Last data update: Jun 24, 2024. (Total: 47078 publications since 2009)
Records 1-5 (of 5 Records) |
Query Trace: Kapella Bryan K [original query] |
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Malaria and Parasitic Neglected Tropical Diseases: Potential Syndemics with COVID-19?
Gutman JR , Lucchi NW , Cantey PT , Steinhardt LC , Samuels AM , Kamb ML , Kapella BK , McElroy PD , Udhayakumar V , Lindblade KA . Am J Trop Med Hyg 2020 103 (2) 572-577 The COVID-19 pandemic, caused by SARS-CoV-2, have surpassed 5 million cases globally. Current models suggest that low- and middle-income countries (LMICs) will have a similar incidence but substantially lower mortality rate than high-income countries. However, malaria and neglected tropical diseases (NTDs) are prevalent in LMICs, and coinfections are likely. Both malaria and parasitic NTDs can alter immunologic responses to other infectious agents. Malaria can induce a cytokine storm and pro-coagulant state similar to that seen in severe COVID-19. Consequently, coinfections with malaria parasites and SARS-CoV-2 could result in substantially worse outcomes than mono-infections with either pathogen, and could shift the age pattern of severe COVID-19 to younger age-groups. Enhancing surveillance platforms could provide signals that indicate whether malaria, NTDs, and COVID-19 are syndemics (synergistic epidemics). Based on the prevalence of malaria and NTDs in specific localities, efforts to characterize COVID-19 in LMICs could be expanded by adding testing for malaria and NTDs. Such additional testing would allow the determination of the rates of coinfection and comparison of severity of outcomes by infection status, greatly improving the understanding of the epidemiology of COVID-19 in LMICs and potentially helping to mitigate its impact. |
Public Health Responses to COVID-19 Outbreaks on Cruise Ships - Worldwide, February-March 2020.
Moriarty LF , Plucinski MM , Marston BJ , Kurbatova EV , Knust B , Murray EL , Pesik N , Rose D , Fitter D , Kobayashi M , Toda M , Canty PT , Scheuer T , Halsey ES , Cohen NJ , Stockman L , Wadford DA , Medley AM , Green G , Regan JJ , Tardivel K , White S , Brown C , Morales C , Yen C , Wittry B , Freeland A , Naramore S , Novak RT , Daigle D , Weinberg M , Acosta A , Herzig C , Kapella BK , Jacobson KR , Lamba K , Ishizumi A , Sarisky J , Svendsen E , Blocher T , Wu C , Charles J , Wagner R , Stewart A , Mead PS , Kurylo E , Campbell S , Murray R , Weidle P , Cetron M , Friedman CR . MMWR Morb Mortal Wkly Rep 2020 69 (12) 347-352 ![]() ![]() An estimated 30 million passengers are transported on 272 cruise ships worldwide each year* (1). Cruise ships bring diverse populations into proximity for many days, facilitating transmission of respiratory illness (2). SARS-CoV-2, the virus that causes coronavirus disease (COVID-19) was first identified in Wuhan, China, in December 2019 and has since spread worldwide to at least 187 countries and territories. Widespread COVID-19 transmission on cruise ships has been reported as well (3). Passengers on certain cruise ship voyages might be aged >/=65 years, which places them at greater risk for severe consequences of SARS-CoV-2 infection (4). During February-March 2020, COVID-19 outbreaks associated with three cruise ship voyages have caused more than 800 laboratory-confirmed cases among passengers and crew, including 10 deaths. Transmission occurred across multiple voyages of several ships. This report describes public health responses to COVID-19 outbreaks on these ships. COVID-19 on cruise ships poses a risk for rapid spread of disease, causing outbreaks in a vulnerable population, and aggressive efforts are required to contain spread. All persons should defer all cruise travel worldwide during the COVID-19 pandemic. |
Highly Pathogenic Avian Influenza A(H5N1) Viruses at the Animal-Human Interface in Vietnam, 2003-2010.
Creanga A , Hang NLK , Cuong VD , Nguyen HT , Phuong HVM , Thanh LT , Thach NC , Hien PT , Tung N , Jang Y , Balish A , Dang NH , Duong MT , Huong NT , Hoa DN , Tho ND , Klimov A , Kapella BK , Gubareva L , Kile JC , Hien NT , Mai LQ , Davis CT . J Infect Dis 2017 216 S529-s538 ![]() Mutation and reassortment of highly pathogenic avian influenza A(H5N1) viruses at the animal-human interface remain a major concern for emergence of viruses with pandemic potential. To understand the relationship of H5N1 viruses circulating in poultry and those isolated from humans, comprehensive phylogenetic and molecular analyses of viruses collected from both hosts in Vietnam between 2003 and 2010 were performed. We examined the temporal and spatial distribution of human cases relative to H5N1 poultry outbreaks and characterized the genetic lineages and amino acid substitutions in each gene segment identified in humans relative to closely related viruses from avian hosts. Six hemagglutinin clades and 8 genotypes were identified in humans, all of which were initially identified in poultry. Several amino acid mutations throughout the genomes of viruses isolated from humans were identified, indicating the potential for poultry viruses infecting humans to rapidly acquire molecular markers associated with mammalian adaptation and antiviral resistance. |
The genetic match between vaccine strains and circulating seasonal influenza A viruses in Vietnam, 2001-2009.
Vuong CD , Hoang PM , Nguyen HL , Nguyen HT , Nguyen TC , Le TT , Dennis DT , Kapella BK , Kile JC , Le MQ . Influenza Other Respir Viruses 2012 7 (6) 1151-7 ![]() BACKGROUND: Vietnam is currently developing domestic capability to manufacture influenza vaccines but information on the genetic and antigenic characteristics of locally circulating seasonal influenza viruses is limited. To assess the relevance of WHO recommended vaccine strains to the situation in Vietnam, we analyzed the genetic relatedness of the hemagglutinin (HA) gene of seasonal influenza A viruses circulating in Vietnam from 2001 to 2009 to WHO recommended vaccine strains over the same period. METHODS AND PRINCIPAL FINDINGS: We sequenced the HA gene of 32 H1N1 and 44 H3N2 seasonal influenza A isolates from laboratory-based sentinel surveillance sites in Hanoi from 2001 to 2005 and from a national influenza surveillance system from 2005 to 2009. H1 and H3 HA phylogenetic trees rooted to vaccine strains A/Beijing/295/1995 (H1N1) and A/Moscow/10/1999 (H3N2), respectively, were constructed with contemporary HA sequences of isolates from neighboring countries. We found some genetic differences between seasonal influenza H3N2 viruses and three WHO influenza vaccine strains recommended for use in the Northern and Southern Hemispheres for the 2001-2004 and 2007-2008 seasons and close genetic identity of circulating H3N2 strains with the recommended WHO Southern Hemisphere vaccine strains for 2004 and 2009 seasons. The genetic similarity of circulating H1N1 strains with the WHO recommended vaccine strains are described for the study period 2001-2009. CONCLUSION: The HA gene of seasonal influenza virus strains in Vietnam (especially influenza A/H3N2) showed varying degrees of genetic identity compared with those of the Northern or Southern Hemisphere vaccine strains recommended by WHO. The close relatedness of the HA of Vietnamese strains and contemporary strains from nearby countries indicate a good genetic match of circulating strains during study period. Greater representation of virus isolates from South East Asia in the vaccine strain selection process is desirable of influenza vaccine development in Vietnam. |
Epidemiological and virological characteristics of influenza in the Western Pacific Region of the World Health Organization, 2006-2010
Western Pacific Region Global Influenza Surveillance and Response System , Balish Amanda , Corwin Andrew , Kapella Bryan K , Kitsutani Paul , McFarland Jeffrey , Moen Ann , Xu Xiyan . PLoS One 2012 7 (5) e37568 BACKGROUND: Influenza causes yearly seasonal epidemics and periodic pandemics. Global systems have been established to monitor the evolution and impact of influenza viruses, yet regional analysis of surveillance findings has been limited. This study describes epidemiological and virological characteristics of influenza during 2006-2010 in the World Health Organization's Western Pacific Region. METHODOLOGY/PRINCIPAL FINDINGS: Influenza-like illness (ILI) and influenza virus data were obtained from the 14 countries with National Influenza Centres. Data were obtained directly from countries and from FluNet, the web-based tool of the Global Influenza Surveillance and Response System. National influenza surveillance and participation in the global system increased over the five years. Peaks in ILI reporting appeared to be coincident with the proportion of influenza positive specimens. Temporal patterns of ILI activity and the proportion of influenza positive specimens were clearly observed in temperate countries: Mongolia, Japan and the Republic of Korea in the northern hemisphere, and Australia, New Zealand, Fiji and New Caledonia (France) in the southern hemisphere. Two annual peaks in activity were observed in China from 2006 through the first quarter of 2009. A temporal pattern was less evident in tropical countries, where influenza activity was observed year-round. Influenza A viruses accounted for the majority of viruses reported between 2006 and 2009, but an equal proportion of influenza A and influenza B viruses was detected in 2010. CONCLUSIONS/SIGNIFICANCE: Despite differences in surveillance methods and intensity, commonalities in ILI and influenza virus circulation patterns were identified. Patterns suggest that influenza circulation may be dependent on a multitude of factors including seasonality and population movement. Dominant strains in Southeast Asian countries were later detected in other countries. Thus, timely reporting and regional sharing of information about influenza may serve as an early warning, and may assist countries to anticipate the potential severity and burden associated with incoming strains. |
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