Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-6 (of 6 Records) |
Query Trace: Mmbuji P[original query] |
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The role of community pharmacies in early detection of suspected COVID-19 cases in 2020: lessons from Dar es Salaam, Tanzania
Mohamed H , Faini D , Ngailo L , Munishi C , Mutayoba R , Mmbuji P , Mponela M , Subi L , Kwesi E , Mpembeni R , Jalloh MF , Gatei W , Bakari M , Mghamba J . BMJ Glob Health 2023 8 (2) Tanzania reported its first COVID-19 case on 16 March 2020. We conducted event-based surveillance of COVID-19 suspect cases among pharmacy clients presenting with respiratory symptoms and influenza-like illness to increase early and rapid detection of COVID-19 cases and mitigate transmission. We conveniently sampled 103 pharmacies from Dar es Salaam, the epicentre for the COVID-19 pandemic in Tanzania at the time. Between 23 April 2020 and 18 May 2020, 67% of the pharmacies (69/103) reported an observed increase in the number of clients presenting with respiratory symptoms and influenza-like illness compared with the 1 month before the COVID-19 outbreak. In the 1-month surveillance period, the participating pharmacies recorded 75 alerts of COVID-19 suspect cases and referred all suspected COVID-19 cases to rapid response teams for additional symptomatic screening and SARS-CoV-2 testing. A key implementation challenge was that some clients identified as COVID-19 suspected cases were hesitant to provide follow-up information for linkage to rapid response teams. Addressing concerns among drug dispensers in the participating pharmacies and informing them of the benefits of the surveillance activity were important implementation components. Our approach demonstrates the overall feasibility of rapidly implementing an event-based surveillance system for an emerging health threat through an existing network of pharmacies within the community. The approach and tools used in this surveillance activity could be adapted in similar settings to detect and generate alerts of disease outbreaks in the community that other surveillance systems may otherwise miss. |
Non-communicable disease training for public health workers in low- and middle-income countries: lessons learned from pilot training in Tanzania
Davila EP , Suleiman Z , Mghamba J , Rolle I , Ahluwalia I , Mmbuji P , de Courten M , Bader A , Zahniser SC , Krag M , Jarrar B . Int Health 2014 7 (5) 339-47 BACKGROUND: Non-communicable diseases (NCDs) are increasing worldwide. A lack of training and experience in NCDs among public health workers is evident in low- and middle- income countries. METHODS: We describe the design and outcomes of applied training in NCD epidemiology and control piloted in Tanzania that included a 2-week interactive course and a 6-month NCD field project. Trainees (n=14 initiated; n=13 completed) were epidemiology-trained Ministry of Health or hospital staff. We evaluated the training using Kirkpatrick's evaluation model for measuring reactions, learning, behavior and results using pre- and post-tests and closed-ended and open-ended questions. RESULTS: Significant improvements in knowledge and self-reported competencies were observed. Trainees reported applying competencies at work and supervisors reported improvements in trainees' performance. Six field projects were completed; one led to staffing changes and education materials for patients with diabetes and another to the initiation of an injury surveillance system. Workplace support and mentoring were factors that facilitated the completion of projects. Follow-up of participants was difficult, limiting our evaluation of the training's outcomes. CONCLUSIONS: The applied NCD epidemiology and control training piloted in Tanzania was well received and showed improvements in knowledge, skill and self-efficacy and changes in workplace behavior and institutional and organizational changes. Further evaluations are needed to better understand the impact of similar NCD trainings and future trainers should ensure that trainees have mentoring and workplace support prior to participating in an applied NCD training. |
Results from the first 30 months of national sentinel surveillance for influenza in Tanzania, 2008-2010
Mmbaga VM , Mwasekaga MJ , Mmbuji P , Matonya M , Mwafulango A , Moshi S , Emukule G , Katz MA . J Infect Dis 2012 206 Suppl 1 S80-6 Limited data exist on the burden of influenza in developing countries. In 2008, in order to better understand the epidemiology of influenza virus infection in Tanzania, the Tanzanian Ministry of Health and Social Welfare created a sentinel surveillance system for influenza. At 5 hospitals across the country, patients with influenza-like illness (ILI) and severe acute respiratory illness (SARI) had oropharyngeal and nasopharyngeal samples collected. At the National Influenza Center in Dar es Salaam, specimens were tested for influenza using real-time polymerase chain reaction tests. From May 2008 through November 2010, a total of 1794 samples were collected from 5 sentinel sites, of which 61% were from patients with ILI and 39% were from patients with SARI. Of all ILI and SARI samples, 8.0% were positive for influenza; 6.9% yielded influenza A virus, and 1.1% yielded influenza B virus. Most influenza A virus was subtype H3, which circulated in nearly every month of 2010. The proportion of influenza-positive cases was similar among ILI (8.5%) and SARI (7.3%) patients (P = .39). In multivariate logistic regression, influenza-positive SARI cases were more likely than influenza-negative SARI cases to have had rhonchi (adjusted OR [aOR], 2.31; 95% confidence interval [CI], 1.14-4.67), nasal discharge (aOR, 4.57; 95% CI, 1.30-16.10), and stridor (aOR, 2.63; 95% CI, 1.17-5.90). Influenza-positive ILI patients had a longer duration of fever on presentation, compared with influenza-negative ILI patients (median, 4 vs 3 days; P = .004). Otherwise, there was no difference in signs or symptoms among influenza-positive and influenza-negative ILI patients. During 2.5 years of surveillance for influenza at 5 geographically disbursed sites in Tanzania, we found that influenza circulated year-round. Surveillance should continue in order to fully understand the seasonality and epidemiology of influenza in Tanzania. |
The Tanzania Field Epidemiology and Laboratory Training Program: building and transforming the public health workforce
Mmbuji P , Mukanga D , Mghamba J , Ahly M , Mosha F , Azima S , Senga S , Moshiro C , Semali I , Rolle I , Wiktor S , McQueen S , McElroy P , Nsubuga P . Pan Afr Med J 2011 10 9 The Tanzania Field Epidemiology and Laboratory Training Program (TFELTP) was established in 2008 as a partnership among the Ministry of | Health and Social Welfare (MOHSW), Muhimbili University of Health and Allied Sciences, National Institute for Medical Research, and local and | international partners. TFELTP was established to strengthen the capacity of MOHSW to conduct public health surveillance and response, manage national disease control and prevention programs, and to enhance public health laboratory support for surveillance, diagnosis, treatment and disease monitoring. TFELTP is a 2-year full-time training program with approximately 25% time spent in class, and 75% in the field. TFELTP offers two tracks leading to an MSc degree in either Applied Epidemiology or, Epidemiology and Laboratory Management. Since 2008, the program has enrolled a total of 33 trainees (23 males, 10 females). Of these, 11 were enrolled in 2008 and 100% graduated in 2010. All 11 graduates of cohort 1 are currently employed in public health positions within the country. Demand for the program as measured by the number of applicants has grown from 28 in 2008 to 56 in 2011. While training the public health leaders of the country, TFELTP has also provided essential service to the country in responding to high-profile disease outbreaks, and evaluating and improving its public health surveillance systems and diseases control programs. TFELTP was involved in the country assessment of the revised International Health Regulations (IHR) core capabilities, development of the Tanzania IHR plan, and incorporation of IHR into the revised Tanzania Integrated Disease Surveillance and Response (IDSR) guidelines. TFELTP is training a competent core group of public health leaders for Tanzania, as well as providing much needed service to the MOHSW in the areas of routine surveillance, outbreak detection and response, and disease program management. However, the immediate challenges that the program must address include development of a full range of in-country teaching capacity for the program, as well as a career path for graduates. |
Epidemiologic and clinical aspects of a Rift Valley fever outbreak in humans in Tanzania, 2007
Mohamed M , Mosha F , Mghamba J , Zaki SR , Shieh WJ , Paweska J , Omulo S , Gikundi S , Mmbuji P , Bloland P , Zeidner N , Kalinga R , Breiman RF , Njenga MK . Am J Trop Med Hyg 2010 83 22-7 In January 2007, an outbreak of Rift Valley fever (RVF) was detected among humans in northern Tanzania districts. By the end of the outbreak in June, 2007, 511 suspect RVF cases had been recorded from 10 of the 21 regions of Tanzania, with laboratory confirmation of 186 cases and another 123 probable cases. All confirmed RVF cases were located in the north-central and southern regions of the country, with an eventual fatality rate of 28.2% (N = 144). All suspected cases had fever; 89% had encephalopathy, 10% hemorrhage, and 3% retinopathy. A total of 169 (55%) of the 309 confirmed or probable cases were also positive for malaria as detected by peripheral blood smear. In a cohort of 20 RVF cases with known outcome that were also positive for human immunodeficiency virus, 15 (75%) died. Contact with sick animals and animal products, including blood, meat, and milk, were identified as major risk factors of acquiring RVF. |
Implementing integrated disease surveillance and response: four African countries' experience, 1998-2005
Nsubuga P , Brown WG , Groseclose SL , Ahadzie L , Talisuna AO , Mmbuji P , Tshimanga M , Midzi S , Wurapa F , Bazeyo W , Amri M , Trostle M , White M . Glob Public Health 2010 5 (4) 364-80 The Integrated Disease Surveillance and Response (IDSR) strategy was developed by the Africa Regional Office (AFRO) of the World Health Organisation (WHO) and proposed for adoption by member states in 1998. The goal was to build WHO/AFRO countries' capacity to detect, report and effectively respond to priority infectious diseases. This evaluation focuses on the outcomes in four countries that implemented this strategy. Major successes included: integration of the surveillance function of most of the categorical disease control programmes; implementation of standard surveillance, laboratory and response guidelines; improved timeliness and completeness of surveillance data and increased national-level review and use of surveillance data for response. The most challenging aspects were: strengthening laboratory networks; providing regular feedback and supervision on surveillance and response activities; routine monitoring of IDSR activities and extending the strategy to sub-national levels. |
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