- Research article
- Open Access
Factors influencing childhood immunisation uptake in Africa: a systematic review
BMC Public Health volume 21, Article number: 1475 (2021)
Vaccine preventable diseases are still the most common cause of childhood mortality, with an estimated 3 million deaths every year, mainly in Africa and Asia. An estimate of 29% deaths among children aged 1–59 months were due to vaccine preventable diseases. Despite the benefits of childhood immunisation, routine vaccination coverage for all recommended Expanded Programme on Immunization vaccines has remained poor in some African countries, such as Nigeria (31%), Ethiopia (43%), Uganda (55%) and Ghana (57%). The aim of this study is to collate evidence on the factors that influence childhood immunisation uptake in Africa, as well as to provide evidence for future researchers in developing, implementing and evaluating intervention among African populations which will improve childhood immunisation uptake.
We conducted a systematic review of articles on the factors influencing under-five childhood immunisation uptake in Africa. This was achieved by using various keywords and searching multiple databases (Medline, PubMed, CINAHL and Psychology & Behavioral Sciences Collection) dating back from inception to 2020.
Out of 18,708 recorded citations retrieved, 10,396 titles were filtered and 324 titles remained. These 324 abstracts were screened leading to 51 included studies. Statistically significant factors found to influence childhood immunisation uptake were classified into modifiable and non-modifiable factors and were further categorised into different groups based on relevance. The modifiable factors include obstetric factors, maternal knowledge, maternal attitude, self-efficacy and maternal outcome expectation, whereas non-modifiable factors were sociodemographic factors of parent and child, logistic and administration factors.
Different factors were found to influence under-five childhood immunisation uptake among parents in Africa. Immunisation health education intervention among pregnant women, focusing on the significant findings from this systematic review, would hopefully improve childhood immunisation uptake in African countries with poor coverage rates.
Vaccine Preventable Diseases (VPDs) are still the most common cause of childhood mortality with an estimated 3 million deaths every year, mainly in Africa and Asia . A study conducted by the World Health Organization (WHO) and United Nations International Children’s Emergency Fund (UNICEF) in 2014, reported that an estimate of 29% deaths among children aged 1–59 months were due to vaccine preventable diseases . In 2014, there were 24.1 million reported cases of pertussis, with the African region accounting for the highest proportion of 7.8 million (33%) cases .
Immunisation is considered to be one of the most successful and cost-effective public health sustainable interventions for human beings against diseases that affect our health . Routine immunisation plays a key role to significantly reduce child mortality due to vaccine preventable diseases. WHO revealed that immunisation has been estimated to prevent 3 million deaths globally every year . Between the years 2000 and 2016, a decrease of 84% in the measles mortality rate was recorded worldwide due to measles vaccination . Likewise, a reduction in pertussis mortality was also recorded globally from 390,000 deaths in 1999 among children younger than 5 years of age to 160,700 deaths in 2014 as a result of vaccine effectiveness against pertussis [6, 7].
According to the Expanded Programme on Immunization (EPI), every child in Africa must receive one dose of Bacillus Calmette Guerin (BCG), Oral Polio Vaccine (OPV0) and Hepatitis B Vaccine (HBV1) at birth, Penta1 & OPV1 at 6 weeks of age, Penta2 & OPV2 at 10 weeks of age, Penta3 & OPV3 at 14 weeks of age and measles and yellow fever at 9 months of age. Despite the benefits of childhood immunisation, routine vaccination coverage for all recommended EPI vaccines has remained poor in some African countries such as Nigeria (31%; 2018), Ethiopia (43%; 2019), Uganda (55%; 2016) and Ghana (57%; 2014). The coverage is higher in some of the African countries, such as in Tanzania in the year 2016 and Kenya in 2014 (75 and 78%, respectively) [8,9,10,11,12,13]. Diphtheria Pertussis and Tetanus (DPT3) coverage is also low in African countries such as Nigeria (50%) . However, these coverages are still below the targets endorsed by WHO in the 2012 Global Vaccine Action Plan, which aimed to ensure delivery of universal access to immunisation with associated targets reaching 90% of the national vaccination coverage and at least 80% vaccination coverage in every district .
Previous observational studies conducted among African countries and other parts of the world highlighted various factors that influenced childhood immunisation uptake. These factors are socio-demographic factors including maternal age, maternal educational status, paternal educational status, mother’s marital status, maternal occupation, family income, wealth index and ethnicity [15,16,17,18] and obstetric factors including antenatal care follow-up, postnatal care follow-up, preceding birth interval and place of delivery [18,19,20,21]. Despite the poor childhood immunisation uptake in African countries, no current systematic review has been conducted that focuses on describing, in detail, the factors influencing childhood immunisation uptake in Africa. Therefore, the aim of this study is to collate evidence on the factors that influence childhood immunisation uptake in Africa as well as to provide evidence for future researchers in developing, implementing and evaluating intervention among African populations, which will improve childhood immunisation uptake. This study will assist in developing health promotional programs and policies on childhood immunisation in Africa.
This systematic review was conducted and reported in accordance with published Reporting Items for Systematic Reviews and Meta-analysis (PRISMA) .
Electronic database search
We designed and implemented a comprehensive systematic literature search with the assistance of an experienced librarian using a well-developed strategy. The following databases were searched on the same date, from date of inception to 26th of October 2020: Medline, PubMed, CINAHL and Psychology & Behavioral Science Collection. The search strategy comprised a combination of medical subheading (MeSH) terms and keywords: childhood immunization uptake, factors, influencing or affecting, child or newborn or infant or baby, immunisation or vaccines or vaccination or pentavalent vaccine or Penta vaccine or Bacillus Calmette Guerin vaccine or BCG or Diphtheria Tetanus and Pertussis or DTP or Oral Polio vaccine or OPV or Measles vaccine or Yellow fever vaccine or Pneumococcal Conjugate vaccine or PCV or Hepatitis B vaccine or Hep B vaccine, uptake or adherence or compliance or coverage (Supplemental file 1).
The search strategy was developed in Medline and adapted for the other databases in order to account for differences in indexing. We restricted it to humans in the search process. Reference lists of included studies were also searched.
We included any observational (cross-sectional, case-control and cohort), mixed method study (convergent, exploratory and explanatory type) and qualitative study design (phenomenological study and case study) conducted in Africa published in the English language with findings relating to childhood immunisation uptake. The participants of these studies were caregivers with children under 5 years of age. The included studies also reported data on association between possible predictors and childhood immunisation or provided details of any non-compliance (vaccine refusal). We also included peer-reviewed full text publications reporting an association between at least one individual factor and uptake of childhood immunisation. Moreover, no restrictions were imposed on the year of publication.
We excluded articles without any description of study design, intervention studies (randomised controlled trial and quasi experimental design), review articles or systematic reviews and studies which made no mention of any of the Expanded Programme on Immunization target vaccines according to the National Program on Immunization (Table 1).
Description of study outcomes
Parental socio-demographic factors: maternal age, maternal education, paternal education, income, place of residence, maternal occupation and religion; child socio-demographic factors: child age and gender; religion and cultural beliefs; obstetric history: place of delivery, antenatal care follow-up and postnatal care follow-up; health care system: distance to hospital and availability of vaccine; knowledge; outcome expectation and self-efficacy (Table 2).
Selection of studies
All searched articles were evaluated for eligibility in order to be included in the review. The main researcher first removed all duplicates and screened the titles using Microsoft Excel. Abstract screening was then conducted independently by two reviewers. The full text of any article considered potentially relevant was also retrieved independently by the two reviewers. Consensus was reached by discussion or involvement of a third reviewer when there were differences of opinion.
A data extraction form was designed and piloted for this review. The form was used to extract the following data: study characteristics such as authors’ name and year of publication, study location, method, study design, sample size, results and factors. Data was extracted independently by the two reviewers to ensure accuracy. Any difference of opinion was resolved by discussion or involvement of a third reviewer.
Categorisation of factors associated with immunisation coverage
The qualitative synthesis of the factors influencing childhood immunisation uptake among parents of children under-five years of age are categorised into two groups, namely modifiable and non-modifiable factors. Modifiable factors are considered to be factors that are intrinsic to mothers/caregivers (can be changed through health education intervention targeting mothers/caregivers) while non-modifiable factors are considered to be factors that are extrinsic to mothers/caregivers (cannot be changed through health education intervention targeting mothers/caregivers). This classification would enable researchers to plan an appropriate health education intervention, with the use of appropriate health behavioural theory.
Assessment of methodological quality
ANG and NZ assessed the methodological quality for each of the included studies using the criteria outlined in the Joanna Briggs Institute (JBI) for both quantitative and qualitative studies , which includes 8 items for cross-sectional study design and 10 items for both case-control and qualitative study designs respectively. Any disagreement was resolved by discussion. In this review, we grouped articles into three categories: high, moderate and low quality for their methodological qualities using the JBI critical appraisal tools; studies scoring > 70% were considered as high quality, 60–69% were moderate quality and < 60% were low quality. This review may be prone to publication bias as grey literature/unpublished literature and studies that are not published in the English language were not considered.
No meta-analysis was conducted, however, the results obtained from the systematic review were synthesised and placed in a logic framework. The various results obtained from the systematic review were shown in the logic framework and discussed in a narrative synthesis manner. The descriptive information and data for each of the included studies were captured using a table formulated by the researchers. These included study author, year and location; method; study design; sample size; results and factors. ANG synthesis ed the data and created a table with input from both NZ and SS. ANG and NZ reported factors under two different categories namely: modifiable and non-modifiable factors.
In this review, a wide range of AOR and 95% confidence intervals (upper limit and lower limit) from different studies were reported and confidence interval that does not include 1 and p-value less than 0.05 with AOR greater than 1 are considered as statistically significant.
Of 18,708 recorded citations retrieved, 8279 duplicates and 33 articles published in languages other than the English language were removed. After screening 10,396 titles, 324 records remained and their abstracts were screened. Seventy-nine records remained after abstracts were screened and their full texts were assessed for eligibility. We excluded 44 studies in total, of which 16 studies were not conducted in Africa, 12 studies did not make mention of the EPI vaccine, 9 were review studies and 7 were intervention studies. In total, 51 studies were included, of which 35 were from the main database search, 8 from forward citation tracking and 8 from reference tracking. All the included studies looked into factors influencing childhood immunisation uptake in one of the African countries (Fig. 1). Table 3 contained a summary of the factors that influence under-five childhood immunisation uptake among mothers/caregivers. The studies used different study designs to investigate the factors that influence under-five childhood immunisation uptake among parents.
The majority of our epidemiological studies achieved at least 70% scores which is considered high [16, 18, 20, 23,24,25,26,27,28,29, 31,32,33,34,35,36,37,38, 40, 42,43,44,45, 48, 50,51,52, 55, 57,58,59, 61,62,63,64,65,66,67,68,69] and the overall risk of bias was moderate in 10 studies (Table 3) [15, 19, 39, 46, 47, 49, 53, 54, 56, 60]. Out of the 10 studies, 6 had a moderate risk of bias in the confounding domain and 4 had a moderate risk of bias in the outcome assessment domain. However, none of the included epidemiological studies demonstrated either a serious or low risk of bias < 60%.
The studies were conducted in various countries within Africa, namely Angola, Cameroon, Congo and Mozambique with one study each [25, 32, 33, 44]. Burkina Faso, Gambia, Ghana and Tanzania contributed two studies each [24, 28, 31, 39,40,41, 53, 55]. Kenya and Uganda contributed three studies each [19, 26, 42, 43, 54, 63] and Ethiopia had 14 studies [16, 20, 23, 29, 34,35,36,37,38, 59, 65,66,67, 69]. Most of the studies were conducted in Nigeria with a total number of 19 studies [15, 18, 27, 45,46,47,48,49,50,51,52, 56,57,58, 60,61,62, 64, 68]. The majority of the study respondents were parents of children who were within the childhood immunisation schedule range. The studies focused on factors that influence or determine childhood immunisation uptake. The majority of these studies were carried out mainly in West Africa (Nigeria) due to poor childhood immunisation uptake in the nation. This demonstrated that most of the researches were still attempting to determine the main factors that play a role in influencing childhood immunisation uptake, which would enable researchers to address the issues for the development of future health education intervention programs.
Study type and respondents
The majority of the studies were a cross-sectional study design with a total number of 42 studies, 3 qualitative study design [38, 50, 64], 4 mixed method [23, 37, 41, 68] and 2 case-control [34, 59]. The number of study respondents varied across the studies with 14 being the smallest and 7815 the largest (Table 3).
Factors associated with immunisation coverage
The factors that are considered modifiable in this review are obstetric factors, maternal knowledge, maternal outcome expectation, maternal attitude, maternal self-efficacy and environmental factors. These factors were found to statistically influence childhood immunisation uptake in Africa and reported a wide range of AOR and 95% confidence intervals (upper limit and lower limit) from different studies.
In respect to obstetric factors, place of delivery was evident in five studies which are all statistically significant with AOR 2.11–3.13 and 95% confidence intervals (CI): 1.09, 7.13) [26, 44, 63, 65, 67] and three studies also reported postnatal care follow-up with AOR 1.8–5.8; 95% CI: 1.21, 3.16 [20, 59, 63]. Six studies revealed antenatal care follow-up with AOR 2.4–3.7; 95% CI: 1.1, 10.0 [16, 19, 65,66,67, 69], likewise maternal tetanus toxoid was reported in two studies with AOR 2.43–3.2; 95% CI: 1.10, 10.00 [27, 36].
Many studies reported factors relating to maternal knowledge, for example, knowledge on child immunisation (AOR = 3.3; 95% CI: 1.87, 7.43) [34, 67], knowledge on preventive objective of immunisation (p < 0.05) , lack of knowledge on vaccines which accounted for 50% reason for non-compliance , knowledge on child vaccination schedule, which was reported in three studies with AOR 2.9–4.3; 95% CI: 1.42, 8.0 [26, 35, 59]. Likewise, awareness on immunisation and immunisation programs were also revealed in three studies with AOR = 1.9–2.8; 95% CI: 1.44, 2.49 [20, 25, 37]. Two studies reported the impact of knowledge of VPDs (AOR = 2.5; 95% CI: 1.5, 4.2) [16, 61]. For maternal attitude and self-efficacy, three studies reported availability of child immunisation records with AOR = 2.38–7.7; 95% CI: 1.43, 10. 06) [20, 31, 47]. Likewise, four studies documented fear of vaccine side effects (AOR = 1.92; 95% CI: 1.01, 3.70) [23, 57, 60, 62], negative beliefs towards childhood immunisation uptake , good perception of immunisation (AOR = 2.60; 95% CI: 1.50, 4.51)  and confidence towards vaccine safety (p < 0.05) .
With regards to maternal outcome expectation, three studies reported knowledge on benefit of childhood immunisation uptake (AOR = 5.51; 95% CI: 1.52, 19.94) [23, 35, 54] and one study documented severity of VPDs (p = 0.045) . With regards to environmental factors, two studies reported religious belief (OR = 1.65: 95% CI: 1.15, 2.36) [44, 64]. Likewise, two studies also attributed cultural belief [56, 60].
In this review, parental socio-demographic factors (maternal age, maternal education, paternal education, maternal marital status, area of residence, wealth index, number of siblings, religion, ethnicity and family income), child socio-demographic factors (gender, age) and environmental factors (distance to health facility, mode of transportation, accessibility of vaccination site, satisfaction with vaccine services, quality of vaccine provider clients relationship and availability of vaccine) are considered as non-modifiable factors. These factors were found to statistically influence childhood immunisation uptake in Africa and reported a wide range of AOR and 95% confidence intervals (upper limit and lower limit) from different studies.
In respect to parental socio-demographic factors, three studies reported maternal age with AOR = 1.08–9.54; 95% CI: 1.08, 18.09; p < 0.05 [23, 36, 38], nine studies reported maternal educational status which were all statistically significant with AOR = 3.55–7.50; 95% CI: 1.02, 10.60 [15, 18, 26, 55, 65,66,67, 69], three studies reported paternal education (AOR = 3.1; 95% CI: 1.3, 7.4) [16, 48, 59], three studies reported maternal occupation and mothers’ marital status respectively (AOR = 1.62–3.01; 95% CI: 1.0, 5.8) [16, 24, 58, 65]. Another two studies reported area of residence (AOR = 2.70; 95% CI: 1.52, 4.81) [18, 26], wealth index was documented in three studies (AOR = 1.4–2.38; 95% CI: 1.06, 3.73) [20, 65, 69], three studies reported family income (AOR = 3.2; 95% CI: 1.4, 7.4) [16, 31, 59], one study reported number of siblings (APR = 1.42; 95% CI: 1.05, 1.71) , two studies reported religion (p < 0.05) [19, 44], three studies documented nomadic lifestyle (OR = 11.06; 95% CI: 4.29, 28.54) [26, 43, 68] and ethnicity was also reported in two studies (AOR = 2.47; 95% CI: 1.28, 4.76) [26, 51]. Regarding child socio-demographic factors, child age was reported in two studies (p < 0.05) [25, 56] whilst one study reported gender (OR = 2.98; 95% CI: 1.21, 7.35) . In relation to environmental factors, distance to health facility was attributed in four studies which were all statistically significant with AOR = 2.11–3.10; 95% CI: 1.46, 6.30 [16, 26, 44, 67], one study reported mode of transportation (AOR = 1.54; 95% CI: 1.20, 1.97) , accessibility of vaccination site was also documented in one study (AOR = 4.54; 95% CI: 2.34, 8.77) , four studies reported satisfaction with vaccine services (AOR = 2.63; 95% CI: 1.1, 6.3) [28, 56, 60, 64], quality of vaccine provider clients relationship was recorded in one study (AOR = 1.86; 95% CI: 1.03, 3.50)  and vaccine availability in three studies [56, 60, 68].
The main reason for conducting this systematic review was to identify the factors that influence under-five childhood immunisation uptake among parents. In this review, many factors have been found to influence childhood immunisation uptake and are categorised and reviewed below.
Parental socio-demographic factors
Maternal age was revealed to be a factor influencing childhood immunisation uptake in a case-control study conducted in Ethiopia that involved 548 children aged between 12 to 23 months, in which mothers over 19 years of age were approximately 10 times more likely to have their children fully immunised compared to mothers under 19 years of age . This may be due to knowledge gained over time on the importance of immunisation by mothers over 19 years of age, combined with the negative impact on children due to lack of immunisation. This finding is supported by two studies conducted in Ethiopia [36, 37].
In this review, maternal education was the most common reported parental socio-demographic factor found to influence childhood immunisation. Mothers with at least a primary or secondary school education were found to be approximately eight times more likely to have their children fully immunised compared to mothers with no formal education . This is more likely due to the fact that as the educational status of mothers improves, the seeking behaviour of children may perhaps increase, which in turn have positive impacts towards childhood immunisation uptake . Furthermore, this could also be a result of changes that accompany maternal education, such as changes in attitudes, traditions and beliefs, increased autonomy and control over household resources which enhance healthcare seeking . Similar findings have been reported in many studies [15, 18, 26, 55, 65,66,67, 69].
From a cross-sectional study conducted in the Sinana District of Ethiopia, consisting of 591 children aged 12–23 months, paternal education was also found to be statistically associated with the child immunisation status. Children with fathers who had a secondary or higher educational level, were three times more likely to be fully vaccinated compared with children whose fathers had no formal education [16, 48, 59]. As the educational status of fathers improves, the seeking behaviour of children may perhaps increase, which in turn may have positive impacts towards childhood immunisation uptake .
Results from a cross-sectional study conducted in the Sinana District of Ethiopia, consisting of 591 children aged 12–23 months, has found maternal occupation to be statistically associated with child immunisation uptake. The proportion of children who were not fully vaccinated was found to be higher among mothers who were housewives . Mothers whose occupation was in the farming sector, were less likely to be totally dependent on their spouses in terms of financial support and were found to be almost twice as likely to complete the immunisation of their children, compared with mothers who were housewives. A likely reason for this would be that mothers would not be reliant on their spouses to provide transport fees in order to take their children to be immunised. They most probably have been exposed to information on the benefit of childhood immunisation uptake through access to media . This finding is supported by another cross-sectional study conducted in Ethiopia .
The marital status of a mother was also reported to have an influence towards childhood immunisation. In a descriptive cross-sectional study conducted in Ghana involving 280 mothers, it was found that divorced mothers were 3 times less likely to complete immunisation schedules of their children compared to mothers who were married . In a cross-sectional study conducted in Nigeria involving 232 mothers (children aged 12–23 months), married women were observed to have a significantly adequate knowledge of immunisation which may increase the likelihood of achieving a higher rate of immunised children compared with their counterparts who were either single/divorced/widowed or separated . The marital status of a mother may enhance her knowledge in the sense that those that are married may have more access to education compared to single mothers who may have other responsibilities and would instead tend to put their education aside in order to meet the needs of their children . The supportive role of their partners may also enhance her knowledge if both partners jointly try to find ways to better the health status of their offspring .
A cross-sectional study from this review that was conducted in Kenya, which consisted of 298 mothers with children aged 12–23 months, demonstrated that area of residence statistically influenced childhood immunisation uptake. Children who lived in urban areas were 12 times more like to be vaccinated compared to children living in rural communities . In Nigeria, results obtained using NDHS data involving 5754 children aged between 12 and 23 months, also revealed a statistical association between area of residence and child immunisation status. Children residing in urban areas were more likely to be vaccinated compared to children living in rural communities. This may probably be attributed to the fact that parents living in urban areas were more likely to be educated which may increase their knowledge towards the benefit of childhood immunisation uptake compared to parents living in rural areas .
Three different cross-sectional studies conducted in Ethiopia among children aged 12–23 months found wealth index to be a factor influencing childhood immunisation uptake. Children born to mothers from a rich index group were found to be twice as likely to be fully vaccinated compared with children from mothers from a poor wealth index group [20, 65, 69]. Rich parents may have more access to media and probably have more exposure to information on the benefit of childhood immunisation uptake.
Family income was found to be another factor influencing childhood immunisation uptake in a cross-sectional study conducted in Burkina Faso consisting of 591 children aged between 12 and 23 months. The study found that if the income of a family is greater than 1000 ETB or 52 USD, it increases the tendency of having children fully vaccinated in that family by approximately three times when compared to a poor family with a lesser income . The family with a higher income may have easier access to Immunisation Centres due to accessible effective transportation options and would have less financial challenges when compared with families with a lower income. This finding was also supported by two cross-sectional study designs [31, 59].
The number of siblings was also found to be a factor affecting childhood immunisation uptake in a cross-sectional study conducted in Angola involving 1209 children under 5 years of age. A family comprising 2 to 3 siblings were more likely to vaccinate their children compared with a family with less than 2 siblings . This may be due to experience gained over time on the importance of immunisation as well as the medical complications that have occurred in children due to lack of immunisation.
Religion has been revealed by studies to be a factor influencing childhood immunisation uptake. From a cross-sectional study conducted in Uganda using Uganda Demographic Health Survey data, childhood immunisation uptake was affected by religious affiliations. Children from Muslim families had a lesser chance of been fully vaccinated compared with children from Catholic families . Likewise, in Mozambique parents with no religious affiliation were found to be twice as likely not to complete their childhood immunisation uptake . This could be due to the circulation of false information obtained via religious networks. This false information may be linked to negative beliefs of vaccines, for example, the belief that vaccines are composed of anti-fertility drugs .
Nomadic lifestyle was found to be associated with child immunisation uptake in Kenya. Children born to a family who practice a nomadic lifestyle, were found to be 11 times more likely not to be fully vaccinated compared with children born to a family that do not practice a nomadic lifestyle [26, 43, 68]. The family who practices a nomadic lifestyle may constantly change their location, switching from one place to another where immunisation services may not be readily accessible .
Ethnicity was found to be a factor affecting childhood immunisation uptake in Nigeria in which children belonging to the Igbo ethnic group were about three times more likely to be fully vaccinated compared to children belonging to an ethnic group such as Hausa, Yoruba and others [51, 56]. These disparities could be attributed to the factors prevalent at community level, for example, in the Hausa community there is low level of education, high poverty, poor utilisation of antenatal care and home delivery and all these factors are associated with poor immunisation uptake. It could also be due to a misconception regarding the safety of vaccines and fear of vaccine side effects . These findings are consistent with the findings from a systematic review conducted to determine the significant factors of adherence among parents or caregivers of under-five childhood immunisation schedules, even though the review did not specifically focus on Africa .
Child socio-demographic factors
Child gender was found to be associated with child immunisation uptake in Ibadan, Nigeria where a male child is about three times more likely to be immunised compared with a female child . This may be attributed to the beliefs of parents that immunisation will have negative impacts on their daughters when they reach child bearing age.
A contradictory finding was revealed with regards to influence of child age on immunisation uptake. In Nigeria, higher immunisation uptake was observed in children above 1 year of age (84.4%) compared with children below 1 year (63.6%) and this could be due to the fact that some mothers delay child immunisation until their children reach a certain age, due to negative beliefs that their children are too young to be immunised . In Angola, higher immunisation uptake was seen in children who were 1 year of age or less compared with children that were above 1 year of age. This could be attributed to the lectures received by mothers towards benefits of timely childhood immunisation uptake during their antenatal and postnatal care. It is likely that the content of health education delivered to the mothers has changed with more emphasis placed on the benefit of childhood immunisation uptake .
Antenatal care follow-up (ANC) was found to be a factor influencing childhood immunisation uptake in a cross-sectional study conducted in Ethiopia that involved 591 children aged between 12 and 23 months. The study showed mothers who frequently attend ANC during their pregnancy were about four times more likely to have their children fully vaccinated compared with mothers who did not attend ANC regularly . This finding is supported by the findings of a study conducted in Uganda and four more studies from Ethiopia [19, 65,66,67, 69]. Mothers who frequented health facilities during pregnancy may have received counselling on childhood immunisation where the importance of timely childhood immunisation uptake may be prioritised regularly .
The postnatal check-up was also found to be an influencing factor towards childhood uptake where children who received a check-up within 2 months after birth were twice more likely to be fully vaccinated compared to those who did not receive a check-up after delivery [20, 59, 63]. This can be attributed to educational sessions that mothers were exposed to during postnatal visits where the importance of timely immunisation of the baby may be emphasised .
The maternal tetanus toxoid (MTT) vaccine was also noted to be a factor influencing childhood immunisation uptake. Mothers who received at least one dose of the MTT vaccine were three times more likely to have their children fully immunised compared with mothers who did not receive any dose of the MTT vaccine [27, 36]. This could be attributed to the knowledge that mothers may have obtained regarding the benefit of childhood immunisation uptake during the MTT vaccination in their health centre .
Children who were delivered in hospitals were more likely to have a complete vaccination status compared with children delivered at home [26, 44, 63]. Mothers who had hospital deliveries may receive advice after delivery where the importance of timely immunisation of the baby may be emphasised and therefore, they are more likely to receive their vaccines .
Having a good maternal knowledge on child immunisation was revealed to be a predictor for childhood immunisation uptake in a case-control study conducted in Northern Ethiopia. Children of mothers with a good knowledge on childhood immunisation were found to be three times more likely to be completely immunised compared with children whose mothers had a poor knowledge on childhood immunisation . This finding is consistent with the previous systematic review conducted in Sub-Saharan Africa .
In Burkina Faso, mothers with a knowledge on preventive objectives of immunisation were more likely to have their children immunised compared with mothers with limited knowledge . In a household-level cluster survey consisting of 7815 children conducted in Nigeria that involved 40 polio high-risk districts of Nigeria, lack of maternal knowledge regarding vaccines was found to be the main reason contributing to poor childhood immunisation uptake which accounted for 50% of reasons for non-vaccination .
Maternal knowledge on vaccines and VPDs were also shown to influence childhood immunisation uptake in Southeast Ethiopia, where children whose mothers had a good knowledge on vaccines and VPDs were found to be three times more likely to be fully vaccinated compared with children of mothers who had a poor knowledge of vaccines and VPDs . A similar finding was also found in Nigeria . Maternal knowledge on child vaccine schedules was revealed to statistically influence child immunisation uptake where mothers who had knowledge on schedules of vaccines were found to be four times more likely to fully immunise their children compared with mothers who had no knowledge of vaccine schedules [26, 35, 59]. Mothers with knowledge of immunisation schedules may know the exact time for each childhood immunisation uptake and they might also know the benefit of timely immunisation uptake for their children. Parents who were aware of immunisation and immunisation programs were three times more likely to have their children immunised compared with their counterparts [20, 25, 37]. Childhood immunisation uptake can be negatively affected by the level of knowledge of mothers. The more knowledge they acquire, the higher the tendency of increasing their confidence towards childhood immunisation uptake.
Maternal attitude and self-efficacy
Studies have shown that mothers who have their child immunisation records were more likely to have their children fully immunised compared with mothers without child immunisation records [20, 31, 47]. In Nigeria, the poor attitude of mothers accounted for 16% of the reasons for poor childhood immunisation uptake . Among 248 defaulting mothers in Ibadan, Nigeria, more than half of this group reported that the reason for defaulting was that they considered childhood immunisation to be a waste of time . The children whose mothers had a positive perception towards vaccine side effects, were twice more likely to be fully immunised compared with children whose mothers had a negative perception towards vaccine side effects . Many studies also reported fear of vaccine side effects influenced immunisation uptake [57, 60, 62]. Mothers who lacked confidence in vaccine safety, were less likely to have their children immunised . Mothers with a good perception on immunisation were three times more likely to have their children fully immunised compared with mothers with a poor perception on immunisation . The attitudes of mothers towards childhood immunisation uptake is influenced by their perception. This in turn can decrease their confidence regarding childhood immunisation uptake.
Maternal outcome expectations
Mothers who knew the benefits of childhood immunisation were six times more likely to have their children fully immunised compared with their counterparts [23, 35]. Having an expectation towards the protection that follows childhood immunisation significantly influences childhood immunisation . Furthermore, knowing the seriousness of VPDs was also found to be a predictor for non-compliance . The more knowledge mothers acquired with regards to the benefit of child immunisation and consequences of not immunising a child, the higher the tendency of increasing their practice confidence towards childhood immunisation uptake. This finding is consistent with the findings from a systematic review previously conducted that aimed to identify factors associated with immunisation coverage in poor urban areas and slums .
Environmental factors are classified as social factors and health care systems or logistic factors. Religious belief was revealed to be one of the social factors influencing childhood immunisation uptake in Mozambique. Mothers who considered immunisation as unacceptable in their religion were less likely to have their children fully immunised compared with mothers who did not consider immunisation as unacceptable in their religion . Lack of adequate involvement by religious and traditional leaders in immunisation activities was found to be a reason for immunisation failure in Borno State, Nigeria .
In Nigeria, cultural beliefs against immunisation are found to be destructive towards childhood immunisation uptake [56, 60]. This could probably be due to the circulation of false information via the use of either family or religious networks towards vaccines. For example, beliefs that vaccines were composed of anti-fertility drugs and therefore could destroy the eggs of females and cause damage to the reproductive system . Traditional and religious leaders are highly respected and are generally regarded and accepted as the custodians of traditions entrusted to them to provide traditional guidance to their respective communities. Therefore, their involvement in immunisation activities will help increase immunisation acceptance and uptake since the community trust their views on various matters .
In Kenya, distance to health facilities was found to affect childhood immunisation uptake among 298 respondents. Children belonging to mothers or caregivers who travelled a short distance to the health facility for immunisation were 18 times more likely to be fully vaccinated compared with children whose mothers or caregivers travelled further to a health facility for their children’s immunisations . This was supported by three studies conducted in Mozambique and Ethiopia [16, 44, 67]. These findings were in line with the previous systematic review conducted in Sub-Saharan Africa . The mode of transportation for immunisation was also found to be an influencing factor where mothers who make use of public transport were twice more likely to have their children fully immunised compared to mothers who walked .
Accessibility of vaccination sites was found to be a predictor for childhood immunisation uptake in Southern Ethiopia. Mothers who considered immunisation sites to be accessible were 5 times more likely to have their children fully immunised compared to mothers who did not consider it accessible .
Satisfaction with vaccine services was also found to influence childhood immunisation uptake in Tanzania among 380 mothers of children aged 12–23 months. Mothers who are satisfied with vaccine services were about three times more likely to have their children vaccinated compared with mothers who were unsatisfied with vaccine services [28, 56, 60, 64]. The way vaccine providers behave could either enhance or discourage mothers from taking their children for vaccinations .
The quality of the vaccine provider and client relationship was also found to be a predictor for childhood immunisation uptake in Tanzania among 380 participants. Mothers who had a positive perception towards quality of vaccine provider and client relationship were twice more likely to have their children fully immunised compared to mothers who had a negative perception towards quality of vaccine provider and client relationship . This could probably be due to the way vaccine providers behave which may either enhance or discourage mothers from taking their children for vaccinations .
In Nigeria, the unavailability of vaccines when required was also found to be another reason for defaulting on childhood immunisation uptake [56, 60, 68]. Mothers may have spent a considerable amount of money in order to access health care on several occasions. However, the service was not always available which resulted in them becoming discouraged and they failed to complete the immunisation uptake of their children .
The findings of the study will benefit policy makers in making decisions and formulating appropriate guidelines and policies with regards to childhood immunisation uptake in Africa. These findings can also enable other researchers to plan an appropriate health education intervention encompassing an appropriate health behavioural theory to address the factors affecting childhood immunisation uptake among African countries. The strengthening of childhood immunisation policies, strategies and further research examining the causal relationship on childhood immunisation in Africa are required.
Social cognitive theory (SCT) is one of the health theories commonly used in health education interventions [74, 75] which describes human behaviour through the influence of personal and environmental factors . The theory accounts for human behaviour, cognition and environment and is the only health theory that takes into account reciprocal interaction, unlike other theories such as Information-Motivation-Behavioural Skills model [74, 77]. In this systematic review, there are many factors that has been found to influence childhood immunisation uptake in Africa such as personal factors (parental sociodemographic factors, obstetric factors, knowledge gaps, negative attitudes, outcome expectation and lack of self-efficacy) and environmental factors (social factors and healthcare system) [16, 18,19,20, 23,24,25,26,27,28,29, 31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64, 70]. Therefore, using this theory may enable researchers to address both the personal and environmental factors influencing childhood immunisation uptake.
The majority of our included studies achieved at least high scores [16, 18, 20, 23,24,25,26,27,28,29, 31,32,33,34,35,36,37,38, 40, 42,43,44,45, 48, 50,51,52, 55, 57,58,59, 61,62,63,64,65,66,67,68,69] and the overall risk of bias was moderate in ten studies [15, 19, 39, 46, 47, 49, 53, 54, 56, 60]. Moreover, none of the included studies revealed either a serious or low risk of bias.
Our study has acknowledged some limitations. This review may be prone to publication bias as grey literature/unpublished literature and studies that are not published in the English language were not considered. Conducting a quantitative meta-analysis in this systematic review may be very important for analysing quantitative trends. The majority of the literature cited in this review is observational in nature and therefore, this study is lacking evidence for causation. Furthermore, many studies relied on survey data which may increase the risk of nonresponse bias or selection bias.
In conclusion, various factors influencing childhood immunisation uptake in Africa were identified from this systematic review. The factors were categorised into two main groups, modifiable and non-modifiable factors which were later divided further. The modifiable factors (obstetric history, maternal knowledge, maternal attitude and self-efficacy and maternal outcome expectation) were revealed as having a direct relationship with the childhood immunisation uptake. Many factors and results attained from this review could enable the researchers to further understand and develop necessary intervention in order to address the issue of the factors influencing childhood immunisation uptake. Finally, we recommend an immunisation health education intervention among pregnant women focusing on the significant findings from this systematic review which may hopefully improve childhood immunisation uptake among countries with poor coverage in Africa.
Availability of data and materials
All data generated during this study are included in this article.
Adjusted Odd Ratio
Adjusted Prevalence Rate
Ethiopia Demographic Health Surveillance
Nigeria Demographic Health Surveillance
Farafenni Health and Demographic Surveillance
Nairobi Urban Health and Demographic Surveillance System
Tanzania Health and Demographic Surveillance System
Nouna Health and Demographic Surveillance System
Uganda Demographic Health Surveillance System
Vaccine Preventable Diseases
Expanded Program on Immunization
National Program on Immunization
Health Extension Workers
Oral Polio Vaccine
Expanded Programme on Immunization
Adjusted Prevalence Ratio
Centre for Global Development. Making markets for vaccines: from ideas to actions. Washington DC: Centre for Global Development; 2005.
World Health Organization, UNICEF. Global immunization data, 2014. http://www.who.int/immunization/monitoring_surveillance/global_immunization_data.pdf?ua=1.
Yeung K, Duclos P, Nelson E, Hutubessy R. An update of the global burden of pertussis in children younger than 5 years: a modelling study. Lancet Infect Dis. 2017;17(9):974–80. https://0-doi-org.brum.beds.ac.uk/10.1016/s1473-3099(17)30390-0.
Awosika D. Access to immunization and other public health interventions through the pharmacists. West Afr J Pharm. 2012;23(1):3–11.
World Health Organization, 2020. Immunization coverage. Key facts. Retrieved from https://www.who.int/news-room/fact-sheets/detail/immunization-coverage
World Health Organization, 2018. Immunization. Retrievd from http://www.who.int/topics/immunization/en/
Crowcroft N, Stein C, Duclos P, Birmingham M. How best to estimate the global burden of pertussis? Lancet Infect Dis. 2003;3(7):413–8. https://0-doi-org.brum.beds.ac.uk/10.1016/S1473-3099(03)00669-8.
Nigeria Demographic and Health Survey. Key indicators report. Nigeria: National Population Commission Abuja; 2018.
Ethiopia Mini Demographic and Health Survey 2019. Key indicators. Ethiopian Public health Institute Addis Ababa. The Federal Ministry of Health Addis Ababa.
Uganda Demographic and Health Survey. Key indicators report. Uganda: Uganda Bureau of Statistics Kampala; 2016.
Ghana Demographic and Health Survey. Ghana statistical service Accra, Ghana. Ghana: Ghana Health Service Accra; 2014.
Tanzania Demographic and Health Survey and Malaria Indicator Survey 2016. Final Report. Ministry of Health, Community Development, Gender, Elderly and Children Dar Es Salaam. Ministry of Health Zanzibar. National Bureau of Statistics Dar Es Salaam.
Kenya Demographic and Health Survey. Kenya National Bureau of statistics Nairobi, Kenya. Kenya: Ministry of Health Nairobi; 2014.
World Health Organization 2015. Immunization, vaccines and biologicals. Retrieved from https://www.who.int/immunization/global_vaccine_action_plan/en/
Gidado S, Nguku P, Biya O, Waziri N, Mohammed A, Nsubuga P, et al. Determinants of routine immunization coverage in Bungudu, Zamfara state, northern Nigeria, may 2010. Pan Afr Med J. 2014;18. https://0-doi-org.brum.beds.ac.uk/10.11604/pamj.supp.2014.18.1.4149.
Legesse E, Dechasa W. An assessment of child immunization coverage and its determinants in Sinana District, Southeast Ethiopia. BMC Pediatr. 2015;15(1):31.
Kitamura. Factors affecting childhood immunization in Lao People's Democratic Republic: A cross-sectional study from nationwide, population-based, multistage cluster sampling. BioSci Trends. 2013;7(4):178–85.
Adedokun S, Uthman O, Adekanmbi V, Wiysonge C. Incomplete childhood immunization in Nigeria: a multilevel analysis of individual and contextual factors. BMC Public Health. 2017;17(1):236.
Bbaale E. Factors Influencing Childhood Immunization in Uganda. J Health Popul Nutr. 2013;31(1):118–9.
Lakew Y, Bekele A, Biadgilign S. Factors influencing full immunization coverage among 12–23 months of age children in Ethiopia: evidence from the national demographic and health survey in 2011. BMC Public Health. 2015;15(1):728.
Rahman M, Obaida-Nasrin S. Factors affecting acceptance of complete immunization coverage of children under five years in rural Bangladesh. Salud Pública de México. 2010;52(2).
Moher D, Liberati A, Tetzlaff J, Altman DG. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. BMJ. 2009;21(339):b2535.
Negussie A, Kassahun W, Assegid S, Hagan A. Factors associated with incomplete childhood immunization in Arbegona district, southern Ethiopia: a case – control study. BMC Public Health. 2015;16(1):27.
Anokye R, Acheampong E, Budu-Ainooson A, Edusei A, Okyere P, Dogbe J, et al. Socio-demographic determinants of childhood immunization incompletion in Koforidua, Ghana. BMC Res Notes. 2018;11(1):656.
Oliveira M, Martinez E, Rocha J. Factors associated with vaccination coverage in children < 5 years in Angola. Rev Saude Publica. 2014;48(6):906–15. https://0-doi-org.brum.beds.ac.uk/10.1590/s0034-8910.2014048005284.
Kiptoo E. Factors Influencing Low Immunization Coverage Among Children Between 12–23 Months in East Pokot, Baringo Country, Kenya. Int J Vaccines & Vaccination. 2015;1(2).
Adedire E, Ajayi I, Fawole O, Ajumobi O, Kasasa S, Wasswa P, et al. Immunisation coverage and its determinants among children aged 12–23 months in Atakumosa-west district, Osun State Nigeria: a cross-sectional study. BMC Public Health. 2016;16(1):905.
Chambongo P, Nguku P, Wasswa P, Semali I. Community vaccine perceptions and its role on vaccination uptake among children aged 12-23 months in the Ileje District, Tanzania: a cross section study. Pan Afr Med J. 2016;23. https://0-doi-org.brum.beds.ac.uk/10.11604/pamj.2016.23.162.8925.
Animaw W, Taye W, Merdekios B, Tilahun M, Ayele G. Expanded program of immunization coverage and associated factors among children age 12–23 months in Arba Minch town and Zuria District, Southern Ethiopia, 2013. BMC Public Health. 2014;14(1):464.
Moola S, Munn Z, Tufanaru C, Aromataris E, Sears K, Sfetcu R, et al. Systematic reviews of etiology and risk. In: Aromataris E, Munn Z, editors. Faculty of Health Sciences, University Adelaide Australia: Joanna Briggs Institute Reviewer’s Manual: The Joanna Briggs Institute; 2017.
Sanou A, Simboro S, Kouyaté B, Dugas M, Graham J, Bibeau G. Assessment of factors associated with complete immunization coverage in children aged 12–23 months: a cross-sectional study in Nouna district, Burkina Faso. BMC Int Health Human Rights. 2009;9(S1):S10.
Chiabi A, Nguefack F, Njapndounke F, Kobela M, Kenfack K, Nguefack S, et al. Vaccination of infants aged 0 to 11 months at the Yaounde Gynaeco-obstetric and pediatric hospital in Cameroon: how complete and how timely? BMC Pediatr. 2017;17(1):206.
Mwamba G, Yoloyolo N, Masembe Y, Nsambu M, Nzuzi C, Tshekoya P, et al. Vaccination coverage and factors influencing routine vaccination status in 12 high risk health zones in the province of Kinshasa City, Democratic Republic of Congo (DRC), 2015. Pan Afr Med J. 2017;27. https://0-doi-org.brum.beds.ac.uk/10.11604/pamj.supp.2017.27.3.11930.
Aregawi H, Gebrehiwot T, Abebe Y, Meles K, Wuneh A. Determinants of defaulting from completion of child immunization in Laelay Adiabo District, Tigray region, northern Ethiopia: a case-control study. PLoS One. 2017;12(9):e0185533. https://0-doi-org.brum.beds.ac.uk/10.1371/journal.pone.0185533.
Etana B, Deressa W. Factors associated with complete immunization coverage in children aged 12–23 months in Ambo Woreda, Central Ethiopia. BMC Public Health. 2012;12(1):566.
Mohamud A, Feleke A, Worku W, Kifle M, Sharma H. Immunization coverage of 12–23 months old children and associated factors in Jigjiga District, Somali National Regional State, Ethiopia. BMC Public Health. 2014;14(1):865.
Abebe A, Mengistu T, Mekuria A. Measles case, immunization coverage and its determinant factors among 12–23 month children, in Bassona Worena Woreda, Amhara Region, Ethiopia, 2018. BMC Res Notes. 2019;12(1):17.
Zewdie A, Letebo M, Mekonnen T. Reasons for defaulting from childhood immunization program: a qualitative study from Hadiya zone, Southern Ethiopia. BMC Public Health. 2016;16(1):1240.
Payne S, Townend J, Jasseh M, Lowe Jallow Y, Kampmann B. Achieving comprehensive childhood immunization: an analysis of obstacles and opportunities in the Gambia. Health Policy Plan. 2013;29(2):193–203. https://0-doi-org.brum.beds.ac.uk/10.1093/heapol/czt004.
Odutola A, Afolabi M, Ogundare E, Lowe-Jallow Y, Worwui A, Okebe J, et al. Risk factors for delay in age-appropriate vaccinations among Gambian children. BMC Health Serv Res. 2015;15(1):1240.
Bosu W, Ahelegbe D, Edum-Fotwe E, Bainson KA, Kobina Turkson P. Factors influencing attendance to immunization sessions for children in a rural district of Ghana. Acta Trop. 1997;68(3):259–67. https://0-doi-org.brum.beds.ac.uk/10.1016/S0001-706X(97)00094-6.
Mutua M, Kimani-Murage E, Ettarh R. Childhood vaccination in informal urban settlements in Nairobi, Kenya: Who gets vaccinated? BMC Public Health. 2011;11(1):6.
Pertet A, Kaseje D, Otieno-Odawa C, Kirika L, Wanjala C, Ochieng J, et al. Under vaccination of children among Maasai nomadic pastoralists in Kenya: is the issue geographic mobility, social demographics or missed opportunities? BMC Public Health. 2018;18(1):1389.
Jani J, De Schacht C, Jani I, Bjune G. Risk factors for incomplete vaccination and missed opportunity for immunization in rural Mozambique. BMC Public Health. 2008;8(1):161.
Umeh G, Nomhwange T, Shamang A, Zakari F, Musa A, Dogo P, et al. Attitude and subjective wellbeing of non-compliant mothers to childhood oral polio vaccine supplemental immunization in Northern Nigeria. BMC Public Health. 2018;18(1):231.
Oladokun R, Adedokun O, Lawoyin O. Children not receiving adequate immunization in Ibadan, Nigeria: what reasons and beliefs do their mothers have. Niger J Clin Pract. 2010;13(2):173–8.
Babalola S. Determinants of the uptake of the full dose of diphtheria–pertussis–tetanus vaccines (DPT3) in northern Nigeria: a multilevel analysis. Matern Child Health J. 2008;13(4):550–8. https://0-doi-org.brum.beds.ac.uk/10.1007/s10995-008-0386-5.
Odusanya O, Alufohai E, Meurice F, Ahonkhai V. Determinants of vaccination coverage in rural Nigeria. BMC Public Health. 2008;8(1):381.
Taiwo L, Idris S, Abubakar A, Nguku P, Nsubuga P, Gidado S, et al. Factors affecting access to information on routine immunization among mothers of under 5 children in Kaduna state Nigeria, 2015. Pan Afr Med J. 2017;27. https://0-doi-org.brum.beds.ac.uk/10.11604/pamj.2017.27.186.11191.
Oku A, Oyo-Ita A, Glenton C, Fretheim A, Eteng G, Ames H, et al. Factors affecting the implementation of childhood vaccination communication strategies in Nigeria: a qualitative study. BMC Public Health. 2017;17(1):200.
Antai D. Inequitable childhood immunization uptake in Nigeria: a multilevel analysis of individual and contextual determinants. BMC Infect Dis. 2009;9(1):181.
Ijarotimi I, Fatiregun A, Adebiyi O, Ilesanmi O, Ajumobi O. Urban–rural differences in immunisation status and associated demographic factors among children 12-59 months in a southwestern state, Nigeria. PLOS ONE. 2018;13(11):e0206086. https://0-doi-org.brum.beds.ac.uk/10.1371/journal.pone.0206086.
Semali I. Trends in Immunization Completion and Disparities in the Context of Health Reforms: The case study of Tanzania. BMC Health Serv Res. 2010;10(1):299.
Vonasek B, Bajunirwe F, Jacobson L, Twesigye L, Dahm J, Grant M, et al. Do maternal knowledge and attitudes towards childhood immunizations in rural Uganda correlate with complete childhood vaccination? Ann Global Health. 2016;82(3):567. https://0-doi-org.brum.beds.ac.uk/10.1016/j.aogh.2016.04.523.
Kagoné M, Yé M, Nébié E, Sie A, Schoeps A, Becher H, et al. Vaccination coverage and factors associated with adherence to the vaccination schedule in young children of a rural area in Burkina Faso. Glob Health Action. 2017;10(1):1399749. https://0-doi-org.brum.beds.ac.uk/10.1080/16549716.2017.1399749.
Duru C, Iwu A, Uwakwe K, Diwe K, Merenu I, Emerole C, et al. Assessment of immunization status, coverage and determinants among under 5-year-old children in Owerri, Imo state, Nigeria. OALib. 2016;03(06):1–17.
Gunnala R, Ogbuanu I, Adegoke O, Scobie H, Uba B, Wannemuehler K, et al. Routine vaccination coverage in northern Nigeria: results from 40 district-level cluster surveys, 2014-2015. PLoS One. 2016;11(12):e0167835. https://0-doi-org.brum.beds.ac.uk/10.1371/journal.pone.0167835.
Chris-Otubor G, Dangiwa D, Ior D, Anukam C. Assessment of knowledge, attitudes and practices of mothers in Jos north regarding immunization. Int Organ Scientific Res J Pharm. 2015;5(6):34–45.
Tadesse H, Deribew A, Woldie M. Predictors of defaulting from completion of child immunization in south Ethiopia. A case control study. BMC Public Health. 2009;9(1). https://0-doi-org.brum.beds.ac.uk/10.1186/1471-2458-9-150.
Kio O, Agbede O, Mkpuruoma J. Knowledge beliefs and practices regarding immunization among nursing mothers in Nigeria. J Health Med Nursing. 2016;24:145–9.
Awosan K, Ibrahim M, Yunusa E, Isah B, Raji M, Abubakar N. Knowledge, Attitude and Compliance with Full Immunization of Children Against Vaccine Preventable Diseases among Pregnant Mothers in Sokoto, Nigeria. Int J Contemp Med Res [IJCMR]. 2018;5(6).
Ekure E, Balogun M, Mukhtar Y, Ojo O, Emodi I, et al. Community knowledge, attitude and practice of childhood immunization in Southwest Nigeria. Nigerian J Paediatr. 2013;40(2):106–11. https://0-doi-org.brum.beds.ac.uk/10.4314/njp.v40i2.1.
Canavan M, Sipsma H, Kassie G, Bradley E. Correlates of complete childhood vaccination in east african countries. PLoS One. 2014;9(4):e95709. https://0-doi-org.brum.beds.ac.uk/10.1371/journal.pone.0095709.
Omotara A, Okujagu F. Assessment of knowledge, attitude and practice of stakeholders towards immunization in Borno state, Nigeria: A qualitative approach. J Comm Med Health Educ. 2012;2(9). https://0-doi-org.brum.beds.ac.uk/10.4172/2161-0711.1000181.
Tamirat K, Sisay M. Full immunization coverage and its associated factors among children aged 12–23 months in Ethiopia: further analysis from the 2016 Ethiopia demographic and health survey. BMC Public Health. 2019;19(1):1019.
Kinfe Y, Gebre H, Bekele A. Factors associated with full immunization of children 12–23 months of age in Ethiopia: a multilevel analysis using 2016 Ethiopia Demographic and health Survey. PLoS One. 2019;14(11):e0225639. https://0-doi-org.brum.beds.ac.uk/10.1371/journal.pone.0225639.
Girmay A, Dadi A. Full immunization coverage and associated factors among children aged 12-23 months in a hard-to-reach areas of Ethiopia. Int J Pediatr. 2019;2019:1–8. https://0-doi-org.brum.beds.ac.uk/10.1155/2019/1924941.
Akwataghibe N, Ogunsola E, Broerse J, Popoola O, Agbo A, Dieleman M. Exploring factors influencing immunization utilization in Nigeria—a mixed methods study. Front Public Health. 2019;7. https://0-doi-org.brum.beds.ac.uk/10.3389/fpubh.2019.00392.
Mekonnen Z, Gelaye K, Martin W, Binyam T. Timely completion of vaccination and its determinants among children in northwest, Ethiopia: a multilevel analysis. BMC Public Health. 2020;20:908.
Jegede A. What led to the Nigerian boycott of the polio vaccination campaign? PLoS Med. 2007;4(3):e73. https://0-doi-org.brum.beds.ac.uk/10.1371/journal.pmed.0040073.
Zulkefli N, Mohammad R, Juni M. Adherence among parents on under-five childhood immunization schedule: a review. Int J Public Health Clin Sci. 2016;3(6).
Bangura J, Xiao S, Qiu D, Ouyang F, Chen L. Barriers to childhood immunization in sub-Saharan Africa: A systematic review. BMC Public Health. 2020;20(1):1108.
Crocker-Buque T, Mindra G, Duncan R, Mounier-Jack S. Immunization, urbanization and slums – a systematic review of factors and interventions. BMC Public Health. 2017;17(1):556.
Bandura A. Social cognitive theory of mass communication. Media effects. Adv Theory Res. 2008:94–124.
Bagherniya M, Sharma M, Darani FM, Maracy MR, Safarian M, Birgani RA. School-based nutrition education intervention using social cognitive theory for overweight and obese Iranian adolescent girls: a cluster randomized controlled trial; 2018. https://0-doi-org.brum.beds.ac.uk/10.1177/0272684X17749566.
Bandura A. Social foundations of thought and action: a social cognitive theory: Englewood Cliffs Prentice-Hall; 1986.
Fisher J, Fisher W. Changing AIDS risk behavior. Psychol Bull. 1992;111(3):455–74.
The authors gratefully acknowledge electronic database searches done using Sultan Abdul Samad Library, Universiti Putra Malaysia.
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Database search terms used; Fig. 1: PRISMA flow diagram for the identification, screening, eligibility, and inclusion of studies; Table 1: Eligibility criteria table; Table 2: Operational definition; Table 3: Summary of systematic review factors influencing childhood immunisation uptake.
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Galadima, A.N., Zulkefli, N.A.M., Said, S.M. et al. Factors influencing childhood immunisation uptake in Africa: a systematic review. BMC Public Health 21, 1475 (2021). https://0-doi-org.brum.beds.ac.uk/10.1186/s12889-021-11466-5
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