Factors Associated with Active Trachoma among Children in Ebinat District, South Gondar Zone, North West Ethiopia: a community-based cross-sectional study

Background: Despite the availability of effective prevention strategies and treatments, trachoma is still the major cause of infectious blindness worldwide. The majority of blindness from trachoma is currently reported from sub-Saharan Africa, with the greatest burden in Ethiopia. This study aimed to determine the prevalence and factors associated with active trachoma among children aged 1-9 years in Ebinat District. Methods: A community-based cross-sectional study design was conducted in Ebinat District, South Gondar Zone, North West Ethiopia from March 1-30 2018. A multi-stage random cluster sampling technique was employed and all children 1-9 years old from the selected households were clinically examined for trachoma by ophthalmic nurses using the World Health Organization (WHO) simplified clinical grading scheme. A total of 565 children were included. Data were analyzed using SPSS. Multivariable logistic regression was used to identify factors associated with active trachoma among children. Result: The overall prevalence of active trachoma was 36.1% (95% CI: 32.0% - 40.0%). Of all active trachoma cases, 26.5% and 9.6% were trachomatous follicular and trachomatous follicular-intense respectively. Discharge on the eye (AOR=8.23; 95% CI: 4.27-15.87), presence of liquid waste around the main house (AOR=2.31; 95% CI: 1.47-3.61), presence of human feces around the main house (AOR=2.64; 95% CI: 1.61- 4.35), unclean faces (AOR= 5.71; 95% CI: 2.18 - 14.96), not washing face and hands frequently (AOR= 2.28; 95% CI: 1.33-3.90), not using soap while washing face and hands (AOR=1.95; 95% CI: 1.21-3.34), and having more flies on childrens face (AOR=1.74; 95% CI: 1.12-2.73) were significantly associated with active trachoma. Conclusion and recommendation: Active trachoma is a major public health problem among children in the Ebinat District. Surgery for trichiasis, antibiotics for active disease, facial hygiene, and environmental improvement (SAFE) strategy at school and community are recommended to lower the burden of trachoma in the Ebinat District, Northwest Ethiopia.

The study's source populations included all children aged 1 to 9 years old who lived in the Ebinat district. The study's targets were chosen at random from three kebeles in the district (one urban and two rural). Children from the target kebeles who met the inclusion criteria were included in the study, but those who had an eye injury or were extremely ill, as well as those who were not at home throughout the study time, were excluded.

Sampling Methods
With a 95% confidence level, a 5% margin of error, a 1.5 design effect, a 62 percent prevalence rate from a prior study (11), and a 10% non-response rate, a minimal sample size of 592 people were enrolled in the study. The study participants were chosen using a multistage sampling process. The study participants were chosen in two steps: first, three kebeles were chosen using a basic random sampling approach, one from an urban kebele and the other two from rural kebeles.
Households were chosen at random from each kebele in the second step. The number of houses in each kebele was proportionally distributed based on the number of children in that kebele. If a house had more than one child aged 1 to 9 years, only one was chosen at random to participate in the study. Households without any eligible children were not included in the study. The study only included children who met the inclusion criteria.

Operational Definition
✓ Clean face: a child who did not have an eye discharge or nasal discharge and/or fly on the face at the time of the visit.
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The copyright holder for this preprint this version posted February 7, 2022. ; https://doi.org/10.1101/2022.02.07.22270570 doi: medRxiv preprint ✓ Fly density: in the previous studies, household-fly density was determined by examining the presence of flies on children's faces and around the doorways for about a half minute.
✓ Active trachoma: a child is considered having active trachoma; if he/she had TF or TI coded "1"; if children have no signs of active trachoma coded "0" for trachoma negative.
✓ Eye examination: each child underwent eye examination by ophthalmic nurses. Each eye was examined with the examiner sitting in front of study participants in the daylight using magnifying binocular lenses (× 2.5) and hand flashlights (torches). The guide used for reporting examination results of the simplified trachoma grading scheme is the one developed by WHO for fieldwork (15). This document briefly and clearly describes the five stages of trachoma.
1) Trachomatous inflammation-(follicles) (TF): five or more follicles, at least 0.5 mm in size, on the "flat" surface of the upper tarsal conjunctiva.
2). Trachomatous inflammation-(intense) (TI): inflammatory thickening of the upper tarsal conjunctiva with more than half of the normal deep tarsal vessels obscured.
3). Trachomatous scarring (TS): scarring of the tarsal conjunctiva (fibrosis). 4). Trachomatous trichiasis (TT): at least one eye-lash rubbing on the eyeball or evidence of eyelash removal. 5). Corneal Opacity (CO): where at least part of the pupil is blurred or obscured (15). Finally, the presence or absence of each sign of trachoma was recorded on facial observation and eye examination tools for each child.
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Data Collection
Face-to-face interviews, checklist observation, and a pre-tested semi-structured Amharic (the local language) questionnaire were used to collect data from trained four diploma nurses. Four data collectors, two eye examiners, and two field supervisors received two days of training on the study's objectives, including how to contact respondents, conduct face-to-face interviews, and maintain confidentiality. Following the interview, two trained ophthalmic nurses examined both of the selected child's eyes using binocular loupe magnifying lenses (2.5x) and hand-flash lights (torches). Eyelashes, cornea, limbus, eversion of the upper lid, and inspection of the tarsal conjunctiva were all evaluated independently for each eye. After each assessment, the required hygienic procedures were done, including wiping hands with alcohol-based hand gel to avoid cross-infection between subsequent participants. For each child, the examination result was recorded on the data collection tool. The WHO-developed fieldwork guide was used to report the findings of the simplified trachoma grading scheme examinations (15).
To check for trachoma, the WHO suggests looking at the eyelids and cornea first for in-turned eyelashes and any corneal opacity. The examiner should then evert the upper eyelid to check the conjunctiva above the tarsal conjunctiva, which is the stiffer region of the upper eyelid. For this purpose, the conjunctiva covering the rounded border of the tarsal plate and the corners of the averted eyelid are not to be checked. Participants who were unavailable throughout the data collecting period were subjected to three checks. The pre-test was conducted outside of the study location in a similar situation, and appropriate modifications were made based on the input. Every day, filed supervisors and main investigators carefully examined the data for accuracy, completeness, and consistency of responses. Double entry of 5% data was made to check for errors.
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Data Analysis
Epidemiological information (EP INFO) version 3.5.2 was used to code, input, and clean data before being exported to statistical packages for social sciences (SPSS) 20 for analysis. To summarize the data, descriptive statistics were employed. A crude odds ratio (COR) was used to determine the degree of relationship between the dependent and predictor variables. To correct for any confounding variables, the adjusted odds ratio (AOR) for each independent variable was obtained using a backward stepwise binary logistic regression analytic model. The multivariable analysis includes variables with a P-value of less than 0.2 in bivariate analysis. When the p-value was less than 0.05, the association was declared statistically significant.

Socio-demographic characteristics of study participants
A total of 565 children aged 1 to 9 years were examined for active trachoma in this study, with a 95.4 percent response rate. More than half of the children (53.3%) lived in rural areas. The children's average age was 4.49 years, with a standard deviation of 2.43 years. Female children made up 51.3 percent of all children. In terms of age, 41% of children are between the ages of one and three years old. Three hundred and fifty-seven heads of households did not have access to formal education, and 242 (42.8%) were farmers. The average family size in the district was 5.4, with a standard deviation of 1.6, and household sizes ranged from three to ten persons. (Table 1).
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The copyright holder for this preprint this version posted February 7, 2022. ; https://doi.org/10.1101/2022.02.07.22270570 doi: medRxiv preprint were functional. During the survey, liquid waste and human excrement were found in around forty and twenty-three percent of houses, respectively. (Table 2).

Face and hands washing practices of study participants
Sixty-three percent of guardians reported they wash their faces and hands once a day for themselves and their children. Fifty-five percent of guardians did not use soap to wash their faces and hands or those of their children. About sixteen percent of the 565 children examined for active trachoma had discharge on their faces, and more than three-quarters had unclean faces. (Table 3).
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The copyright holder for this preprint this version posted February 7, 2022.  . 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.  Table 4).
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Discussion
The prevalence of active trachoma among children aged 1 to 9 years was found to be 36.1% in this study (95 percent CI: 32.0% -40.0%). This prevalence is higher than the WHO's recommended trachoma eradication target (16). The disparity could be due to a lack of integration of health promotion into basic eye care and a lack of long-term behavioral change to reduce the prevalence of trachoma in the Ebinat District.
The prevalence of active trachoma found in this study was almost same to that seen in earlier studies: Zala District, Gamo Gofa zone (36.7), Ethiopia (36.1%), Uganda (37.3%), Chad (38%), Central African Republic (38%), and Nigeria (37.3%). (17,18,19,20,21). However, when compared to other studies conducted in the Amhara region (62.6 percent) and Ankober District (53.9 percent), the prevalence of active trachoma was low (22,23). This could be attributed to geographical disparities, previous studies conducted over several years, low health promotion and practice on personal and environmental hygiene, and insufficient access to health facilities in the studied locations (23).
However, the prevalence is higher than in other studies performed in Ethiopia, such as Kersa District in Jimma Zone (25.2%), Dangla town in Awi Zone (12%), Baso liben District in West Gojam Zone (24.1%), and Dera Woreda in South Gondar Zone (27.9%). (24,25,26,27). This disparity could be due to socio-demographic characteristics of study participants, the study period, low trachoma endemicity, better access to health facilities, and the implementation of a special program integrated into the primary health care system in selected parts of Ethiopia to prevent classical poverty-related diseases such as trachoma (25,26).
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The copyright holder for this preprint this version posted February 7, 2022. ; https://doi.org/10.1101/2022.02.07.22270570 doi: medRxiv preprint Children who had eye discharge were eight times more likely to have active trachoma as compared to children who had no eye discharge. This finding is in line with two studies from Gambia and a cross-sectional study conducted in Dera woreda, South Gondar Zone, North and South Wollo Zones of Amhara region (27, 28,29,30). This finding might be explained by the fact that having discharge on the eye was identified as one of the risk factors for developing active trachoma in the current study. Trachoma is spread from infected to uninfected children's eyes through discharge from infected children's hands (fingers), clothing, or eye-seeking flies (31). Furthermore, the Center for International Health identified six Ds in 2007 to aid in memorizing trachoma risk factors. These include dry, dusty, dirty, dung, discharge, and density (overcrowding in the dwelling), all of which could explain the above discovery (32).
Children who washed their faces and hands less than once a day were twice as likely to have active trachoma as those who were cleansed twice or more. This finding was supported by research conducted in the Amhara region's Gondar Zuriya woreda, the SNNP region's Dalocha District, and Northern Sudan (33,34,35). In contrast to cross-sectional studies conducted in Zala District and North and South Wollo Zones of the Amhara region in 2014 (17,28), this study found that children who did not use soap when washing their faces and hands were two times more likely to have active trachoma than those who did. Keeping cheeks clean with soap may have aided in avoiding flies' contact (vector), which is the primary cause and transmission of trachoma. Many studies have shown that keeping one's face and hands clean with soap throughout the day is crucial in preventing trachoma (25,31).
Trachoma was found to be strongly linked to a child's facial cleanliness. Those with dirty faces were six times more likely than children with clean faces to have active trachoma. The current finding is consistent with findings from research in Southern Sudan, Nigeria's Yobe state, . 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 February 7, 2022. ; https://doi.org/10.1101/2022.02.07.22270570 doi: medRxiv preprint Ankober, the Kersa District of the Jimma Zone, the Baso Liben District of the West Gojjam Zone, Gambia's Gondar Zuria woreda, and Tanzania's Gondar Zuria woreda (14,23,24,26,33,36,37,38). This is because flies are attracted to children who have unclean faces. Eye-seeking flies from children's faces are more likely to disseminate C. trachomatis-infected ocular secretions among themselves, and a dirty face creates eye discharge that attracts flies (39,40,41). The spread of active trachoma by fingers, fomites, or flies would be aided by this infected discharge (37). When comparing children with flies on their faces to their peers, the risks of having trachoma were two times higher. Similar research in Zala District in Southern Ethiopia, Nigeria, Makisegnit Town in Northwest Ethiopia, Brazil, and rural Ethiopia all came up with similar results (17,21,38,42,43).
The involvement of the eye-seeking fly in trachoma transmission, which is still ubiquitous and widespread, could be one explanation.
Children who live in residences with feces around them are three times more likely to develop active trachoma than children who live in households without feces around them, according to the current study. Other research conducted in Dera Woreda and Northern China corroborated this finding (27,44). Furthermore, children who lived in an area with liquid waste near the main houses were two times more likely than their peers to have active trachoma. This finding was in line with a study conducted in Dera Woreda (27). This could be explained by the fact that the fly, which is the trachoma vector, prefers to breed in human excrement and uncontrolled waste disposal (45).

Limitations
The Dacron swab for the Chlamydia RNA (Ribonucleic Acid) polymerase chain reaction test was not used to confirm ocular chlamydia infection, which is a study limitation.
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Conclusion
In the Ebinat District, the prevalence of active trachoma among children aged 1 to 9 years surpasses the WHO target for eradication. Active trachoma was identified by discharge on children's eyes, cleanliness of the face, frequency of face washing, usage of soap while washing face and hands, the number of flies on children's eyes, and presence of liquid waste around the main residence. To prevent trachoma, it is critical to reinforce and scale up the already existing SAFE strategy, as well as to conduct social behavioral change communication (SBCC) initiatives.

AOR-
Adjusted Odds Ratio

Declarations Ethical Consideration
This study was approved by the ethical review committee of Haramaya University, College of Health and Medical Sciences, School of Nursing. Permissions letter was also taken from South Gondar Zonal Health Department, Ebinat District Health Office, and selected kebeles. Child assent and informed verbal consent were obtained from the sampled children and their parents. The respondents were also informed that they have the full right to withdraw or refuse at any time from the process. Confidentiality of information given by each respondent was kept properly and anonymity was explained clearly for participants. All children with active trachoma were given two tubes of topical tetracycline eye ointments and instructions on proper use were provided.

Consent for publication
Not applicable

Availability of data and materials
Data will be available upon request from the corresponding authors.
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