Your search keyword '"Namagambo, Barbara"' showing total 7 results

1. Transmission dynamics of influenza in two major cities of Uganda

Author

Yang, Wan, Cummings, Matthew J., Bakamutumaho, Barnabas, Kayiwa, John, Owor, Nicholas, Namagambo, Barbara, Byaruhanga, Timothy, Lutwama, Julius J., O’Donnell, Max R., and Shaman, Jeffrey

Published

2018

2. Clinic- and Hospital-Based Sentinel Influenza Surveillance, Uganda 2007-2010

Author

Lutwama, Julius J., Bakamutumaho, Barnabas, Kayiwa, John T., Chiiza, Richard, Namagambo, Barbara, Katz, Mark A., and Geissler, Aimee L.

Published

2012

3. Influenza-associated pneumonia hospitalizations in Uganda, 2013-2016.

Author

Emukule, Gideon O., Namagambo, Barbara, Owor, Nicholas, Bakamutumaho, Barnabas, Kayiwa, John T., Namulondo, Joyce, Byaruhanga, Timothy, Tempia, Stefano, Chaves, Sandra S., and Lutwama, Julius J.

Subjects

*INFLUENZA, *HEALTH services administration, *PNEUMONIA, *HEALTH facilities, *MANAGEMENT information systems, *INFLUENZA vaccines

Abstract

Background: Influenza is an important contributor to acute respiratory illness, including pneumonia, and results in substantial morbidity and mortality globally. Understanding the local burden of influenza-associated severe disease can inform decisions on allocation of resources toward influenza control programs. Currently, there is no national influenza vaccination program in Uganda. Methods: In this study, we used data on pneumonia hospitalizations that were collected and reported through the Health Management Information System (HMIS) of the Ministry of Health, Uganda, and the laboratory-confirmed influenza positivity data from severe acute respiratory illness (SARI) surveillance in three districts (Wakiso, Mbarara, and Tororo) to estimate the age-specific incidence of influenza-associated pneumonia hospitalizations from January 2013 through December 2016. Results: The overall estimated mean annual rate of pneumonia hospitalizations in the three districts was 371 (95% confidence interval [CI] 323–434) per 100,000 persons, and was highest among children aged <5 years (1,524 [95% CI 1,286–1,849]) compared to persons aged ≥5 years (123 [95% CI 105–144]) per 100,000 persons. The estimated mean annual rate of influenza-associated pneumonia hospitalization was 34 (95% CI 23–48) per 100,000 persons (116 [95% CI 78–165] and 16 [95% CI 6–28] per 100,000 persons among children aged <5 years and those ≥5 years, respectively). Among children aged <5 years, the rate of hospitalized influenza-associated pneumonia was highest among those who were <2 years old (178 [95% CI 109–265] per 100,000 persons). Over the period of analysis, the estimated mean annual number of hospitalized influenza-associated pneumonia cases in the three districts ranged between 672 and 1,436, of which over 70% represent children aged <5 years. Conclusions: The burden of influenza-associated pneumonia hospitalizations was substantial in Uganda, and was highest among young children aged <5 years. Influenza vaccination may be considered, especially for very young children. [ABSTRACT FROM AUTHOR]

Published

2019

4. Precision Surveillance for Viral Respiratory Pathogens: Virome Capture Sequencing for the Detection and Genomic Characterization of Severe Acute Respiratory Infection in Uganda.

Author

Cummings, Matthew J, Tokarz, Rafal, Bakamutumaho, Barnabas, Kayiwa, John, Byaruhanga, Timothy, Owor, Nicholas, Namagambo, Barbara, Wolf, Allison, Mathema, Barun, Lutwama, Julius J, Schluger, Neil W, Lipkin, W Ian, and O'Donnell, Max R

Subjects

CROSS infection, EPIDEMICS, MEASLES, METROPOLITAN areas, NOSE, PHARYNX, PUBLIC health, PUBLIC health surveillance, RNA viruses, ADULT respiratory distress syndrome, SWINE, GENOMICS, RETROSPECTIVE studies, SEVERITY of illness index, ACCURACY, MIDDLE-income countries, LOW-income countries, SEQUENCE analysis, GENOTYPES, DIAGNOSIS, INFECTIOUS disease transmission

Abstract

Background Precision public health is a novel set of methods to target disease prevention and mitigation interventions to high-risk subpopulations. We applied a precision public health strategy to syndromic surveillance for severe acute respiratory infection (SARI) in Uganda by combining spatiotemporal analytics with genomic sequencing to detect and characterize viral respiratory pathogens with epidemic potential. Methods Using a national surveillance network we identified patients with unexplained, influenza-negative SARI from 2010 to 2015. Spatiotemporal analyses were performed retrospectively to identify clusters of unexplained SARI. Within clusters, respiratory viruses were detected and characterized in naso- and oropharyngeal swab samples using a novel oligonucleotide probe capture (VirCapSeq-VERT) and high-throughput sequencing platform. Linkage to conventional epidemiologic strategies further characterized transmission dynamics of identified pathogens. Results Among 2901 unexplained SARI cases, 9 clusters were detected, accounting for 301 (10.4%) cases. Clusters were more likely to occur in urban areas and during biannual rainy seasons. Within detected clusters, we identified an unrecognized outbreak of measles-associated SARI; sequence analysis implicated cocirculation of endemic genotype B3 and genotype D4 likely imported from England. We also detected a likely nosocomial SARI cluster associated with a novel picobirnavirus most closely related to swine and dromedary viruses. Conclusions Using a precision approach to public health surveillance, we detected and characterized the genomics of vaccine-preventable and zoonotic respiratory viruses associated with clusters of severe respiratory infections in Uganda. Future studies are needed to assess the feasibility, scalability, and impact of applying similar approaches during real-time public health surveillance in low-income settings. [ABSTRACT FROM AUTHOR]

Published

2019

5. Dynamics of influenza in tropical Africa: Temperature, humidity, and co‐circulating (sub)types.

Author

Yang, Wan, Cummings, Matthew J., Bakamutumaho, Barnabas, Kayiwa, John, Owor, Nicholas, Namagambo, Barbara, Byaruhanga, Timothy, Lutwama, Julius J., O'Donnell, Max R., and Shaman, Jeffrey

Subjects

INFLUENZA viruses, INFLUENZA vaccines, H1N1 influenza, INFLUENZA A virus, H3N2 subtype, SARS disease

Abstract

Background: The association of influenza with meteorological variables in tropical climates remains controversial. Here, we investigate the impact of weather conditions on influenza in the tropics and factors that may contribute to this uncertainty. Methods: We computed the monthly viral positive rate for each of the 3 circulating influenza (sub)types (ie, A/H1N1, A/H3N2, and B) among patients presenting with influenza‐like illness (ILI) or severe acute respiratory infections (SARI) in 2 Ugandan cities (Entebbe and Kampala). Using this measure as a proxy for influenza activity, we applied regression models to examine the impact of temperature, relative humidity, absolute humidity, and precipitation, as well as interactions among the 3 influenza viruses on the epidemic dynamics of each influenza (sub)type. A full analysis including all 4 weather variables was done for Entebbe during 2007‐2015, and a partial analysis including only temperature and precipitation was done for both cities during 2008‐2014. Results: For Entebbe, the associations with weather variables differed by influenza (sub)type; with adjustment for viral interactions, the models showed that precipitation and temperature were negatively correlated with A/H1N1 activity, but not for A/H3N2 or B. A mutually negative association between A/H3N2 and B activity was identified in both Entebbe and Kampala. Conclusion: Our findings suggest that key interactions exist among influenza (sub)types at the population level in the tropics and that such interactions can modify the association of influenza activity with weather variables. Studies of the relationship between influenza and weather conditions should therefore determine and account for co‐circulating influenza (sub)types. [ABSTRACT FROM AUTHOR]

Published

2018

6. Emergence, Epidemiology, and Transmission Dynamics of 2009 Pandemic A/H1N1 Influenza in Kampala, Uganda, 2009-2015.

Author

Cummings, Matthew J., Bakamutumaho, Barnabas, Wan Yang, Wamala, Joseph F., Kayiwa, John, Owor, Nicholas, Namagambo, Barbara, Byaruhanga, Timothy, Wolf, Allison, Lutwama, Julius J., Shaman, Jeffrey, and O'Donnell, Max R.

Published

2018

7. Epidemiologic and Spatiotemporal Characterization of Influenza and Severe Acute Respiratory Infection in Uganda, 2010-2015.

Author

Cummings, Matthew J, Bakamutumaho, Barnabas, Kayiwa, John, Byaruhanga, Timothy, Owor, Nicholas, Namagambo, Barbara, Wolf, Allison, Wamala, Joseph F, Morse, Stephen S, Lutwama, Julius J, and O'Donnell, Max R

Subjects

INFLUENZA epidemiology, IMMUNIZATION, LONGITUDINAL method, MULTIVARIATE analysis, RESEARCH funding, SEASONS, SENTINEL health events, STATISTICS, LOGISTIC regression analysis, ACUTE diseases, INFLUENZA A virus, H1N1 subtype, HOSPITAL mortality

Abstract

Rationale: Little is known about the epidemiology of severe acute respiratory infection (SARI) or influenza in sub-Saharan Africa. Characterization of influenza transmission dynamics and risk factors for severe disease and mortality is critical to inform prevention and mitigation strategies.Objectives: To characterize the epidemiology and transmission dynamics of influenza and risk factors for influenza-associated severe respiratory infection in Uganda.Methods: Clinicians at 12 sentinel surveillance sites prospectively collected clinical data and upper respiratory tract samples from consecutive patients who met criteria for SARI and influenza-like illness (ILI). Samples were tested for influenza A and B viruses using real-time reverse transcription-polymerase chain reaction. Spatial and spatiotemporal cluster modeling was performed to identify loci of increased influenza transmission. Morbidity and mortality were assessed through chart review in a defined subset of patients. Univariable and multivariable analyses were used to identify risk factors for severe respiratory infection, prolonged hospitalization, and in-hospital mortality.Measurements and Main Results: From October 2010 to June 2015, 9,978 patients met case definitions for SARI and ILI and had samples tested for influenza A and B. Of the 9,978 patient samples tested, 1,113 (11.2%) were positive for influenza. Among 6,057 patients with ILI, 778 samples (12.8%) were positive, and among 3,921 patients with SARI, 335 samples (8.5%) were positive. Significant clustering of influenza cases was observed in urban and periurban areas and during rainy seasons. Among 1,405 cases of SARI with available outcome data, in-hospital mortality was 1.6%. Infection with the 2009 pandemic A/H1N1 subtype and prolonged time to presentation were independently associated with SARI among influenza cases.Conclusions: Influenza is associated with a substantial proportion of acute respiratory infection in Uganda. As influenza vaccination programs are developed in East Africa, timing campaigns to confer protection during rainy seasons should be considered, particularly among high-risk urban populations. [ABSTRACT FROM AUTHOR]

Published

2016