table1">
      Table 1
     </xref> presents the characteristics of included women.</p>
   </sec>
   <sec id="s3_2">
    <title>3.2. Prevalence of Malaria in Pregnant Women</title>
    <p>Out of the 395 women tested, 20 (5.06%) were positive for malaria infection, as confirmed by both thick film and rapid diagnostic tests (RDTs). The prevalence of malaria was 7.01% in the first trimester, 4.34% in the second trimester, and 4.79% in the third trimester of pregnancy.</p>
   </sec>
   <sec id="s3_3">
    <title>3.3. Prevalence of Anemia in Pregnant Women</title>
    <p>In the study population, 120 women (30.37%) developed anemia. The mean hemoglobin level was 11.53 g/dL, with a minimum of 6.7 g/dL and a maximum of 16.4 g/dL. Among the anemia cases, 73 women (60.83%) had mild anemia, 46 (38.33%) had moderate anemia, and only one (0.83%) had severe anemia. In the first trimester, there were 13 cases out of 57 (22.80%), 14 cases out of 46 (30.43%) in the second trimester, and 93 cases out of 292 (31.84%) in the third trimester. <xref ref-type="table" rid="table2">
      Table 2
     </xref> presents the distribution of types of anemia with respect to the trimester of pregnancy. Among the 120 cases of anemia, 87 (72.00%) were classified as normocytic anemia, with 81 out of 87 cases (93%) being normocytic normochromic. Additionally, 4 cases (3.33%) were macrocytic, and 28 cases (23.33%) were microcytic.</p>
    <table-wrap id="table1">
     <label>
      <xref ref-type="table" rid="table1">
       Table 1
      </xref></label>
     <caption>
      <title>
       <xref ref-type="bibr" rid="scirp.138141-"></xref>Table 1. Characteristics of the study population.</title>
     </caption>
     <table class="MsoTableGrid custom-table" border="0" cellspacing="0" cellpadding="0"> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="55.06%"><p style="text-align:center">Characteristics</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.46%"><p style="text-align:center">Frequency</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.48%"><p style="text-align:center">Proportion(%)</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="55.06%"><p style="text-align:center">Age groups</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.46%"><p style="text-align:center"></p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.48%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td class="custom-top-td acenter" width="55.06%"><p style="text-align:center">˂20</p></td> 
       <td class="custom-top-td acenter" width="22.46%"><p style="text-align:center">44</p></td> 
       <td class="custom-top-td acenter" width="22.48%"><p style="text-align:center">11.13</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="55.06%"><p style="text-align:center">20-29</p></td> 
       <td class="acenter" width="22.46%"><p style="text-align:center">216</p></td> 
       <td class="acenter" width="22.48%"><p style="text-align:center">54.68</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="55.06%"><p style="text-align:center">30-39</p></td> 
       <td class="acenter" width="22.46%"><p style="text-align:center">124</p></td> 
       <td class="acenter" width="22.48%"><p style="text-align:center">31.39</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="55.06%"><p style="text-align:center"></p></td> 
       <td class="acenter" width="22.46%"><p style="text-align:center">11</p></td> 
       <td class="acenter" width="22.48%"><p style="text-align:center">2.78</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="55.06%"><p style="text-align:center">Area of residence</p></td> 
       <td class="acenter" width="22.46%"><p style="text-align:center"></p></td> 
       <td class="acenter" width="22.48%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="55.06%"><p style="text-align:center">Foumban</p></td> 
       <td class="acenter" width="22.46%"><p style="text-align:center">357</p></td> 
       <td class="acenter" width="22.48%"><p style="text-align:center">89.62</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td acenter" width="55.06%"><p style="text-align:center">Rural</p></td> 
       <td class="custom-bottom-td acenter" width="22.46%"><p style="text-align:center">38</p></td> 
       <td class="custom-bottom-td acenter" width="22.48%"><p style="text-align:center">9.62</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="55.06%"><p style="text-align:center">Pregnancy trimester at time of inclusion</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.46%"><p style="text-align:center"></p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.48%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td class="custom-top-td acenter" width="55.06%"><p style="text-align:center">Trimester 1</p></td> 
       <td class="custom-top-td acenter" width="22.46%"><p style="text-align:center">57</p></td> 
       <td class="custom-top-td acenter" width="22.48%"><p style="text-align:center">14.43</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="55.06%"><p style="text-align:center">Trimester 2</p></td> 
       <td class="acenter" width="22.46%"><p style="text-align:center">46</p></td> 
       <td class="acenter" width="22.48%"><p style="text-align:center">11.64</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td acenter" width="55.06%"><p style="text-align:center">Trimester 3</p></td> 
       <td class="custom-bottom-td acenter" width="22.46%"><p style="text-align:center">292</p></td> 
       <td class="custom-bottom-td acenter" width="22.48%"><p style="text-align:center">73.92</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="55.06%"><p style="text-align:center">Religion</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.46%"><p style="text-align:center"></p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.48%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td class="custom-top-td acenter" width="55.06%"><p style="text-align:center">Muslim</p></td> 
       <td class="custom-top-td acenter" width="22.46%"><p style="text-align:center">317</p></td> 
       <td class="custom-top-td acenter" width="22.48%"><p style="text-align:center">80.75</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td acenter" width="55.06%"><p style="text-align:center">Christian</p></td> 
       <td class="custom-bottom-td acenter" width="22.46%"><p style="text-align:center">78</p></td> 
       <td class="custom-bottom-td acenter" width="22.48%"><p style="text-align:center">19.24</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="55.06%"><p style="text-align:center">Marital status</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.46%"><p style="text-align:center"></p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.48%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td class="custom-top-td acenter" width="55.06%"><p style="text-align:center">Married</p></td> 
       <td class="custom-top-td acenter" width="22.46%"><p style="text-align:center">319</p></td> 
       <td class="custom-top-td acenter" width="22.48%"><p style="text-align:center">80.75</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td acenter" width="55.06%"><p style="text-align:center">Single</p></td> 
       <td class="custom-bottom-td acenter" width="22.46%"><p style="text-align:center">76</p></td> 
       <td class="custom-bottom-td acenter" width="22.48%"><p style="text-align:center">19.24</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="55.06%"><p style="text-align:center">Level of education</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.46%"><p style="text-align:center"></p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.48%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td class="custom-top-td acenter" width="55.06%"><p style="text-align:center">Primary</p></td> 
       <td class="custom-top-td acenter" width="22.46%"><p style="text-align:center">38</p></td> 
       <td class="custom-top-td acenter" width="22.48%"><p style="text-align:center">9.62</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="55.06%"><p style="text-align:center">Secondary</p></td> 
       <td class="acenter" width="22.46%"><p style="text-align:center">323</p></td> 
       <td class="acenter" width="22.48%"><p style="text-align:center">81.77</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td acenter" width="55.06%"><p style="text-align:center">Higher education</p></td> 
       <td class="custom-bottom-td acenter" width="22.46%"><p style="text-align:center">34</p></td> 
       <td class="custom-bottom-td acenter" width="22.48%"><p style="text-align:center">8.6</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="55.06%"><p style="text-align:center">Mosquito net Usage</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.46%"><p style="text-align:center"></p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.48%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td class="custom-top-td acenter" width="55.06%"><p style="text-align:center">Yes</p></td> 
       <td class="custom-top-td acenter" width="22.46%"><p style="text-align:center">218</p></td> 
       <td class="custom-top-td acenter" width="22.48%"><p style="text-align:center">55.18</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td acenter" width="55.06%"><p style="text-align:center">No</p></td> 
       <td class="custom-bottom-td acenter" width="22.46%"><p style="text-align:center">177</p></td> 
       <td class="custom-bottom-td acenter" width="22.48%"><p style="text-align:center">44.81</p></td> 
      </tr> 
     </table>
    </table-wrap>
    <table-wrap id="table2">
     <label>
      <xref ref-type="table" rid="table2">
       Table 2
      </xref></label>
     <caption>
      <title>
       <xref ref-type="bibr" rid="scirp.138141-"></xref>Table 2. Distribution of women according to trimester of pregnancy and severity of anemia.</title>
     </caption>
     <table class="MsoTableGrid custom-table" border="0" cellspacing="0" cellpadding="0"> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="16.67%"><p style="text-align:center">Trimester</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="21.37%"><p style="text-align:center">Mild anemia (%)</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="24.78%"><p style="text-align:center">Moderate anemia (%)</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="22.22%"><p style="text-align:center">Severe anemia (%)</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="14.95%"><p style="text-align:center">Total (%)</p></td> 
      </tr> 
      <tr> 
       <td class="custom-top-td acenter" width="16.67%"><p style="text-align:center">Trimester 1</p></td> 
       <td class="custom-top-td acenter" width="21.37%"><p style="text-align:center">8</p></td> 
       <td class="custom-top-td acenter" width="24.78%"><p style="text-align:center">5</p></td> 
       <td class="custom-top-td acenter" width="22.22%"><p style="text-align:center">0</p></td> 
       <td class="custom-top-td acenter" width="14.95%"><p style="text-align:center">13 (10.83)</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="16.67%"><p style="text-align:center">Trimester 2</p></td> 
       <td class="acenter" width="21.37%"><p style="text-align:center">9</p></td> 
       <td class="acenter" width="24.78%"><p style="text-align:center">5</p></td> 
       <td class="acenter" width="22.22%"><p style="text-align:center">0</p></td> 
       <td class="acenter" width="14.95%"><p style="text-align:center">14 (11.66)</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="16.67%"><p style="text-align:center">Trimester 3</p></td> 
       <td class="acenter" width="21.37%"><p style="text-align:center">56</p></td> 
       <td class="acenter" width="24.78%"><p style="text-align:center">36</p></td> 
       <td class="acenter" width="22.22%"><p style="text-align:center">1</p></td> 
       <td class="acenter" width="14.95%"><p style="text-align:center">93 (77.50)</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td acenter" width="16.67%"><p style="text-align:center">Total (%)</p></td> 
       <td class="custom-bottom-td acenter" width="21.37%"><p style="text-align:center">73 (60.83)</p></td> 
       <td class="custom-bottom-td acenter" width="24.78%"><p style="text-align:center">46 (38.33)</p></td> 
       <td class="custom-bottom-td acenter" width="22.22%"><p style="text-align:center">1 (0.83)</p></td> 
       <td class="custom-bottom-td acenter" width="14.95%"><p style="text-align:center">120 (100%)</p></td> 
      </tr> 
     </table>
    </table-wrap>
   </sec>
   <sec id="s3_4">
    <title>3.4. Association between Malaria and Anemia</title>
    <p>Among the 120 cases identified with anemia, 8 cases also had malaria. These malaria cases were primarily associated with normocytic anemia, with only one case linked to microcytic anemia. <xref ref-type="table" rid="table3">
      Table 3
     </xref> presents the association between malaria infection and the presence of mild or moderate anemia. Malaria infection was associated with an increased risk of developing mild anemia (OR = 1.80 [0.66 - 4.85]) and a decreased risk of developing moderate anemia (OR = 0.74 [0.16 - 3.33]); however, these associations were not statistically significant.</p>
    <table-wrap id="table3">
     <label>
      <xref ref-type="table" rid="table3">
       Table 3
      </xref></label>
     <caption>
      <title>
       <xref ref-type="bibr" rid="scirp.138141-"></xref>Table 3. Association between malaria infection and anemia in pregnant women.</title>
     </caption>
     <table class="MsoTableGrid custom-table" border="0" cellspacing="0" cellpadding="0"> 
      <tr> 
       <td rowspan="3" class="custom-top-td acenter" width="33.80%" colspan="2"><p style="text-align:center"></p></td> 
       <td class="custom-top-td acenter" width="35.24%" colspan="2"><p style="text-align:center">Presence of Anemia</p></td> 
       <td rowspan="2" class="custom-top-td acenter" width="7.46%"><p style="text-align:center">OR</p></td> 
       <td rowspan="2" class="custom-top-td acenter" width="14.15%"><p style="text-align:center">IC</p></td> 
       <td rowspan="1" class="custom-top-td acenter" width="9.35%"><p style="text-align:center">P-value</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="13.75%"><p style="text-align:center">No n (%)</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="21.50%"><p style="text-align:center">Yes n (%)</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td custom-top-td acenter" width="35.24%" colspan="2"><p style="text-align:center">Mild anemia</p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="7.46%"><p style="text-align:center"></p></td> 
       <td class="custom-bottom-td custom-top-td acenter" width="14.15%"><p style="text-align:center"></p></td> 
       <td class="custom-top-td acenter" width="9.35%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td rowspan="5" class="custom-top-td acenter" width="25.22%"><p style="text-align:center">Plasmodium infection</p></td> 
       <td class="custom-top-td acenter" width="8.58%"><p style="text-align:center">No</p></td> 
       <td class="custom-top-td acenter" width="13.75%"><p style="text-align:center">281 (80.75)</p></td> 
       <td class="custom-top-td acenter" width="21.50%"><p style="text-align:center">67 (19.25)</p></td> 
       <td rowspan="2" class="custom-top-td acenter" width="7.46%"><p style="text-align:center">1.80</p></td> 
       <td rowspan="2" class="acenter" width="14.15%"><p style="text-align:center">0.66-4.85</p></td> 
       <td rowspan="2" class="acenter" width="9.35%"><p style="text-align:center">0.24</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="8.58%"><p style="text-align:center">Yes</p></td> 
       <td class="acenter" width="13.75%"><p style="text-align:center">14 (70.00)</p></td> 
       <td class="acenter" width="21.50%"><p style="text-align:center">6 (30.00)</p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="8.58%"><p style="text-align:center"></p></td> 
       <td class="acenter" width="42.70%" colspan="3"><p style="text-align:center">Moderate anemia</p></td> 
       <td class="acenter" width="14.15%"><p style="text-align:center"></p></td> 
       <td class="acenter" width="9.35%"><p style="text-align:center"></p></td> 
      </tr> 
      <tr> 
       <td class="acenter" width="8.58%"><p style="text-align:center">No</p></td> 
       <td class="acenter" width="13.75%"><p style="text-align:center">303 (87.07)</p></td> 
       <td class="acenter" width="21.50%"><p style="text-align:center">45 (12.93)</p></td> 
       <td rowspan="2" class="acenter" width="7.46%"><p style="text-align:center">0.74</p></td> 
       <td rowspan="2" class="acenter" width="14.15%"><p style="text-align:center">0.16 - 3.33</p></td> 
       <td rowspan="2" class="acenter" width="9.35%"><p style="text-align:center">0.70</p></td> 
      </tr> 
      <tr> 
       <td class="custom-bottom-td acenter" width="8.58%"><p style="text-align:center">Yes</p></td> 
       <td class="custom-bottom-td acenter" width="13.75%"><p style="text-align:center">418 (90.00)</p></td> 
       <td class="custom-bottom-td aleft" width="21.50%"><p style="text-align:left">2 (10.00)</p></td> 
      </tr> 
     </table>
    </table-wrap>
   </sec>
  </sec><sec id="s4">
   <title>4. Discussion</title>
   <p>This study aimed to determine the association between the occurrence of malaria and the development of anemia among pregnant women. The prevalence of malaria was 5.06%. Anemia was diagnosed in 120 women (30.37%), with 73 (60.83%) cases classified as mild, 46 (38.33%) as moderate, and 1 (0.83%) as severe. Among the 20 cases identified with malaria, 8 (40%) had anemia. No significant association was found between malaria infection and anemia in pregnant women.</p>
   <p>Malaria is a disease commonly endemic in sub-Saharan countries including Cameroon <xref ref-type="bibr" rid="scirp.138141-11">
     [11]
    </xref>. Malaria represents a significant serious risk for pregnant women and the foetus <xref ref-type="bibr" rid="scirp.138141-12">
     [12]
    </xref>. In these women, it can lead to complications that include fetal loss, premature delivery, impaired fetal growth, and the birth of low-weight infants, which are significant risk factors for mortality. In the present study, the prevalence of malaria among pregnant women was assessed, yielding a rate of 5.06%. This prevalence is lower than the 36.5% reported by Zara Maman et al. in Niger (Niamey) in 2020 and the 34.7% reported in another locality in Cameroon <xref ref-type="bibr" rid="scirp.138141-13">
     [13]
    </xref>. This difference may be attributed to the relatively short duration of our study, which does not necessarily reflect the peak transmission season, typically occurring during the early rainy season rather than the dry season. The difference may also be attributed to the difference in contexts and targets of the studies. The relatively low prevalence observed could suggest that preventive measures, such as the use of long-lasting insecticidal nets (LLINs) distributed during the first antenatal care (ANC) visit and intermittent preventive treatment for malaria, are being effectively adopted <xref ref-type="bibr" rid="scirp.138141-5">
     [5]
    </xref>. More than half (55.18%) of the women in this study reported regular use of long-lasting insecticidal nets. However, we did not collect data on the administration of intermittent treatment or the availability of mosquito nets to verify these hypotheses.</p>
   <p>Anemia like malaria represents serious dangers for the future of the pregnant woman and the fetus <xref ref-type="bibr" rid="scirp.138141-14">
     [14]
    </xref>. It is associated with increased morbidity and fetal death <xref ref-type="bibr" rid="scirp.138141-3">
     [3]
    </xref>. The overall prevalence of anemia in pregnant women in this study was 30.37%, predominantly normocytic 72% (normocytic normochromic 93%). It is lower than the prevalence reported by Koura et al. in his study on the etiologies of anemia in Benin in 2011 which was 65.7% <xref ref-type="bibr" rid="scirp.138141-15">
     [15]
    </xref>, and that obtained by Nguefack et al. on the prevalence of anemia and associated factors at the Douala General Hospital in 2013 which was 39.8% <xref ref-type="bibr" rid="scirp.138141-16">
     [16]
    </xref>. This difference can be explained by the difference in settings and approaches. The relatively high prevalence of anemia can question the adapted and complete diet of pregnant women in the covered locality contributing to the sufficient intake of iron <xref ref-type="bibr" rid="scirp.138141-8">
     [8]
    </xref>. Also, this questions the availability and administration of iron supplements which are provided for, in the care system for pregnant women in health facilities <xref ref-type="bibr" rid="scirp.138141-5">
     [5]
    </xref>. The fact that most anemias cases are mild anemia reduces the alarm since they could be attributed to the increase in blood volume that evolves with pregnancy. It would nevertheless be beneficial to carry out additional studies to investigate the content of the diet of pregnant women.</p>
   <p>Malaria and anemia are two factors that can weaken the immunity of pregnant women, and together, they represent significant risk factors and outcomes of pregnancy <xref ref-type="bibr" rid="scirp.138141-17">
     [17]
    </xref> <xref ref-type="bibr" rid="scirp.138141-18">
     [18]
    </xref>. As previously, the causal relationship between the two conditions is difficult to establish or may be linked to each other. The results of this study indicate an absence of association between malaria and anemia (OR = 1.80 [0.66 - 4.85]). This finding contradicts research conducted in other settings that identified malaria as a risk factor for the development of anemia in pregnant women. The lack of a significant association of co-infection in the present study should be interpreted with caution as it may be linked to methodological biases of the study. The sample size used for the various analysis was relatively small, and only a limited number of malaria cases were identified during the study period and included in the analysis. Consequently, the study’s power may not be sufficient to adequately address the research question.</p>
   <p>The interpretation of results in the present study should consider several limitations. The study was conducted over a short period during a low transmission period for malaria, which does not accurately reflect the seasonal dynamics of malaria transmission in Cameroon. Additionally, the sample size estimated for the case-control component was not achieved, which could lead to sampling fluctuations and result in over- or under-estimation of the findings, as well as wider confidence intervals.</p>
  </sec><sec id="s5">
   <title>5. Conclusion</title>
   <p>Plasmodium infection is a prevalent issue in the Noun department, particularly in the town of Foumban in Cameroon. The low prevalence of malaria observed in this study makes the interpretation of the association between malaria infection and anemia in pregnant women ambiguous.</p>
  </sec><sec id="s6">
   <title>State of Knowledge on the Subject</title>
  </sec><sec id="s7">
   <title>Contribution of Our Study to Knowledge</title>
  </sec><sec id="s8">
   <title>Acknowledgements</title>
   <p>We thank the Foumban District Hospital, the Njissé Protestant Hospital and the Kueka Medical Center for allowing us to conduct this study within their institutions.</p>
  </sec><sec id="s9">
   <title>Appendix</title>
   <sec id="s9_1">
    <title>Questionnaire</title>
    <p>1) Name of health facility:__________________________________________,</p>
    <p>2) General characteristics</p>
    <p>a) Age:........... years</p>
    <p>c) weight: .........kg</p>
    <p>d) number of ANC performed:..........</p>
    <p>e) number of pregnancies:............</p>
    <p>f) pregnancy age:...........</p>
    <p>3) Social characteristics:</p>
    <p>a) Village/neighbourhood/town: ....................................</p>
    <p>b) Highest level of education: not attended □ primary □ secondary □higher education □</p>
    <p>c) Profession:.................................................</p>
    <p>d) Religion: ..................................</p>
    <p>e) Marital status: single □ married (monogamy polygamy) □divorced □</p>
    <p>4) Practical knowledge and skills</p>
    <p>Anaemia and history</p>
    <p>a) Do you have a blood disorder? yes □ no □</p>
    <p>Thalassaemia , sickle cell anaemia other (please specify)................</p>
    <p>Malaria research and history</p>
    <p>a) Do you sleep under a mosquito net? yes □ no □</p>
    <p>If yes, impregnated? Yes □ no □</p>
    <p>How old is it? less than one year □ , 2 years □ more than 2 years □more than 3 years □</p>
    <p>b) How often do you sleep under your net per week? rarely (&lt;4) □ regularly (&gt;4) □</p>
    <p>c) Do you use insecticides? Yes □ no □</p>
    <p>5) Laboratory analysis</p>
    <p>Malaria tests conducted: Yes □ no □</p>
    <p>Results of malaria RDT:</p>
    <p>parasite count (microscopy):</p>
    <p>Blood sample collected? Yes no</p>
    <p>Results of tests:</p>
    <p>Hemoglobin level: _____</p>
    <p>Corpuscular volume (MCV): _____</p>
    <p>Hematocrit: ____</p>
    <p>Corpuscular hemoglobin concentration (MCHC): ____</p>
   </sec>
  </sec>
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