Browsing by Author "Alex, Riolexus Ario"
Now showing 1 - 3 of 3
Results Per Page
Sort Options
Item Cross border population movements across three East African states: Implications for disease surveillance and response(PLOS Glob Public Health, 2024) Patrick, King; Wanyana, Mercy Wendy; Mayinja, Harriet; Simbwa, Brenda Nakafeero; Zalwango, Marie Gorreti; Kobusinge, Joyce Owens; Migisha, Richard; Kadobera, Daniel; Kwesiga, Benon; Bulage, Lilian; Doreen, Gonahasa; Ahabwe, Babigumira Peter; Nchoko, Serah; Edna, Salat; Waithaka, Freshia; Gunya, Oscar; Odhiambo, Fredrick; Mutabazi, Vincent; Habimana, Metuschelah; Twagirimana, Gabriel; Ndabarinze, Ezechiel; Manishimwe, Alexis; Itiakorit, Harriet; Samuel, Kadivani; Katy, Seib; Ellen, Whitney; Alex, Riolexus ArioThe frequent population movement across the five East African Countries poses risk of disease spread in the region. A clear understanding of population movement patterns is critical for informing cross-border disease control interventions. We assessed population mobility patterns across the borders of the East African states of Kenya, Uganda, and Rwanda. In November 2022, we conducted Focus Group Discussions (FGDs), Key Informant Interviews (KIIs), and participatory mapping. Participants were selected using purposive sampling and a topic guide used during interviews. Key informants included border districts (Uganda and Rwanda) and county health officials (Kenya). FGD participants were identified from border communities and travellers and these included truck drivers, commercial motorcyclists, and businesspersons. During KIIs and FGDs, we conducted participatory mapping using Population Connectivity Across Borders toolkits. Data were analysed using thematic analysis approach using Atlas ti 7 software. Different age groups travelled across borders for various reasons. Younger age groups travelled across the border for education, trade, social reasons, employment opportunities, agriculture and mining. While older age groups mainly travelled for healthcare and social reasons. Other common reasons for crossing the borders included religious and cultural matters. Respondents reported seasonal variations in the volume of travellers. Respondents reported using both official (4 Kenya-Uganda, 5 Rwanda-Uganda borders) and unofficial Points of Entry (PoEs) (14 Kenya-Uganda, 20 Uganda-Rwanda) for exit and entry movements on borders. Unofficial PoEs were preferred because they had fewer restrictions like the absence of health screening, and immigration and customs checks. Key destination points (points of interest) included: markets, health facilities, places of worship, education institutions, recreational facilities and business towns. Twenty-eight health facilities (10- Lwakhakha, Uganda, 10- Lwakhakha, Kenya, and 8- Cyanika, Uganda) along the borders were the most commonly visited by the travellers and border communities. Complex population movement and connectivity patterns were identified along the borders. These were used to guide cross-border disease surveillance and other border health strategies in the three countries. Findings were used to revise district response and preparedness plans by strengthening community-based surveillance in border communities.Item Outbreak of gastrointestinal anthrax following eating beef of suspicious origin: Isingiro District, Uganda, 2017.(Public Library of Science (PLoS), 2020-02) Miriam, Nakanwagi; Alex, Riolexus Ario; Leocadia, Kwagonza; Freda, Loy Aceng; James, Mwesigye; Lilian, Bulage; Joshua, Buule; Juliet Nsimire, Sendagala; Robert, Downing; Bao-Ping, ZhuINTRODUCTION:Gastrointestinal anthrax is a rare but serious disease. In August 2017, Isingiro District, Uganda reported a cluster of >40 persons with acute-onset gastroenteritis. Symptoms included bloody diarrhoea. We investigated to identify the etiology and exposures, and to inform control measures. METHODS:We defined a suspected case as acute-onset of diarrhoea or vomiting during 15-31 August 2017 in a resident (aged≥2 years) of Kabingo sub-county, Isingiro District; a confirmed case was a suspected case with a clinical sample positive for Bacillus anthracis by culture or PCR. We conducted descriptive epidemiology to generate hypotheses. In a case-control study, we compared exposures between case-patients and neighbourhood-matched controls. We used conditional logistic regression to compute matched odds ratios (MOR) for associations of illness with exposures. RESULTS:We identified 61 cases (58 suspected and 3 confirmed; no deaths). In the case-control study, 82% of 50 case-patients and 12% of 100 controls ate beef purchased exclusively from butchery X during the week before illness onset (MOR = 46, 95%CI = 4.7-446); 8.0% of case-patients and 3.0% of controls ate beef purchased from butchery X and elsewhere (MOR = 19, 95%CI = 1.0-328), compared with 6.0% of case-patients and 30% of controls who did not eat beef. B. anthracis was identified in two vomitus and one stool sample. Butchery X slaughtered a sick cow and sold the beef during case-patients' incubation period. CONCLUSION:This gastrointestinal anthrax outbreak occurred due to eating beef from butchery X. We recommended health education, safe disposal of the carcasses of livestock or game animals, and anthrax vaccination for livestock.Item Sporadic outbreaks of crimean-congo haemorrhagic fever in Uganda, July 2018- January 2019(PLoS neglected tropical diseases, 2019) Mirembe, Bernadette Basuta; Musewa, Angella; Kadobera, Daniel; Kisaakye, Esther; Birungi, Doreen; Eurien, Daniel; Nyakarahuka, Luke; Balinandi, Stephen; Tumusiime, Alex; Kyondo, Jackson; Mbula Mulei, Sophia; Baluku, Jimmy; Kwesiga, Benon; Ndugwa Kabwama, Steven; Zhu, Bao-Ping; Harris, Julie R.; Lutwama, Julius Julian; Alex, Riolexus ArioCrimean-Congo haemorrhagic fever (CCHF) is a tick-borne, zoonotic viral disease that causes haemorrhagic symptoms. Despite having eight confirmed outbreaks between 2013 and 2017, all within Uganda’s ‘cattle corridor’, no targeted tick control programs exist in Uganda to prevent disease. During a seven-month-period from July 2018-January 2019, the Ministry of Health confirmed multiple independent CCHF outbreaks. We investigated to identify risk factors and recommend interventions to prevent future outbreaks. We defined a confirmed case as sudden onset of fever (�37.5 ̊C) with �4 of the following signs and symptoms: anorexia, vomiting, diarrhea, headache, abdominal pain, joint pain, or sudden unexplained bleeding in a resident of the affected districts who tested positive for Crimean-Congo haemorrhagic fever virus (CCHFv) by RT-PCR from 1 July 2018–30 January 2019. We reviewed medical records and performed active case-finding. We conducted a case-control study and compared exposures of case-patients with age-, sex-, and sub-county-matched control-persons (1:4). We identified 14 confirmed cases (64% males) with five deaths (case-fatality rate: 36%) from 11 districts in the western and central region. Of these, eight (73%) case patients resided in Uganda’s ‘cattle corridor’. One outbreak involved two case-patients and the remainder involved one. All case-patients had fever and 93% had unexplained bleeding. Case-patients were aged 6–36 years, with persons aged 20–44 years more affected (AR: 7.2/1,000,000) than persons �19 years (2.0/1,000,000), p = 0.015. Most (93%) case-patients had contact with livestock �2 weeks before symptom onset. Twelve (86%) lived <1 km from grazing fields compared with 27 (48%) controls (OR M-H = 18, 95% CI = 3.2-1) and 10 (71%) of 14 case-patients found ticks attached to their bodies �2 weeks before symptom onset, compared to 15 (27%) of 56 control-persons (OR M-H = 9.3, 95%CI = 1.9–46). CCHF outbreaks occurred sporadically during 2018–2019, both within and outside the ‘cattle corridor’ districts of Uganda. Most cases were associated with tick exposure. The Ministry of Health should partner with the Ministry of Agriculture, Animal Industry, and Fisheries to develop joint nationwide tick control programs and strategies with shared responsibilities through a One Health approach.