Population knowledge, attitudes and practice towards Yellow Fever among nomadic populations: A cross-sectional study in Yellow Fever outbreak Communities in Ghana.

Despite the government and Global health initiatives toward yellow fever epidemic control in Ghana, the country continues to witness sporadic outbreaks of yellow fever mostly among the unvaccinated population and suspected migrates(nomadic) who enter the country through the porous borders. Little is known about nomadic knowledge, attitudes and practice regarding this communicable disease in Ghana. We conducted a community-based cross-sectional survey in 22 yellow fever outbreak communities to assess nomadic household heads' knowledge, attitudes and practices regarding yellow fever after the November, 2021 outbreak. Our study results were analyzed using descriptive statistics, and univariate and multivariate logistics regression with dichotomous outcomes. About 90% of the nomadic had poor knowledge of the signs and symptoms of yellow with only 16% knowing the vector that transmits yellow fever. The most common source of information on yellow fever was the health campaign. Over 80% of household heads surveyed had positive attitudes regarding yellow fever with about 84% worried about the disease outbreak in their community. In a multivariate analysis, Age group, gender ideology, occupation, source of health information, duration of in the community and Nationality were associated with positive attitudes towards yellow fever. Close to 74% have a positive practice, with 97.3% adopting a strategy to control mosquitoes in their household. Nationality, duration of stay in the community, and age group were associated with Positive practices. Our findings show that yellow fever epidemic control can be improved in hard-to-reach communities through locally-tailored education and health promotion campaigns to improve knowledge and preventive practices against this infectious disease.


Introduction
Yellow fever is identified by the WHO as a Neglected Tropical Disease(1). It is a viral vector-borne disease that affects 47 countries in tropical zones, especially in South America, Central America and 34 sub-Sahara African countries (2,3). Global annual morbidity and mortality are estimated at 200,000 and 29,000 to 60,000 deaths respectively (4). The virus is transmitted by the bite of Aedes or Haemagogus mosquito species (5). The most common symptoms include fever, jaundice body pain, abdominal pain, vomiting, and gum haemorrhage. Where yellow fever is endemic, countries often require proof of vaccination upon arrival from incoming travellers (2,6).
In 2020 the yellow fever burden on the continent has risen with Ghana recording the highest incidence of 1267 cases per 100,000, with 10,350 confirmed cases (7). The case fatality rate in Ghana is estimated at 10%-17%.
To date, there is no known treatment for yellow fever; therefore, prevention through vaccination is noted to be essential in avoiding the risk of associated morbidity and mortality (6,8).
Cases of yellow fever in Ghana are mostly reported among nomadic populations migrating into the country. The Upper West and Savannah regions contain forest reserves often serving as tourist sites where nomadic migrants find work (8).
There will be significant under-reporting, yellow fever infections may not be detected due to inadequate surveillance and reporting for vaccination and other interventions especially among this population (9). Inadequate knowledge, negative attitudes and poor practices of the different populations on travel health and more specifically yellow fever contribute largely to the incidence of yellow fever (8,10).
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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint In Iran, a study found African participants to have more knowledge of yellow fever compared to those from the East Mediterranean and other countries, with males and older age groups having more knowledge about yellow fever (11). More than three-fourths of travellers were unaware of yellow fever infection and vaccination in India, with a majority (77%) of travellers not being aware of the infection before being advised to get vaccinated. (12). Other studies highlighted how knowledge was found to be associated with the geographical location of birth and fields of academic study (13), although a community study conducted in Southern Ethiopia found low population knowledge on transmission modes, cause and preventive strategies.
There is very little known about nomadic knowledge, attitude and practices regarding yellow fever in West Africa. This study seeks to assess the knowledge, attitude, and practices among nomadic populations in the Savannah region of Ghana.
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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint  The study population was all nomadic households in yellow fever affected communities at the time of the data collection. Household heads or spouses who were present in their households and consented were the study participants. The term 'nomadic' here refers to a group of people who wander around in search of pasture to feed their livestock, fertile land or both.

Study Area, Design and Period
Using the yellow fever line list (a table containing detailed information on each case of a disease outbreak) obtained from the Municipal Assembly Health Directorate, all communities with confirmed yellow fever cases were purposively selected for the study.
. CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. (which was not certified by peer review) The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint In each community, a community health volunteer (CHV), who previously supported the most recent yellow vaccination campaign, was used as a focal person to purposively identify all nomadic households for the research officers. Using snowballing approaches, consented household heads/spouses were also asked to identify other nomadic households for the research officers to approach.

Sample size, Sampling Technique
A total population of 403 nomadic households were required to achieve the objective of the study at a 95% confidence level. We assumed the prevalence of Positive Knowledge, Attitudes, and practices toward yellow fever to be 50%, margin of error of 5% and inflated the sample size by 5% for non-response and incomplete data entry.

Data collection Tool, and Procedure
A structured questionnaire was adapted from similar studies (12,(15)(16)(17). The study tool had four (4) distinct sections; Section (1) obtained demographic information including included gender, age (years), marital status, religious affiliation, household size, nationality, and educational level. Section (2) examine respondents' Knowledge of yellow fever (YF) including symptoms and transmission modes. Section (3) collected data on respondents' attitudes towards yellow fever. Section (4) covers the various preventative practices adopted by the households and Sources of information regarding yellow fever.
The questionnaire was uploaded onto the Android smartphone App. (ODK) and pretested in the North Gonja District among similar study subjects. A face-to-face interview technique was used by trained research officers. This approach was adopted because it is thought that most of the study population is unable to read. Therefore, the questions were read out in local dialects, predominantly Hausa, Dagbani, Fulani and Gonja.
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Data analysis
The data collected was exported into Microsoft Excel 2019 for cleaning. The data analysis was carried out using Stata version 15. Data were analysed using descriptive and inferential statistics.
Key dependent variables were; knowledge, attitudes and practices towards yellow fever.
To assess the outcome variables, a score of one (1) was given a correct response, whilst zero (0) was assigned to the incorrect/ Don't know response. This was based on the WHO yellow fever protocol (18).
Knowledge -To summarize overall knowledge of yellow fever, 24 variables were used and all those whose total scores were above 13 out of 24 were considered as having "Positive knowledge", whilst those with total scores less than 13 were considered "Poor Knowledge". This scoring system is adapted from previous similar studies. (13) Attitudes -To assess attitudes towards yellow fever, 12 variables were used. To assess the overall attitudes, a 60% cut-off point was used. All those scores above the 60% were considered as having "Positive Attitudes" and all those with total scores less than 60% were considered "Negative Attitudes" (15) Practice -Various practices adopted by households toward yellow fever were assessed using 9 variables. As previously studied (17), 55% was used as the cut-off point(5 out-off 9). Again, all those scoring 5 and above, were considered as having "Good Practice", and those with a total score less than 5 were considered "Poor Practice"

Key independent variables.
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Univariate and multivariate logistics regression was conducted to assess the impact of key independent variables on the dependent variables. The strength of association between the predicting and outcomes variables was determined using the adjusted odds ratio. To establish statistical evidence of the relationship, p-values less than 0.05 were considered statistically significant. The model fitness was checked using Hosmer-Lemeshow Positiveness-of-fit test (p-value> 0.05 considered no evidence of poor fitness).

Ethical consideration
Ethical approval for the study was obtained from the University for Development Studies (UDS) Research and Ethics Review Board. Also, permission was sought from the Savanna Regional Health Directorate through an introductory letter. The purpose of the study was explained to the study subjects and participants gave their informed written consent. At the end of each interview, research officers spent further time educating the household on the signs and symptoms of yellow fever and various prevention strategies.
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Results
A total of 414 households participated in the survey. Among the study participants, 57.7% were males, with a mean age of 38.5± 13.1, and a full age range of 18 to 84 years. By relationship status, 91% of the participants were married, and the main occupation among participants was Herdsman (67.4%). From the results, 56% of the participants were foreign nomadic, and the majority migrated from the Benin republic. Table 1 describes the Sociodemographics of the participants.

Knowledge of the signs and symptoms, mode of transmission and sources of information on yellow fever
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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint In this study, only those who have heard of yellow fever were included the study. Out of the 414 participants, 73.7% received information on yellow fever through health campaigns, with only 0.7% receiving information on yellow fever information through the Media (figure 2). A majority (92.8%) of the participants do not know what causes yellow fever, with only 4.6% who rightly said yellow fever is caused by a virus. When participants were asked what transmits yellow fever, only 16.2% rightly said a bite of an infected mosquito. About 47% believed yellow can be transmitted from person to person. Also, only 38.4% believed infected monkeys can transmit yellow fever to a person. A majority of the participants (56.3%) don't know the highest-risk time the Aedes mosquitoes are likely to bite. When participants were asked about signs and symptoms, 27.5% mentioned fever, 15.7% said vomiting of blood, and 7.7% mentioned headache. However, 55% did not know the main sign and symptoms of yellow fever. Stagnant waters (27.5%), water containers (8.5%) and septic tanks (7.7%) respectively were cited as the main breeding sites for the yellow fever vector. The maximum knowledge score was 11 out of 24 questions, mean score of 4.2 ± 2.7, thus indicating participants have poor knowledge of yellow fever. Table 2 presents data on participants' knowledge of yellow fever.  Nomadic Attitudes towards Yellow Fever Table 3 shows participants' attitudes towards yellow fever. From the study, a majority (65.5%) of the participants have heard of the yellow fever outbreak in their district. Closed to 77.2% of participants believed yellow fever was a serious illness, with 83.6% expressing worry about the yellow fever outbreak. A high proportion (71.5%) of the participants believed that the disease affects all age groups, and 87.2% believed that their families were at risk of yellow fever infection.
More than 86% of the participants believed that unvaccinated people were at higher risk of yellow fever. About 91% believed the yellow fever vaccine is safe for their families, whilst 91.6% trusted the government's ability to respond to the yellow fever outbreak.
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Relocated in last one
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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint  Table 5 shows various practices adopted by the study participants. Almost all participants (97.3%) had some strategies used to reduce mosquitoes in their households. More than 81% of the participants prevent standing water around their homes to reduce the breeding of mosquitoes, 62% used insecticide-treated net, 44% uses smoke to drive away mosquitoes, whilst 85% cover their bodies properly with clothes to avoid mosquito bites. Again, 92% of the participant properly cover water-holding containers, and 66% turned empty containers upside down to avoid the breeding of mosquitoes.

Nomadic practices toward yellow fever
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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint Do you cover water containers in the home?
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Discussion
The study investigated nomadic knowledge, attitude and practices regarding yellow fever in Ghana. The study involved only nomadic who were aware of yellow fever. We found overall knowledge to be low or poor. Our findings are similar to previous research, (13) in which only 9.6% of the participants were found to have adequate overall knowledge of yellow fever. These results give cause for concern, as the nomadic population are most likely not to have put in place adequate preventive measures. Findings here demonstrated low knowledge on the cause of yellow fever, main transmission vector, breeding point for the transmission vector, and hygienic management of breeding sites. The very low knowledge of these indicators in our study is similar to previous research (13,15). Other studies (15), (19) found very few participants knew that the mosquito is the transmission vector for yellow fever. When considering other areas of parasitology, previous research . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint described how 41.5% did not know that the mosquito was the vector for malaria (20). There appear to be clear knowledge gaps around modes of transmission of vector-borne disease within the highest-risk populations. Locally-tailored health promotion campaigns may be useful in educating populations.
However, our study did reveal areas of widespread knowledge about yellow fever.
Responses gathered in our study revealed that health campaigns were the major source of information on yellow fever. This was not surprising considering the high vaccination coverage Ghana has achieved which is usually accompanied by education and sensitization by health workers in these areas. Legesse et al., (2018) in a similar study also reported health workers as the main sources of information on yellow fever. Conversely, (16) and (21) reported the electronic media (TV) as the main source of information on dengue fever.
To adequately combat yellow fever, everybody especially health workers, and print and electronic media must collaborate to give intensive education and sensitize the nomadic population on yellow fever and related arboviral diseases.
When considering attitudes, we found high (65.5%) awareness of the recent yellow fever outbreak among the nomadic population. This affirms the fact that yellow fever is endemic in Ghana (3). Our finding was somewhat similar to Legesse et al., (2018) and Endale et al., (2020) in Ethiopia who reported 83.0% and 86.0% awareness respectively. Contrary to our finding which was recounted by  in India where more than threefourths of participants were unaware of yellow fever. The difference here could be attributed to the fact that Ghana is more endemic to yellow fever than India. It will therefore be good for health stakeholders to take advantage of the high awareness among the nomadic population to scale up interventions to help eradicate or reduce the incidence of YF.
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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint Results from our study also show that the majority of participants mentioned yellow fever as a serious illness tending to affect anyone in any age bracket and that they were worried about the consequences of the outbreak in and around their municipality (the West Gonja).
The majority of our participants agreed that those who are not vaccinated against the diseases were at higher risk of being infected. Yellow fever vaccination campaigns are typically well-received in Ghana, with high overall uptake, and reported 99% vaccine uptake in the Savannah region in a 2020 campaign (22). The majority of participants in this study believed the yellow fever vaccine was safe for them and their families, and equally trusted the government's response to the outbreak, especially in those forest areas.
The fear of being at risk for yellow fever and someone working or living in the forest zones being at higher risk was again mentioned by a majority of the participants. Our findings in these regards were in line with a similar study result reported by (13) in Jinka, Ethiopia and (15) among the general population in South Omo Zone. These positive attitudes of the nomadic population towards yellow fever put them in a position to most likely adopt preventive measures therefore they must be assisted by establishing a system of healthy practices to avoid and curb the spread of the disease sustainably.
The current study results also show that most of the participants (68.8%) did not perceive or were not sure yellow fever was an easily treatable disease, adding to their fears of being infected by the disease. In tandem with the current study's results is that of (15) who reported a majority of participants indicated that yellow fever was not easily treatable and therefore feared they could easily be infected. As noted in this study's background, there is no known cure or treatment for yellow fever (1), except for the management of its signs and symptoms, making vaccination the surest way to avoid being infected. It was therefore not surprising that a significant proportion of our sampled respondents affirmed vaccines as a safe means of protection against the disease. Trust for the government's responses to . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint the outbreak only affirms the position of the state in achieving 100% coverage of vaccination, education and sensitization on the disease. It is probably on this backbone that Ghana as one of the most endemic countries for yellow fever is equally leading vaccination coverage and herd immunity in Africa (23).
The overall attitude of the nomadic population as established by this current study was (80.3%). Our finding nevertheless disagrees with Endale et al., (2020) who found overall attitude (51.2%) among Jinka University students. We found foreign nomadic to be less likely to have Positive attitudes toward yellow fever compared to native nomadic. This is probably because native nomads are more stable and easily adjust to a positive attitude as compared to the foreign nomadic, who are usually highly mobile making attitudinal adjustment very difficult.
Our study found the overall practices of study participants to be very good. This result shows that the nomadic population was adopting preventive practices aimed at curbing the vector's breeding and spread of yellow fever. Our study found a majority of the participants mentioned that they kept measures to prevent the breeding of the yellow fever vector (mosquitoes). This includes the use of insecticide-treated nets, cleaning/draining stagnant water, and covering or turning upside down containers that can breed the vector. Some components of Itrat et al., (2008) study results in Karachi on preventive practices of dengue fever were in agreement with the current research findings except for the use of insecticidetreated nets which recorded a very low usage while mosquito sprays and coils were the most preferred (21). However, mosquito nets, sprays or coils are well known effective preventive methods for the yellow fever vector Several studies have reported these methods to be the most effective means of prevention of yellow fever and related arboviral diseases (16,24). Water stagnation preventive . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity.

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The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint measures to avoid breeding sites were also popular techniques respondents mentioned they adopted. This corroborates Itrat et al., (2008) findings in Karachi and (25) study in Thailand in which dengue vectors and associated hemorrhagic fever cases reduced significantly in areas where clean-up campaigns were organized before and during rainy seasons (25).
The use of smoke to drive away mosquitoes appeared not to be a popular choice for most of our study participants. The inconveniences associated with smoking during breathing could account for this result in our study. Again, we found government intervention in terms of mass insecticide spraying to be rare as indicated by the majority of the population we studied. In an era of the outbreak, it will be critical on the part of the government to for ones embark on mass fumigation of severely endemic zones to complement the routine efforts of the local populations. The absence of this implies that the nomadic population must bear all responsibility for preventing breeding and bites of the vector. This situation may impede the eradication goal desired nationally by Ghana and international targets set by the WHO.
Our findings found that foreign nomadic were about four times more likely to have Positive practices on yellow fever. With this, they are likely to put in place measures to prevent themselves from being infected by the disease or any other arboviral disease to remain healthy while visiting or working in the forest areas especially.

Limitation of the study
Some of the limitations of this study include that this was a cross-sectional study design.
Whilst the findings are statistically significant, this does not equate to clinical significance and thus limits our inference around causal association. The study was only conducted in yellow fever outbreak communities in the West Gonja Municipal, and may not be . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. (which was not certified by peer review) The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint generalizable to other nomadic communities, to the wider Ghana population, or to other populations outside of Ghana. Local context may differ elsewhere.

Conclusion
There are mixed findings around knowledge, attitude and practice towards yellow fever within nomadic populations in the Savannah region of Ghana. It is important to ensure that there is good population knowledge, attitude and practice, along with the identification of unvaccinated populations and immunization campaigns, to support national and international progress towards elimination. Ghanaian approaches towards yellow fever control can be improved, including locally-tailored education and health promotion campaigns to improve awareness. Other endemic areas should review their local population knowledge and identify areas of knowledge strength and evidence gaps.  is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. (which was not certified by peer review) The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint

Writing -original draft: AWI
Writing -review and editing: AWI, GC, MH, SDZ, . CC-BY 4.0 International license It is made available under a is the author/funder, who has granted medRxiv a license to display the preprint in perpetuity. (which was not certified by peer review) The copyright holder for this preprint this version posted June 16, 2022. ; https://doi.org/10.1101/2022.06.14.22276408 doi: medRxiv preprint