3 results
Approach for sustainable district-led production and distribution of alcohol-based hand rub in Uganda
- Maureen Kesande
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- Journal:
- Antimicrobial Stewardship & Healthcare Epidemiology / Volume 3 / Issue S2 / June 2023
- Published online by Cambridge University Press:
- 29 September 2023, pp. s11-s12
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Background: A sustainable, continuous supply of alcohol-based hand rub (ABHR) is essential for healthcare workers in health facilities. The WHO provides guidance for production in individual health facilities. In Uganda, using this guidance, an innovative approach was implemented at the district local government level to produce and subsequently distribute ABHR to primary-care health facilities that have limited capacity for local facility-level production. This project was supported by the CDC in collaboration with the Infectious Diseases Institute (IDI) and targeted governmental or district engagement with local partners to ensure sustainability. Methods: District stakeholders were engaged to obtain buy-in and define roles and responsibilities. Overall, 4 staff members in each of 6 supported districts were nominated by District Health Officers for training: 2 staff members were trained to produce ABHR and conduct internal quality control and 2 were trained on external quality control. Districts provided ABHR production-unit facilities and facilitated integration within the government essential supplies delivery system, National Medical Stores in Uganda, which supports last-mile delivery to facilities. An implementing partner purchased initial raw materials necessary for production. The cost of materials for local production was compared to the price of commercial ABHR available in Uganda. Results: Between January and August 2021, 23 staff members were trained, and 380 batches of quality-assured ABHR (17,820 L) were produced and distributed to 278 health facilities. Consumption of ABHR in the first distribution was used to benchmark predicted ABHR consumption per targeted facility in subsequent months. Increased demand for ABHR due to the COVID-19 pandemic and the Ebola virus disease outbreak in central Uganda (September 2022) was addressed through emergency requests on a case-by-case basis. ABHR local production costs $3 per liter for materials, less than half of commercial ABHR ($8 per liter). Conclusions: Early results suggest that this approach is potentially sustainable but requires national advocacy as well. Leveraging existing distribution systems while building local capacity for ABHR production and distribution may improve longevity of such innovations in similar resource-limited settings.
Disclosure: None
Enhancing Infection Prevention and Control Capacity in Health Facilities Following the 2019 Ebola Outbreak in Kasese, Uganda
- Maureen Kesande, Mohammed Lamorde, Elizabeth Bancroft, Carolyn Herzig, Judith Nanyondo, Winifred Omuut, Richard Walwema, Lisa Nelson, Vance Brown, Julius Mutoro, Colby Wilkinson, Lydia Nakiire, Justine Bukirwa
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- Journal:
- Infection Control & Hospital Epidemiology / Volume 41 / Issue S1 / October 2020
- Published online by Cambridge University Press:
- 02 November 2020, p. s471
- Print publication:
- October 2020
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Background: In June 2019, 3 people were diagnosed with Ebola virus disease (EVD) in Kasese district, Uganda, all of whom had come from the Democratic Republic of Congo (DRC). Although no secondary transmission of Ebola occurred, an assessment of infection prevention and control (IPC) using the WHO basic IPC facility assessment checklist revealed significant gaps. Robust IPC systems are critical for the prevention of healthcare-associated infections like EVD. A rapid intervention was developed and implemented in Kasese to strengthen IPC capacity in high-risk facilities. Methods: Of 117 healthcare facilities, 50 were considered at high risk of receiving suspected EVD cases from DRC based on population movement assessments. In August 2019, IPC mentors were selected from 25 high-risk facilities and assigned to support their facility and a second high-risk facility. Mentors ensured formation of IPC committees and implemented the national mentorship strategy for IPC preparedness in non-EVD treatment facilities. This effort focused on screening, isolation, and notification of suspect cases: 4 mentorship visits were conducted (1 per week for 1 month). Middle and terminal assessments were conducted using the WHO IPC checklist 2 and 4 weeks after the intervention commenced. Results were evaluated against baseline data. Results: Overall, 39 facilities had data from baseline, middle, and end assessments. Median scores in facility IPC standard precautions increased from baseline 50% (IQR, 39%–62%) to 73% (IQR, 67%–76%) at the terminal assessments. Scores increased for all measured parameters except for water source (access to running water). Greatest improvements were seen in formation of IPC committees (41% to 75%), hand hygiene compliance (47% to 86%), waste management (51% to 83%), and availability of dedicated isolation areas (16% to 42%) for suspect cases. Limited improvement was noted for training on management of suspect isolated cases and availability of personal protective equipment (PPE) (Fig. 1). No differences were noted in scores for facilities with nonresident mentors versus those with resident mentors at baseline (48% vs 50%) and end assessments (72% vs 74%). Conclusions: This intervention improved IPC capacity in health facilities while avoiding the cost and service disruption associated with large-scale classroom-based training of health workers. The greatest improvements were seen in activities relying on behavior change, such as hand hygiene, IPC committee, and waste management. Smaller changes were seen in areas requiring significant investments such as isolation areas, steady water source, and availability of personal protective equipment (PPE). Mentorship is ongoing in moderate- and lower-risk facilities in Kasese district.
Funding: None
Disclosures: Mohammed Lamorde reports contract research for Janssen Pharmaceutica, ViiV, Mylan.
Access to Alcohol-Based Hand Rub Is Associated With Improved Hand Hygiene in an Ebola-Threatened District of Western Uganda
- Mohammed Lamorde, Matthew Lozier, Maureen Kesande, Patricia Akers, Olive Tumuhairwe, Martin Watsisi, Winifred Omuut, Margaret Person, Jen Murphy, Rob Quick, David Berendes
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- Journal:
- Infection Control & Hospital Epidemiology / Volume 41 / Issue S1 / October 2020
- Published online by Cambridge University Press:
- 02 November 2020, p. s457
- Print publication:
- October 2020
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Background: Ebola virus disease (EVD) is highly transmissible and has a high mortality rate. During outbreaks, EVD can spread across international borders. Inadequate hand hygiene places healthcare workers (HCWs) at increased risk for healthcare-associated infections, including EVD. In high-income countries, alcohol-based hand rub (ABHR) can improve hand hygiene compliance among HCWs in healthcare facilities (HCF). We evaluated local production and district-wide distribution of a WHO-recommended ABHR formulation and associations between ABHR availability in HCF and HCW hand hygiene compliance. Methods: The evaluation included 30 HCF in Kabarole District, located in Western Uganda near the border with the Democratic Republic of the Congo, where an EVD outbreak has been ongoing since August 2018. We recorded baseline hand hygiene practices before and after patient contact among 46 healthcare workers across 20 HCFs in August 2018. Subsequently, in late 2018, WHO/UNICEF distributed commercially produced ABHR to all 30 HCFs in Kabarole as part of Ebola preparedness efforts. In February 2019, our crossover evaluation distributed 20 L locally produced ABHR to each of 15 HCFs. From June 24–July 5, 2019, we performed follow-up observations of hand hygiene practices among 68 HCWs across all 30 HCFs. We defined hand hygiene as handwashing with soap or using ABHR. We conducted focus groups with healthcare workers at baseline and follow-up. Results: We observed hand hygiene compliance before and after 203 and 308 patient contacts at baseline and follow-up, respectively. From baseline to follow-up, hand hygiene compliance before patient contact increased for ABHR use (0% to 17%) and handwashing with soap (0% to 5%), for a total increase from 0% to 22% (P < .0001). Similarly, hand hygiene after patient contact increased from baseline to follow-up for ABHR use (from 3% to 55%), and handwashing with soap decreased (from 12% to 7%), yielding a net increase in hand hygiene compliance after patient contact from 15% to 62% (P < .0001). Focus groups found that HCWs prefer ABHR to handwashing because it is faster and more convenient. Conclusions: In an HCF in Kabarole District, the introduction of ABHR appeared to improve hand hygiene compliance. However, the confirmation of 3 EVD cases in Uganda 120 km from Kabarole District 2 weeks before our follow-up hand hygiene observations may have influenced healthcare worker behavior and hand hygiene compliance. Local production and district-wide distribution of ABHR is feasible and may contribute to improved hand hygiene compliance among healthcare workers.
Funding: None
Disclosures: Mohammed Lamorde, Contracted Research - Janssen Pharmaceutica, ViiV, Mylan