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Dengue fever has for centuries been a prominent epidemic disease that plagued humanity. While normal dengue infections takes approximately a week to recover, complications like dengue hemorrhagic fever and dengue shock syndrome can be extremely severe, causing death. Today, even with our advanced healthcare and technology, there remains no proper cure or vaccine to combat the disease. This has allowed dengue to stay rampant in both developed and developing countries. Consider Taiwan, a country that has proven its evident economical growth and development, including its high level of healthcare services that means high international standards. Yet, according to the International Association for Medical Assistance to Traveller (IAMAT), health risks like air pollution and also mosquito transmitted diseases like dengue or chikungunya. In fact, IAMAT has listed dengue and chikungunya as its top general health risks on its website. <br>
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Dengue fever has for centuries been a prominent epidemic disease that plagued humanity. While normal dengue infections take approximately a week to recover, complications like dengue haemorrhagic fever and dengue shock syndrome can be extremely severe, causing death. Today, even with our advanced healthcare and technology, there remains no proper cure or vaccine to combat the disease. This has allowed dengue fever to stay rampant in both developed and developing countries.  
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One of Taiwan’s health catastrophe was the 2015 dengue outbreak. Up to 2016, there were 15,732 DF cases reported. Also,136 dengue hemorrhagic fever (DHF) cases, of which 20 resulted in death. Most of its cases were reported from kaohsiung, southern Taiwan. <br>
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Consider Taiwan, a country that has proven itself through its evident economic growth and development. Even with healthcare services that meets international standards, Taiwan continue to stay susceptible to dengue fever. In fact, One of Taiwan’s health catastrophe was the 2015 dengue outbreak. From 2015 to 2016, there were 15,732 DF cases reported. Then, amongst the reported cases, 136 of them resulted in dengue haemorrhagic fever (DHF), of which 20 patients died.  
A study conducted on “Severe Dengue Fever Outbreak in Taiwan” has concluded that the the overall figure of its dengue outbreak have been associated with the outbreak in kaohsiung, southern Taiwan. The reason could be justified with the underground pipeline explosion combined with subsequent rainfall and higher temperature which enhances “the  mosquito breeding activity, facilitating DENV transmission” (Wang, 2016). <br>
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One should not underestimate even the smallest figure of a disease. Diseases could have a ripple-effect on its transmission thus resulting to an exponential cases. Maintenance and prevention should always be done in order to avoid any possibility. Especially when it comes to mosquito-spread diseases in Taiwan. As mentioned previously, vaccine or specific therapy on dengue has yet to be developed. Thus, finding a means to implement effective control measures is paramount. This led us to this project, where we aim to develop an analytical tool that can facilitate in the study of dengue fever and guide the implementation of control measures.
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We can see that dengue fever cannot be underestimated. Like any other epidemical diseases, it can have a ripple‐effect on its transmission resulting to an exponential increase of cases. Maintenance and prevention should always be done in order to reduce the possibility of its spread. This is especially so, considering how there are no vaccine or specific therapy for dengue fever. This leaves us with implementing effective control measures to combat the disease, which is what this study is about: to find potential areas where control measures can be implemented.
  
 
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Revision as of 15:39, 13 April 2019


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DANGY LOGO RESIZE.png


Group Members

Ang Kah Eng
Jerry Obadiah Tohvan
Tan Kai Xiang, Terence


Project Motivation

Dengue fever has for centuries been a prominent epidemic disease that plagued humanity. While normal dengue infections take approximately a week to recover, complications like dengue haemorrhagic fever and dengue shock syndrome can be extremely severe, causing death. Today, even with our advanced healthcare and technology, there remains no proper cure or vaccine to combat the disease. This has allowed dengue fever to stay rampant in both developed and developing countries.


Consider Taiwan, a country that has proven itself through its evident economic growth and development. Even with healthcare services that meets international standards, Taiwan continue to stay susceptible to dengue fever. In fact, One of Taiwan’s health catastrophe was the 2015 dengue outbreak. From 2015 to 2016, there were 15,732 DF cases reported. Then, amongst the reported cases, 136 of them resulted in dengue haemorrhagic fever (DHF), of which 20 patients died.


We can see that dengue fever cannot be underestimated. Like any other epidemical diseases, it can have a ripple‐effect on its transmission resulting to an exponential increase of cases. Maintenance and prevention should always be done in order to reduce the possibility of its spread. This is especially so, considering how there are no vaccine or specific therapy for dengue fever. This leaves us with implementing effective control measures to combat the disease, which is what this study is about: to find potential areas where control measures can be implemented.


Data Sources
Data Source Remarks
Taiwan Dengues Statistics (# Cases by Region): cdc.gov
Taiwan Dengue Demographics (Age, County, Gender, Date): cdc.gov
Taiwan Hospitals dealing Dengue Cases cdc.gov
Taiwan Population Density data.gov.tw
Taiwan Gender Statistics data.gov.tw
Taiwan Water Protection Areas data.gov.tw
River Basin Range Map data.gov.tw
Taiwan Industrial Map data.gov.tw
Taiwan Weather and Climate Data timeanddate.com
Project Description

This project will develop an analytical solution that supports the study of dengue fever in Taiwan and similar states. The tool will offer historical data of various types for users to visualize and conduct statistical computation with. These data includes demographic spread, population density, weather and climate and dengue-prone locations such as water protection areas and industrial district. Through this, the tool will empower users to analyse the disease quickly and offer insight for authorities to take appropriate measure to prevent the breeding of dengue.

The project will also provide an analysis discussing the possible reasons influencing the spread of dengue across Taiwan using the developed tool. Through identifying hotspots and studying the transmission of dengue over time, this project will help us better understand patterns and discover strategies on how to curb with epidemics in future & steps to prevent Dengue in Taiwan and similar states.


Project Timeline
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