Zika virus is a virus that comes from Aedes mosquitos and it first came from febrile rhesus monkey in Zika forest, Uganda in 1947 (Plourde & Bloch, 2016). Studies have suggested that Zika remained unknown for over 70 years as a harmless and sporadic case. However, during the start of 2016, the virus was marked by global alarm as an outbreak in Latin America as well as Caribbean countries. As a result, there were estimated cases of 400-1500000 in Brazil (Faria et al., 2016). The recent cases of microcephaly in Brazil reflect on the virus. Presently, there is a rare congenital disease that comes with issues in brain development that cause babies to have smaller head during birth and in majority of such cases, there is usually brain damage (Mlakar et al., 2016). It is essential to note that this association despite it being compelling, needs an extensive scientific approach to prove the causes of the congenital ZIKV infection is further research that is underway in Brazil that seeks to understand how ZIKV affects expectant mothers.
According to serological evidence, shows that there is a link between ZIKV infection and other another neurological disorder. Take, for instance, Guillain-Barre syndrome (GBS), is a neural disorder that is in the line of an autoimmune type of infectious diseases which causes acute or partial paralysis. A look into the cluster microcephaly of GBS, revealed that it mainly occurred in areas affected with ZIKV (Faria et al., 2016). As per the international Health Regulations Emergency Committee of World Health Organization, reports that ZIKV is a public emergency of concern. As such, they showed the need to create aggressive means of reducing the infection especially among pregnant women as well as those who are at the child-bearing age.
Similarly, other health organizations such as the US Centers for Disease Control and Prevention have reported that ZIKV is a level 1 activation and needs the most efficient response at the agency (Plourde & Bloch, 2016). It is critical as there three separate operational areas of surveillance, awareness, and diagnostics. CDC comes together with other governments around the world as well as their health agencies, health departments, and industry partners to create awareness about the virus, alert, and direct healthcare givers, governments, media, and the public about the threats that Zika can cause.
Epidemiological determinants and risk factors associated with the outbreak of Zika
As stated earlier, ZIKV was discovered in Uganda but was confined for about 70 years in the equatorial zone in Africa and Asia (Mlakar et al., 2016). Outside the above zones, it was discovered again in Yap Island in 2007 and spread towards French Polynesia and other places in 2013 and reached Latin America in 2015. In North America, people started experiencing the Virus in 2016 and presently, it has spread into the Americas, Southeast Asia as well as the Pacific Islands. Prior the year 2000, the virus was discovered in Africa before spreading to other parts of the world (Beouf et al., 2016).
ZIKV virus was isolated from a monkey placed in Zika forest in Uganda during the time of YFV. The isolation was an African prototype strain of ZIKV. After it was found in mosquitoes in Zika forest. Despite that there was no sign of disease in Ugandan residents, the spread of antibodies in their serum was about 10-20% (Faria et al., 2016). A study on the virus reveals that there is a wide confined geographic distribution of human infection that stems from the virus, in Africa, Asia, Europe, North and South America.
Yap outbreak and random cases in Southeast Asia
After an outbreak of Jaundice in Nigeria in 1954, the human illness that results from the ZIKV infection was reported (Mlakar et al., 2016). The infection was confirmed in three patients through the virus isolation. There was a correlation that was observed during ZIKV development and jaundice outbreak. Since then till the early 2000s there were few cases of ZIKV associated illness in Africa and Asia regions such as Uganda, Nigeria, and Indonesia. However, in 2007, ZIKV resulted into an outbreak on Yap Island.
Major characteristics were fever, arthralgia, conjunctivitis, and rash. About 73% of Yap resident got the ZIKV virus and 18% of the people infected had issues that stemmed from ZIKV infections (Plourde & Bloch, 2016). According to a sequence analysis, showed that ZIKV was introduced from Southeast Asia in Yap Island. In 2010s there were sporadic cases of the virus infection in countries such as Thailand, Indonesia, Philippines, Cambodia, and Malaysia.
Routes of Transmission of Zika Virus
The transmission of Zika virus is primarily through infected mosquitoes. The Aedes species is also responsible for the spread of other viruses such as dengue and chikungunya (Petersen et al., 2016) . The mosquitoes lay eggs in stagnant water and in storage items such as buckets, bowls and such. They spread the virus by biting people and when they feed on an infected person, they spread to other people. Another possible transmission is from mother to child when the fetus is growing. Zika causes microcephaly and other brain defects. Also, Zika can be in breast milk and breastfeeding babies are at risk if their mothers nurse them. Sex is another was that Zika passes from one person to another despite others having no symptoms. Some people are carriers, they have the virus but never show any symptoms. Also, Zika can spread through blood transfusion. The laboratory and healthcare setting should be clean to avoid lab acquired infections.
The implications of an outbreak on Bentoville community
One worry is that the Zika virus has negative impact on economic interactions such as tourism (Plourde & Bloch, 2016). When there is an outbreak, people fear to travel and at times, the state puts out a travel advisory. As a result, people have to cancel their international flights and other tourist activities. People who have contracted the virus are unable to work and be productive (Beouf et al., 2016). Children born of the virus need medical attention which is also financially draining. The virus causes microcephaly which prevents children from achieving their potential. The constant watch on such children is also time consuming as well as expensive. In addition, the government has to pool resources together to assist in preventive measures. Due the nature of transmission, an outbreak will also paralyze public activities such as schooling, businesses, and such because in most cases the government calls for a quarantine.
There are elements of information about Zika outbreak that are critical when reporting cases. Epidemiology information about the patients’ status, likely exposure, suspected number of infection, infants, number of persons tested and such is key. There should also be laboratory and mosquito information that helps to track the virus. Another aspect to consider is the community outreach involving inquiries and other Zika related concersn.
Zika prevention strategies
One of the ways to control Zika is through diligent management of the environment (Petersen et al., 2016). Take, for instance, it is important to clear breeding areas near homes such as bushes and maintain dry compounds to prevent vectors. Another effective strategy is to create awareness about the virus and educate the public about the significance of sanitation (Petersen et al., 2016).
Boeuf, P., Drummer, H. E., Richards, J. S., Scoullar, M. J., & Beeson, J. G. (2016). The global
threat of Zika virus to pregnancy: epidemiology, clinical perspectives, mechanisms, and impact. BMC medicine, 14(1), 112.
Faria, N. R., da Silva Azevedo, R. D. S., Kraemer, M. U., Souza, R., Cunha, M. S., Hill, S. C., …
& Rocco, I. M. (2016). Zika virus in the Americas: early epidemiological and genetic findings. Science, 352(6283), 345-349.
Mlakar, J., Korva, M., Tul, N., Popović, M., Poljšak-Prijatelj, M., Mraz, J., & Vizjak, A. (2016).
Zika virus associated with microcephaly. New England Journal of Medicine, 374(10), 951-958.
Petersen, L. R., Jamieson, D. J., Powers, A. M., & Honein, M. A. (2016). Zika virus. New
England Journal of Medicine, 374(16), 1552-1563.
Plourde, A. R., & Bloch, E. M. (2016). A literature review of Zika virus. Emerging infectious
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