Dengue Situation in Bangladesh: An Epidemiological Shift in terms of Morbidity and Mortality

The escalating dengue situation in Bangladesh has been emerging as a serious public health problem in terms of morbidity and mortality. Results of analysis of 40,476 cases of Bangladesh occurring during 2000–2017 indicated that 49.73% of the dengue cases occurred during the monsoon season (May–August) and 49.22% during the post-monsoon season (September–December). However, data also showed that, since 2014, these trends have been changing, and dengue cases have been reported during the pre-monsoon season. During 2015–2017, in the pre-monsoon season, the dengue cases were reported to be more than seven times higher compared to the previous 14 years. The findings closely correlate with those of the pre-monsoon Aedes vector survey which revealed the presence of high density of larva and pupa of the dengue vectors in the environment all the year round. In our study, climate changes, such as average rainfall, humidity, and temperature, after 2014, and rapid unplanned urbanization were the strong predictors of an imbalance in the existing ecology that has led to increase in dengue cases in 2016 and the emergence of the chikungunya virus for the first time in Bangladesh in 2017. Although 2018 dengue data are relevant but not included in this study due to study time frame, it is interesting to report an increase in the number of dengue cases in pre (2016) and post (2018, which is highest within 18 years) chikungunya outbreak, which favors the study hypothesis. Despite the efforts to control dengue, based primarily on the vector control and case management, the burden and costs of the disease and similar vector-borne diseases will continue to grow in future in our country. Developing a cost-effective vaccine against all the 4 strains of dengue remains a challenge. The CDC, in collaboration with other research organizations, may come forward to initiate and coordinate a large-scale randomized clinical trial of an effective dengue vaccine in Bangladesh.

[1]  Rosanna W. Peeling,et al.  Dengue: a continuing global threat , 2010, Nature Reviews Microbiology.

[2]  R. Sack,et al.  Emergence of a new epidemic strain of Vibrio cholerae in Bangladesh. An epidemiological study. , 1994, Tropical and geographical medicine.

[3]  V. S. Nam,et al.  Abundance and prevalence of Aedes aegypti immatures and relationships with household water storage in rural areas in southern Viet Nam. , 2011, International health.

[4]  J. Patz,et al.  Climate variability and change in the United States: potential impacts on vector- and rodent-borne diseases. , 2001 .

[5]  J. Patz,et al.  Climate variability and change in the United States: potential impacts on vector- and rodent-borne diseases. , 2001, Environmental health perspectives.

[6]  Biological Impacts of Climate Change , 2005 .

[7]  V. S. Nam,et al.  Seasonal patterns of dengue fever and associated climate factors in 4 provinces in Vietnam from 1994 to 2013 , 2017, BMC Infectious Diseases.

[8]  J. Gonzalez,et al.  Modelling the effect of temperature on transmission of dengue , 2010, Medical and veterinary entomology.

[9]  E. Gould,et al.  Impact of climate change and other factors on emerging arbovirus diseases. , 2009, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[10]  I. A. Chowdhury,et al.  Sero-diagnosis of dengue infections in four metropolitan cities of Bangladesh. , 2000 .

[11]  A. Bhumiratana,et al.  Seasonal and Geographical Variation of Dengue Vectors in Narathiwat, South Thailand , 2016, The Canadian journal of infectious diseases & medical microbiology = Journal canadien des maladies infectieuses et de la microbiologie medicale.

[12]  T John Victor,et al.  Laboratory-based dengue fever surveillance in Tamil Nadu, India. , 2007, The Indian journal of medical research.

[13]  N. Panigrahi,et al.  Status Report on DF/DHF During 1998 in the National Capital Territory of Delhi, India , 1999 .

[14]  H. Salje,et al.  Seasonal Distribution and Climatic Correlates of Dengue Disease in Dhaka, Bangladesh. , 2016, The American journal of tropical medicine and hygiene.

[15]  S. Rajapakse Dengue shock , 2011, Journal of Emergencies, Trauma and Shock.

[16]  J. Ordonez,et al.  Recovery of dengue viruses from patients during epidemics in Puerto Rico and East Pakistan. , 1966, The American journal of tropical medicine and hygiene.

[17]  R. Sutherst,et al.  Global Change and Human Vulnerability to Vector-Borne Diseases , 2004, Clinical Microbiology Reviews.

[18]  M. Emch,et al.  Use of a geographic information system for defining spatial risk for dengue transmission in Bangladesh: role for Aedes albopictus in an urban outbreak. , 2003, The American journal of tropical medicine and hygiene.

[19]  E. Undurraga,et al.  Economic and Disease Burden of Dengue in Southeast Asia , 2013, PLoS neglected tropical diseases.

[20]  P. Epstein Chikungunya Fever resurgence and global warming. , 2007, The American journal of tropical medicine and hygiene.

[21]  K. S. Naing,et al.  Time-series analysis of dengue fever/dengue haemorrhagic fever in Myanmar since 1991 , 2002 .

[22]  Mary E. Wilson,et al.  Dengue and chikungunya infections in travelers , 2010, Current opinion in infectious diseases.

[23]  K. Jaroensutasinee,et al.  Development sites of Aedes aegypti and Ae. albopictus in Nakhon Si Thammarat, Thailand , 2007 .

[24]  K. Glass,et al.  The emergence of dengue in Bangladesh: epidemiology, challenges and future disease risk. , 2015, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[25]  S. Halstead,et al.  Call to Action for Dengue Vaccine Failure , 2013, Emerging infectious diseases.

[26]  Faseeha Noordeen,et al.  Dengue control in Sri Lanka - improvements to the existing state of the art in the island , 2016 .

[27]  M. N. Karim,et al.  Climatic factors influencing dengue cases in Dhaka city: A model for dengue prediction , 2012, The Indian journal of medical research.

[28]  A. Dubey,et al.  Immunogenicity and safety of a tetravalent dengue vaccine in healthy adults in India: A randomized, observer-blind, placebo-controlled phase II trial , 2015, Human vaccines & immunotherapeutics.

[29]  P. Auewarakul,et al.  Chikungunya in Southeast Asia: understanding the emergence and finding solutions. , 2011, International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases.

[30]  Pei-Chih Wu,et al.  Weather as an effective predictor for occurrence of dengue fever in Taiwan. , 2007, Acta tropica.

[31]  Faseeha Noordeen,et al.  Dengue control in Sri Lanka - challenges and prospects for improving current strategies , 2016 .

[32]  John S. Brownstein,et al.  The global distribution and burden of dengue , 2013, Nature.

[33]  Eli Schwartz,et al.  Seasonality, Annual Trends, and Characteristics of Dengue among Ill Returned Travelers, 1997–2006 , 2008, Emerging infectious diseases.

[34]  D. Focks,et al.  A simulation model of the epidemiology of urban dengue fever: literature analysis, model development, preliminary validation, and samples of simulation results. , 1995, The American journal of tropical medicine and hygiene.

[35]  Marylene de Brito Arduino,et al.  Spatial Distribution of the Risk of Dengue and the Entomological Indicators in Sumaré, State of São Paulo, Brazil , 2014, PLoS neglected tropical diseases.