The Structure and Function of Ebola Treatment Units: Difference between revisions
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The EBOV genome encodes for seven genes each containing its own open reading frame.<ref>PDB101: Molecule of the month: Ebola virus proteins. RCSB. (n.d.). https://pdb101.rcsb.org/motm/178</ref><ref>Takamatsu Y, Kolesnikova L, Becker S. Ebola virus proteins NP, VP35, and VP24 are essential and sufficient to mediate nucleocapsid transport. Proc Natl Acad Sci U S A. 2018 Jan 30;115(5):1075-1080. doi: 10.1073/pnas.1712263115. Epub 2018 Jan 16. PMID: 29339477; PMCID: PMC5798334.</ref><ref>Jain S, Martynova E, Rizvanov A, Khaiboullina S, Baranwal M. Structural and Functional Aspects of Ebola Virus Proteins. Pathogens. 2021 Oct 15;10(10):1330. doi: 10.3390/pathogens10101330. PMID: 34684279; PMCID: PMC8538763.</ref> | The EBOV genome encodes for seven genes each containing its own open reading frame.<ref>PDB101: Molecule of the month: Ebola virus proteins. RCSB. (n.d.). https://pdb101.rcsb.org/motm/178</ref><ref>Takamatsu Y, Kolesnikova L, Becker S. Ebola virus proteins NP, VP35, and VP24 are essential and sufficient to mediate nucleocapsid transport. Proc Natl Acad Sci U S A. 2018 Jan 30;115(5):1075-1080. doi: 10.1073/pnas.1712263115. Epub 2018 Jan 16. PMID: 29339477; PMCID: PMC5798334.</ref><ref>Jain S, Martynova E, Rizvanov A, Khaiboullina S, Baranwal M. Structural and Functional Aspects of Ebola Virus Proteins. Pathogens. 2021 Oct 15;10(10):1330. doi: 10.3390/pathogens10101330. PMID: 34684279; PMCID: PMC8538763.</ref> | ||
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The seven gene all aid in the viral entry and replication of the virus: | The seven gene all aid in the viral entry and replication of the virus:<ref>“PDB101: Molecule of the Month: Ebola Virus Proteins.” RCSB, pdb101.rcsb.org/motm/178. Accessed 15 Apr. 2024.</ref> | ||
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<b>1) Glycoproteins (GPs)</b> bind to the host's receptors on the cell's surface to insert its viral genome. | <b>1) Glycoproteins (GPs)</b> bind to the host's receptors on the cell's surface to insert its viral genome. | ||
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<b>4) VP35, VP30, and VP24 proteins</b> play roles in the formation of EBOVs helical nucleocapsid | <b>4) VP35, VP30, and VP24 proteins</b> play roles in the formation of EBOVs helical nucleocapsid. | ||
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<b>5) The Polymerase (L) Protein</b> is responsible for creating several copies of the RNA genome within hosts cells | <b>5) The Polymerase (L) Protein</b> is responsible for creating several copies of the RNA genome within hosts cells. | ||
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Along with <b>Sudan ebolavirus (SUDV)</b>, ZEBOV is one of the most common outbreak-causing pathogens known for its inducement of the largest outbreak in West African history.<ref>Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20</ref> Without treatment, ZEBOV claims a fatality rate of up to 90%, making it the most lethal strain of EVD.<ref>Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20</ref> Although the fatality rates vary from case to case, the current fatality rate of EVD has decreased significantly. EVD fatality rates continue to decline due to heightened awareness of its transmission mechanisms and effective treatments. Currently, the average fatality rate of EVD patients who receive treatment is about 50%.<ref>Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20</ref> | Along with <b>Sudan ebolavirus (SUDV)</b>, ZEBOV is one of the most common outbreak-causing pathogens known for its inducement of the largest outbreak in West African history.<ref>Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20</ref> Without treatment, ZEBOV claims a fatality rate of up to 90%, making it the most lethal strain of EVD.<ref>Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20</ref> Although the fatality rates vary from case to case, the current fatality rate of EVD has decreased significantly. EVD fatality rates continue to decline due to heightened awareness of its transmission mechanisms and effective treatments. Currently, the average fatality rate of EVD patients who receive treatment is about 50%.<ref>Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20</ref> | ||
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There are five species of <b>Ebola virus(EBOV)</b> | |||
<b>1)</b> Zaire ebolavirus <b>(ZEBOV)</b> | |||
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<b>2)</b> Bundibugyo ebolavirus <b>(BDBV)</b> | |||
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<b>3)</b> Sudan ebolavirus <b>(SUDV)</b> | |||
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<b>4)</b> Taï Forest ebolavirus <b>(TAFV)</b> | |||
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<b>5)</b> Reston ebolavirus <b>(RESTV)</b> | |||
==Symptoms== | ==Symptoms== | ||
If someone has traveled to a location where Ebola is active and feels any of the designated symptoms, it is suggested that they call <b>NHS 111</b> immediately.<ref>NHS. (n.d.). NHS choices. https://www.nhs.uk/conditions/ebola/</ref> To prevent potential spread of EVD in the event that the suspected person is infected, it is further suggested to avoid close contact with others by staying home.<ref>NHS. (n.d.). NHS choices. https://www.nhs.uk/conditions/ebola/</ref> | |||
The onset of symptoms typically occurs between the incubation period of 2-21 days after exposure to EBOV.<ref>World Health Organization. (n.d.). Ebola virus disease. World Health Organization. https://www.who.int/news-room/fact-sheets/detail/ebola-virus-disease</ref> At its early to mild stages, victims may experience the following flu-like symptoms: <b>Vomiting, fever, headache, abdominal pain and diarrhea</b>. Advanced EVD is indicative of the following symptoms all of which are fatal, <b>bleeding from all orifices of the body, multi-organ failure, [https://my.clevelandclinic.org/health/diseases/22795-hypovolemic-shock hypovolemic shock]</b> and <b>[https://my.clevelandclinic.org/health/symptoms/23153-coffee-ground-vomitus#:~:text=Coffee%20ground%20emesis%20(or%20vomitus,a%20sign%20of%20internal%20bleeding. coffee ground emesis]<ref>Ebola virus. Physiopedia. (n.d.-a). https://www.physio-pedia.com/Ebola_Virus#cite_note-Beeching-1</ref></b> | |||
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==The History of Ebola== | ==The History of Ebola== | ||
While the origins of Ebola are indefinite, the zoonotic disease has led scientists to believe that the initial hosts of the virus are fruit bats of the Pteropodidae family, also known as “old world bats.”<ref>World Health Organization. (n.d.-a). Ebola virus disease. World Health Organization. https://www.who.int/news-room/fact-sheets/detail/ebola-virus-disease</ref> | While the origins of Ebola are indefinite, the zoonotic disease has led scientists to believe that the initial hosts of the virus are fruit bats of the <b>Pteropodidae family</b>, also known as “old world bats.”<ref>World Health Organization. (n.d.-a). Ebola virus disease. World Health Organization. https://www.who.int/news-room/fact-sheets/detail/ebola-virus-disease</ref><ref>https://www.inaturalist.org/taxa/40782-Pteropodidae</ref> These megabats, found in various parts of Africa, are considered to be a natural reservoir of the pathogen. Other animals such as apes, forest antelopes, and porcupines are known to have been infected.<ref>World Health Organization. (n.d.-a). Ebola virus disease. World Health Organization. https://www.who.int/news-room/fact-sheets/detail/ebola-virus-disease</ref> Ebola was most likely transmitted to humans via hunters who came in direct contact with the infected animals or sold them for consumption.<ref>Centers for Disease Control and Prevention. (2023b, September 21). Transmission. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/transmission/index.html#:~:text=Additionally%2C%20ebolaviruses%20are%20not%20known,animals%20infected%20with%20an%20ebolavirus.</ref>[[Image:Bats1234.jpg|thumb|400px|left|An old world bat from the family Pteropodidae Photo credit: [https://animaldiversity.org/accounts/Pteropodidae/pictures/collections/contributors/david_behrens/12971934.FlyingFoxflying// University of Michigan Museum of Zoology]]] | ||
[[Image:Bats1234.jpg|thumb|400px|left|An old world bat from the family Pteropodidae Photo credit: [https://animaldiversity.org/accounts/Pteropodidae/pictures/collections/contributors/david_behrens/12971934.FlyingFoxflying// University of Michigan Museum of Zoology]]] | |||
A <b>One Health approach</b> addresses the intersectionality between the wellness of humans, animals, and the general environment.<ref>“One Health Basics.” Centers for Disease Control and Prevention, Centers for Disease Control and Prevention, 28 Sept. 2023, www.cdc.gov/onehealth/basics/index.html.</ref> The improvement of health in living things begins by acknowledging that humans are a part of the ecosystem.<ref>https://oia.osu.edu/news/revisualizing-the-one-health-schematic/</ref> The actions of humans have the ability to affect the health of plants and animals, which in return could positively or negatively impact human health. By taking responsibility for environmental health, the One Health approach reduces the outbreak of zoonotic diseases, the emergence of antimicrobial resistant bacterias, and improves food safety.<ref>“One Health Basics.” Centers for Disease Control and Prevention, Centers for Disease Control and Prevention, 28 Sept. 2023, www.cdc.gov/onehealth/basics/index.html.</ref> The importance of having a one health approach is emphasized by the emergence and re-emergence of zoonotic pathogens. Within the last three decades alone, there has been a significant increase in pathogenic activity across the globe. According to the <b>World Health Organization (WHO)</b>, over 30 new pathogens have been identified within the span of 30 years. A little over half of those infectious diseases are zoonoses, about 60% to be exact.<ref>“Zoonotic Disease: Emerging Public Health Threats in the Region.” World Health Organization, World Health Organization, www.emro.who.int/fr/about-who/rc61/zoonotic-diseases.html. Accessed 15 Apr. 2024.</ref> The expansion of human population to lands that are heavily inhabited by diverse animal groups, has strengthened the connection between animals and humans. Due to climate change and its persistence, animals have migrated closer to human civilizations.<ref>“Revisualizing the One Health Schematic - Op-Ed by Amanda Berrian.” Office of International Affairs, oia.osu.edu/news/revisualizing-the-one-health-schematic/. Accessed 15 Apr. 2024.</ref> The result of animal and human migration is the increased risk that a zoonotic disease will infect humans. Between the years of 2015 and 2016, <b>Zika-virus</b> carrying mosquitoes caused serious outbreaks in Uganda.<ref>“Zika Virus.” World Health Organization, World Health Organization, www.who.int/news-room/fact-sheets/detail/zika-virus#:~:text=Zika%20virus%20is%20a%20mosquito,African%20countries%20in%20the%201950s. Accessed 15 Apr. 2024.</ref> Ebola outbreaks were taking place in West Africa at about roughly the same time of the first reported Zika case in Uganda. <b>SARS-CoV-2</b> the most recent influential zoonotic pathogen, similar to EBOV, has been traced back to bats.<ref>https://www.niaid.nih.gov/diseases-conditions/origins-coronaviruses</ref> SARS-CoV-2 requires as much attention to animal health as its pathogen predecessors. When taking a One Health approach to Ebola outbreaks, many connections were made between the behavior of fruit bats in West Africa and its environment.<ref>“Connecting Human and Forest Health in West Africa: Basic Page: West Africa Regional.” U.S. Agency for International Development, 4 Aug. 2023, www.usaid.gov/biodiversity/stories/connecting-human-forest-health-west-africa#:~:text=In%202017%2C%20CIFOR%20and%20partners,often%20disconnected%20areas%20of%20forest.</ref> Fruit bats play various key roles in the management and enhancement of West Africa’s ecosystem. Among its several roles is the pollination of fruits that are harvested for human consumption.<ref>“Connecting Human and Forest Health in West Africa: Basic Page: West Africa Regional.” U.S. Agency for International Development, 4 Aug. 2023, www.usaid.gov/biodiversity/stories/connecting-human-forest-health-west-africa#:~:text=In%202017%2C%20CIFOR%20and%20partners,often%20disconnected%20areas%20of%20forest.</ref> Ebola-infected fruits via fruit bats, is a potential mode of transmission to humans. Through a One Health approach, deforestation has also been associated with the spread of EBOV.<ref>“Connecting Human and Forest Health in West Africa: Basic Page: West Africa Regional.” U.S. Agency for International Development, 4 Aug. 2023, www.usaid.gov/biodiversity/stories/connecting-human-forest-health-west-africa#:~:text=In%202017%2C%20CIFOR%20and%20partners,often%20disconnected%20areas%20of%20forest.</ref> The demand for land to grow food on by farmers caused animals to seek food and inhabitants in places foreign to them.<ref>“Connecting Human and Forest Health in West Africa: Basic Page: West Africa Regional.” U.S. Agency for International Development, 4 Aug. 2023, www.usaid.gov/biodiversity/stories/connecting-human-forest-health-west-africa#:~:text=In%202017%2C%20CIFOR%20and%20partners,often%20disconnected%20areas%20of%20forest.</ref> All things considered, the One Health approach allows us to take active steps in preventing future epidemics. By having a better understanding of changes in animal behavior and the ecosystem, professionals can predict and identify future pathogens along with their effect on human health. | |||
Over the years, scientists have learned a substantial amount about the EBOV anatomy and how it mechanistically functions as a virus. The adaptivity of EBOV from animals to humans across its wide range of species is an area of continuous discovery. Claiming the lives of thousands, EVD has caused a great deal of fear and heartbreak globally. It is through these trying times that significant advancements of treatments and virological knowledge came about. The knowledge that international health has gained from the peak of the outbreak has been utilized in other threatening instances such as the COVID-19 pandemic. Having dealt with a highly infectious pathogen in specialized ETUs, healthcare workers were more equipped to efficiently navigate COVID-19 isolation units in hospitals. Moreover, the required procedures necessary for transmission prevention in ETUs have also played an important role in COVID-19 containment. The importance of public health services has been made evident through the immense support of public health officials in the battle of Ebola outbreaks. Due to the efforts of public health officials to spread awareness of transmission pathways and protection techniques during outbreaks, the lives of many were saved. Overall the preparedness of public health officials and doctors have increased because of the intense Ebola era. While exposure to Ebola and COVID-19 has increased the efficiency of emergency responses across the globe, the improvement of ETUs structure and function is still very much needed. By observing patterns in Ebola burden on various countries, it can be seen that outbreaks affected some more than others. For this very reason, transmission and death rates were higher amongst underprivileged countries and communities. For the betterment of global health, Improvement of ETUs is particularly required in countries with low quality healthcare and facilities. | |||
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The first Ebola case occurred during the year 1976 in Zaire, which is now known as the Democratic Republic of Congo, located near the Ebola River.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref>. Following the initial case was an outbreak in Sudan which resulted in a mortality rate of roughly 53%.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref>. Up until the year 2000, within sub-saharan Africa, Ebola primarily affected Central and East African countries.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref>. 2014 marked the largest Ebola outbreak in history, initially spreading between Guinea, Liberia, and Sierra Leone.<ref>Centers for Disease Control and Prevention. (2021a, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak.</ref> The outbreak resulted in the infection and death of tens of thousands of people. Zaire ebolavirus, the most acquired strain in the West African outbreak, expanded further westward, reaching the countries of Nigeria, Mali, and Senegal.<ref>Centers for Disease Control and Prevention. (2021, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak</ref> Between 1990 and 2016 Ebola cases were found within 6 countries outside of Africa: United States, United Kingdom, Spain, Russia, and Italy.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21)</ref> The cause of these cases mostly came from healthcare workers who were treating patients at Ebola treatment centers in Africa and lab accidents.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> Ebola cases further arose from infected airline passengers and animals, specifically pigs and macaques from The Philippines.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> Infected macaques which were imported to a primate holding facility in the United States, were responsible for the well known cases from Reston, Virginia.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> The very last major Ebola outbreak which occurred in Uganda during the fall of 2022, ended months later in early 2023.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> During this outbreak 164 total cases along with 77 deaths were reported.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> | The first Ebola case occurred during the year 1976 in Zaire, which is now known as the Democratic Republic of Congo, located near the Ebola River.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref>. Following the initial case was an outbreak in Sudan which resulted in a mortality rate of roughly 53%.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref>. Up until the year 2000, within sub-saharan Africa, Ebola primarily affected Central and East African countries.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref>. 2014 marked the largest Ebola outbreak in history, initially spreading between Guinea, Liberia, and Sierra Leone.<ref>Centers for Disease Control and Prevention. (2021a, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak.</ref> The outbreak resulted in the infection and death of tens of thousands of people. Zaire ebolavirus, the most acquired strain in the West African outbreak, expanded further westward, reaching the countries of Nigeria, Mali, and Senegal.<ref>Centers for Disease Control and Prevention. (2021, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak</ref> Between 1990 and 2016 Ebola cases were found within 6 countries outside of Africa: United States, United Kingdom, Spain, Russia, and Italy.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21)</ref> The cause of these cases mostly came from healthcare workers who were treating patients at Ebola treatment centers in Africa and lab accidents.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> Ebola cases further arose from infected airline passengers and animals, specifically pigs and macaques from The Philippines.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> Infected macaques which were imported to a primate holding facility in the United States, were responsible for the well known cases from Reston, Virginia.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> The very last major Ebola outbreak which occurred in Uganda during the fall of 2022, ended months later in early 2023.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> During this outbreak 164 total cases along with 77 deaths were reported.<ref>Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369</ref> | ||
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[[Image:EBOV1.webp|thumb|700px|center|An arial view of an Ebola Treatment Unit from the Beni, Democratic Republic of the Congo. Photo credit: [https://www.who.int/news-room/feature-stories/detail/ebola-then-and-now/ ]]] | [[Image:EBOV1.webp|thumb|700px|center|An arial view of an Ebola Treatment Unit from the Beni, Democratic Republic of the Congo. Photo credit: [https://www.who.int/news-room/feature-stories/detail/ebola-then-and-now/ ]]] | ||
In countries that lack quality healthcare infrastructures and knowledge about disease transmission, the support of global assistance has been evident through the outbreaks of Ebola. In response to the first Ebola case in West Africa, over 2,000 U.S. military personnel and about 24,655 CDC trained healthcare workers were deployed to work in African <b>Ebola Treatment Units (ETUs)</b>.<ref>Centers for Disease Control and Prevention. (2021a, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak.</ref><ref>First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia</ref> The construction of the very first ETU, which was funded by the U.S. government, was built in Liberia.<ref>First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia</ref> In efforts to control the outbreak of Ebola, seven additional ETUs were erected in Liberia with the help of the U.S. government.<ref>First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia</ref> As part of the United States’ response to early Ebola outbreaks in Africa, 56 treatment centers which were used isolate the first COVID-19 patients.<ref>https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7181920/#:~:text=The%20Centers%20for%20Disease%20Control,care%20for%20patients%20with%20EVD.</ref> The high-level treatment centers in the United States come at an expensive cost. The cost for the establishment of quality facilities in the United States | In countries that lack quality healthcare infrastructures and knowledge about disease transmission, the support of global assistance has been evident through the outbreaks of Ebola. In response to the first Ebola case in West Africa, over 2,000 U.S. military personnel and about 24,655 <b>Centers for Disease Control and Prevention (CDC)</b> trained healthcare workers were deployed to work in African <b>Ebola Treatment Units (ETUs)</b>.<ref>Centers for Disease Control and Prevention. (2021a, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak.</ref><ref>First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia</ref> The construction of the very first ETU, which was funded by the U.S. government, was built in Liberia.<ref>First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia</ref> In efforts to control the outbreak of Ebola, seven additional ETUs were erected in Liberia with the help of the U.S. government.<ref>First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia</ref> As part of the United States’ response to early Ebola outbreaks in Africa, 56 treatment centers which were used isolate the first COVID-19 patients.<ref>https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7181920/#:~:text=The%20Centers%20for%20Disease%20Control,care%20for%20patients%20with%20EVD.</ref> The high-level treatment centers in the United States come at an expensive cost. The cost for the establishment of quality facilities in the United States for 2019 was about 1,425,640 dollars on average.<ref>https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7181920/#:~:text=The%20Centers%20for%20Disease%20Control,care%20for%20patients%20with%20EVD.</ref> The Another expense that must be considered in the establishment of facilities is maintenance. The average cost of maintenance per facility is estimated to be 224,664 dollars.<ref>https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7181920/#:~:text=The%20Centers%20for%20Disease%20Control,care%20for%20patients%20with%20EVD.</ref>The cost of owning an Ebola Treatment center caused many American hospitals to reject the opportunity of managing Ebola in its facilities.<ref>Regional Treatment Network for ebola and other special ... (n.d.-d). https://www.phe.gov/Preparedness/planning/hpp/reports/Documents/RETN-Ebola-Report-508.pdf</ref> Despite the cost of being an Ebola treatment center, approved hospitals received fundings through Hospital Preparedness Programs (HPP).<ref>Regional Treatment Network for ebola and other special ... (n.d.-d). https://www.phe.gov/Preparedness/planning/hpp/reports/Documents/RETN-Ebola-Report-508.pdf</ref> HPP Ebola Part B utilized its funding amount of 32,000 dollars to support the development of 10 regional Ebola treatment centers.<ref>Regional Treatment Network for ebola and other special ... (n.d.-d). https://www.phe.gov/Preparedness/planning/hpp/reports/Documents/RETN-Ebola-Report-508.pdf</ref> Texas, one of the states selected to hold a regional Ebola treatment center, received 2.3 million dollars from HPP Ebola Part B.<ref>Texas. (n.d.-e). https://www.lbb.texas.gov/Documents/Publications/Issue_Briefs/3096_Emergency_Fed_Funds_Ebola.pdf</ref> The accumulation of funds for Ebola treatment centers in the United States shows that isolation facilities are a necessity in the battle against Ebola and other infectious diseases. | ||
A challenge faced by ETUs on African land is the security of patients and workers. In 2019, an ETU located in Katwa, Democratic Republic of Congo was attacked by assailants.<ref>DRC: MSF shuts down ebola treatment center following violent attack. Doctors Without Borders - USA. (n.d.-a). https://www.doctorswithoutborders.org/latest/drc-msf-shuts-down-ebola-treatment-center-following-violent-attack</ref> The violent attack not only resulted in the destruction of ETU tents but also in the death of suffering patients.<ref>DRC: MSF shuts down ebola treatment center following violent attack. Doctors Without Borders - USA. (n.d.-a). https://www.doctorswithoutborders.org/latest/drc-msf-shuts-down-ebola-treatment-center-following-violent-attack</ref> Due to the fact that ETU structures are made of fragile materials and exposed to the public, they can be considered a target. ETUs built within dangerous areas are in most need of ETU surveillance and protection. ETUs built on war zones is yet another reason for protection, potentially through a country's national guard. | |||
The purpose of the ETU is to provide quality care for Ebola patients while simultaneously preventing transmission within the unit and the general public.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> Although ETUs were created for treatment and prevention of Ebola, it also became a treatment center for other coexisting diseases such as Malaria.<ref>Ebola outbreak in Democratic Republic of Congo. Doctors Without Borders - USA. (n.d.). https://www.doctorswithoutborders.org/what-we-do/focus/ebola-outbreak-democratic-republic-congo</ref> To fulfill its purpose, the structure of ETUs holds three risk areas.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The treatment unit itself is encompassed by two areas, the low-risk and high-risk zones.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The third risk area, which is enclosed by a fence, is established by the surrounding property on which the ETU is assembled.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The design of ETUs constrict infectious zones to one concentrated area through a “unidirectional flow.”<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> This allows medical personnel to move from low risk to high risk areas.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> High-risk zones are specifically located at the very center of ETUs and are confined by a double gate.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> | The purpose of the ETU is to provide quality care for Ebola patients while simultaneously preventing transmission within the unit and the general public.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> Although ETUs were created for treatment and prevention of Ebola, it also became a treatment center for other coexisting diseases such as Malaria.<ref>Ebola outbreak in Democratic Republic of Congo. Doctors Without Borders - USA. (n.d.). https://www.doctorswithoutborders.org/what-we-do/focus/ebola-outbreak-democratic-republic-congo</ref> To fulfill its purpose, the structure of ETUs holds three risk areas.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The treatment unit itself is encompassed by two areas, the low-risk and high-risk zones.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The third risk area, which is enclosed by a fence, is established by the surrounding property on which the ETU is assembled.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The design of ETUs constrict infectious zones to one concentrated area through a “unidirectional flow.”<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> This allows medical personnel to move from low risk to high risk areas.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> High-risk zones are specifically located at the very center of ETUs and are confined by a double gate.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> | ||
[[Image:Hazmat.jpg|thumb|700px|center|Healthcare workers | [[Image:Hazmat.jpg|thumb|700px|center|Healthcare workers putting on PPE in the donning area of the low-risk zone. Photo credit: [https://www.doctorswithoutborders.org/what-we-do/focus/ebola-outbreak-democratic-republic-congo/ Doctors Without Borders]]] | ||
<b>Low-Risk Zone:</b> | <b>Low-Risk Zone:</b> | ||
While the low-risk zone has areas for storage of equipment, treatments, and meeting rooms, its main purpose is to provide a safe space for the preparation of patient care.<ref> Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> As a staff-only area, the low-risk zone includes a space for donning, a place for medical personnel to suit up in personal protective equipment (PPE) | While the low-risk zone has areas for storage of equipment, treatments, and meeting rooms, its main purpose is to provide a safe space for the preparation of patient care.<ref> Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> As a staff-only area, the low-risk zone includes a space for donning, a place for medical personnel to suit up in <b>personal protective equipment (PPE)</b>.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The low-risk zone is also where health care worker enter and exit ETUs.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> Once healthcare workers leave the low-risk zone, they are prohibited from re-entering it. This occurrence can be particularly dangerous as contamination could be introduced to healthy medical personnel. Defined by its name, the low-risk zones are meant to have little to no contamination.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> | ||
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The management of healthcare workers is equally important to that of patients as workers may experience fatigue and are constantly at risk of contraction.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> When treating patients, all healthcare workers are expected to use PPE. The use of PPE requires all caretakers to wear gloves, gowns, and rubber boots.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> PPE also includes the use goggles, masks, and face shields for face protection.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The management of healthcare workers is enhanced by the | The management of healthcare workers is equally important to that of patients as workers may experience fatigue and are constantly at risk of contraction.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> When treating patients, all healthcare workers are expected to use PPE. The use of PPE requires all caretakers to wear gloves, gowns, and rubber boots.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> PPE also includes the use goggles, masks, and face shields for face protection.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The management of healthcare workers is enhanced by the <b>buddy system</b>, a mechanism of healthcare surveillance which allows ETUs to take immediate action in case of an emergency.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> The buddy system promotes the prevention of Ebola transmission to healthcare workers, by having two workers stay in each others proximity at all times.<ref>Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf</ref> | ||
==Conclusion== | ==Conclusion== | ||
Claiming the lives of thousands, EVD has caused a great deal of fear and heartbreak globally. It is through these trying times that significant advancements of treatments and virological knowledge came about. The knowledge that international health has gained from the peak of the outbreak has been utilized in other threatening instances such as the COVID-19 pandemic. Having dealt with a highly infectious pathogen in specialized ETUs, | Over the years, scientists have learned a substantial amount about the EBOV anatomy and how it mechanistically functions as a virus. The adaptivity of EBOV from animals to humans across its wide range of species is an area of continuous discovery. Claiming the lives of thousands, EVD has caused a great deal of fear and heartbreak globally. It is through these trying times that significant advancements of treatments and virological knowledge came about. The knowledge that international health has gained from the peak of the outbreak has been utilized in other threatening instances such as the COVID-19 pandemic. Having dealt with a highly infectious pathogen in specialized ETUs, healthcare workers were more equipped to efficiently navigate COVID-19 isolation units in hospitals. Moreover, the required procedures necessary for transmission prevention in ETUs have also played an important role in COVID-19 containment. The importance of public health services has been made evident through the immense support of public health officials in the battle of Ebola outbreaks. Due to the efforts of public health officials to spread awareness of transmission pathways and protection techniques during outbreaks, the lives of many were saved. Overall the preparedness of public health officials and doctors have increased because of the intense Ebola era. While exposure to Ebola and COVID-19 has increased the efficiency of emergency responses across the globe, the improvement of ETUs structure and function is still very much needed. By observing patterns in Ebola burden on various countries, it can be seen that outbreaks affected some more than others. For this very reason, transmission and death rates were higher amongst underprivileged countries and communities. For the betterment of global health, Improvement of ETUs is particularly required in countries with low quality healthcare and facilities. |
Latest revision as of 03:35, 16 April 2024
Introduction
The genus ebolavirus is responsible for the cause of Ebola Virus Disease (EVD), a hemorrhagic fever virus in humans.[1] The U.S. Centers for Disease Control and Prevention (CDC) classifies Ebola as a Category A select agent, making it a “high-priority agent” as it threatens national security. [2] Ebolaviruses (EBOV) belong to the virus family Filoviridae which it shares with Marburgvirus and Cuevavirus.[3] EBOV genomes consist of non-segmented, single-stranded RNA structures that includes seven open reading frames.[4][5] The EBOV genome is approximately 18.9 kilobases long.[6]
The EBOV genome encodes for seven genes each containing its own open reading frame.[7][8][9]
The seven gene all aid in the viral entry and replication of the virus:[10]
1) Glycoproteins (GPs) bind to the host's receptors on the cell's surface to insert its viral genome.
2) The Ebola Matrix Protein (VP40) gives EBOV its filamentous shape and directs the budding of enveloped viruses.
3) Nucleoproteins are subunits of the Nucleocapsid that as whole protects the viral genome.
4) VP35, VP30, and VP24 proteins play roles in the formation of EBOVs helical nucleocapsid.
5) The Polymerase (L) Protein is responsible for creating several copies of the RNA genome within hosts cells.
GPs have been identified as a target for vaccine development, as their outward position on EBOV surfaces make them visible to antibodies.[11] A major hope of vaccine development for EVD is to create a treatment that allows the binding of antibodies to non-carbohydrated regions of viral protein.[12] As of 2019, the very first FDA-approved Ebola vaccine called Ervebo has been approved and released for the use of people eighteen years or older.[13] Exposure to the GP in humans allows for the neutralization of antibodies, along with the restraint of viral attachment and fusion to host receptors. [14][15] Although Ervebo has saved many lives, the vaccine merely promotes the immunity of Zaire ebolavirus (ZEBOV).[16] With the possibility of high mutation rate frequencies of the EBOV genome and other infectious species, vaccine development is still underway in pharmaceutical companies.[17]
Along with Sudan ebolavirus (SUDV), ZEBOV is one of the most common outbreak-causing pathogens known for its inducement of the largest outbreak in West African history.[18] Without treatment, ZEBOV claims a fatality rate of up to 90%, making it the most lethal strain of EVD.[19] Although the fatality rates vary from case to case, the current fatality rate of EVD has decreased significantly. EVD fatality rates continue to decline due to heightened awareness of its transmission mechanisms and effective treatments. Currently, the average fatality rate of EVD patients who receive treatment is about 50%.[20]
There are five species of Ebola virus(EBOV)
1) Zaire ebolavirus (ZEBOV)
2) Bundibugyo ebolavirus (BDBV)
3) Sudan ebolavirus (SUDV)
4) Taï Forest ebolavirus (TAFV)
5) Reston ebolavirus (RESTV)
Symptoms
If someone has traveled to a location where Ebola is active and feels any of the designated symptoms, it is suggested that they call NHS 111 immediately.[21] To prevent potential spread of EVD in the event that the suspected person is infected, it is further suggested to avoid close contact with others by staying home.[22]
The onset of symptoms typically occurs between the incubation period of 2-21 days after exposure to EBOV.[23] At its early to mild stages, victims may experience the following flu-like symptoms: Vomiting, fever, headache, abdominal pain and diarrhea. Advanced EVD is indicative of the following symptoms all of which are fatal, bleeding from all orifices of the body, multi-organ failure, hypovolemic shock and coffee ground emesis[24]
Jeanne Kantungo, a 38 year-old mother and Ebola survivor from The Democratic Republic of Congo, shares her experience with the exigency of Ebola, along with a short description of her symptoms.[25]
In Kantugo’s interview with The International Rescue Committee, she states:
“It started with headaches...then blood all over my body. I was in the Ebola Treatment Center for two months. I felt so lonely. Doctors and nurses reassured me that I would recover and go home. Kids were sad when they saw me going. They thought I would die.”[26]
Transmission
The transmission of EBOV commonly occurs through direct contact of contaminated body fluids with mucous membranes and open wounds, as they are direct pathways to the bloodstream.[27] Although EBOV is not classified as an airborne virus, there is a lack of evidence to eliminate its ability to spread atypically via aerosols, infectious droplets present in the air. This mode of transmission, which mostly pertains to medical workers, has been thought to come about through medical procedures and aerosols released from gastrointestinal and respiratory tracts.[28] Following the termination of the West African outbreak was the re-emergence of EBOV within West African communities. The re-emergence of EBOV has been connected to persistent viral RNA, found in the ejaculatory fluids and breast milk of EVD survivors.[29] Due to undetectable levels of the virus in EVD survivors, the possibility that EBOV remains transmissible has been overlooked. According to Keita et al, 2019, Ebola survivors can carry viral RNA in bodily fluids such as breast milk and semen for up to 200 days.[30] Furthermore, approximately 69.2% of patients were reported to have tested positive after 3 to 6 months of being discharged from treatment centers.[31]
The History of Ebola
While the origins of Ebola are indefinite, the zoonotic disease has led scientists to believe that the initial hosts of the virus are fruit bats of the Pteropodidae family, also known as “old world bats.”[32][33] These megabats, found in various parts of Africa, are considered to be a natural reservoir of the pathogen. Other animals such as apes, forest antelopes, and porcupines are known to have been infected.[34] Ebola was most likely transmitted to humans via hunters who came in direct contact with the infected animals or sold them for consumption.[35]
A One Health approach addresses the intersectionality between the wellness of humans, animals, and the general environment.[36] The improvement of health in living things begins by acknowledging that humans are a part of the ecosystem.[37] The actions of humans have the ability to affect the health of plants and animals, which in return could positively or negatively impact human health. By taking responsibility for environmental health, the One Health approach reduces the outbreak of zoonotic diseases, the emergence of antimicrobial resistant bacterias, and improves food safety.[38] The importance of having a one health approach is emphasized by the emergence and re-emergence of zoonotic pathogens. Within the last three decades alone, there has been a significant increase in pathogenic activity across the globe. According to the World Health Organization (WHO), over 30 new pathogens have been identified within the span of 30 years. A little over half of those infectious diseases are zoonoses, about 60% to be exact.[39] The expansion of human population to lands that are heavily inhabited by diverse animal groups, has strengthened the connection between animals and humans. Due to climate change and its persistence, animals have migrated closer to human civilizations.[40] The result of animal and human migration is the increased risk that a zoonotic disease will infect humans. Between the years of 2015 and 2016, Zika-virus carrying mosquitoes caused serious outbreaks in Uganda.[41] Ebola outbreaks were taking place in West Africa at about roughly the same time of the first reported Zika case in Uganda. SARS-CoV-2 the most recent influential zoonotic pathogen, similar to EBOV, has been traced back to bats.[42] SARS-CoV-2 requires as much attention to animal health as its pathogen predecessors. When taking a One Health approach to Ebola outbreaks, many connections were made between the behavior of fruit bats in West Africa and its environment.[43] Fruit bats play various key roles in the management and enhancement of West Africa’s ecosystem. Among its several roles is the pollination of fruits that are harvested for human consumption.[44] Ebola-infected fruits via fruit bats, is a potential mode of transmission to humans. Through a One Health approach, deforestation has also been associated with the spread of EBOV.[45] The demand for land to grow food on by farmers caused animals to seek food and inhabitants in places foreign to them.[46] All things considered, the One Health approach allows us to take active steps in preventing future epidemics. By having a better understanding of changes in animal behavior and the ecosystem, professionals can predict and identify future pathogens along with their effect on human health.
Over the years, scientists have learned a substantial amount about the EBOV anatomy and how it mechanistically functions as a virus. The adaptivity of EBOV from animals to humans across its wide range of species is an area of continuous discovery. Claiming the lives of thousands, EVD has caused a great deal of fear and heartbreak globally. It is through these trying times that significant advancements of treatments and virological knowledge came about. The knowledge that international health has gained from the peak of the outbreak has been utilized in other threatening instances such as the COVID-19 pandemic. Having dealt with a highly infectious pathogen in specialized ETUs, healthcare workers were more equipped to efficiently navigate COVID-19 isolation units in hospitals. Moreover, the required procedures necessary for transmission prevention in ETUs have also played an important role in COVID-19 containment. The importance of public health services has been made evident through the immense support of public health officials in the battle of Ebola outbreaks. Due to the efforts of public health officials to spread awareness of transmission pathways and protection techniques during outbreaks, the lives of many were saved. Overall the preparedness of public health officials and doctors have increased because of the intense Ebola era. While exposure to Ebola and COVID-19 has increased the efficiency of emergency responses across the globe, the improvement of ETUs structure and function is still very much needed. By observing patterns in Ebola burden on various countries, it can be seen that outbreaks affected some more than others. For this very reason, transmission and death rates were higher amongst underprivileged countries and communities. For the betterment of global health, Improvement of ETUs is particularly required in countries with low quality healthcare and facilities.
The first Ebola case occurred during the year 1976 in Zaire, which is now known as the Democratic Republic of Congo, located near the Ebola River.[47]. Following the initial case was an outbreak in Sudan which resulted in a mortality rate of roughly 53%.[48]. Up until the year 2000, within sub-saharan Africa, Ebola primarily affected Central and East African countries.[49]. 2014 marked the largest Ebola outbreak in history, initially spreading between Guinea, Liberia, and Sierra Leone.[50] The outbreak resulted in the infection and death of tens of thousands of people. Zaire ebolavirus, the most acquired strain in the West African outbreak, expanded further westward, reaching the countries of Nigeria, Mali, and Senegal.[51] Between 1990 and 2016 Ebola cases were found within 6 countries outside of Africa: United States, United Kingdom, Spain, Russia, and Italy.[52] The cause of these cases mostly came from healthcare workers who were treating patients at Ebola treatment centers in Africa and lab accidents.[53] Ebola cases further arose from infected airline passengers and animals, specifically pigs and macaques from The Philippines.[54] Infected macaques which were imported to a primate holding facility in the United States, were responsible for the well known cases from Reston, Virginia.[55] The very last major Ebola outbreak which occurred in Uganda during the fall of 2022, ended months later in early 2023.[56] During this outbreak 164 total cases along with 77 deaths were reported.[57]
The Structure and Function of Ebola Treatment Units
In countries that lack quality healthcare infrastructures and knowledge about disease transmission, the support of global assistance has been evident through the outbreaks of Ebola. In response to the first Ebola case in West Africa, over 2,000 U.S. military personnel and about 24,655 Centers for Disease Control and Prevention (CDC) trained healthcare workers were deployed to work in African Ebola Treatment Units (ETUs).[58][59] The construction of the very first ETU, which was funded by the U.S. government, was built in Liberia.[60] In efforts to control the outbreak of Ebola, seven additional ETUs were erected in Liberia with the help of the U.S. government.[61] As part of the United States’ response to early Ebola outbreaks in Africa, 56 treatment centers which were used isolate the first COVID-19 patients.[62] The high-level treatment centers in the United States come at an expensive cost. The cost for the establishment of quality facilities in the United States for 2019 was about 1,425,640 dollars on average.[63] The Another expense that must be considered in the establishment of facilities is maintenance. The average cost of maintenance per facility is estimated to be 224,664 dollars.[64]The cost of owning an Ebola Treatment center caused many American hospitals to reject the opportunity of managing Ebola in its facilities.[65] Despite the cost of being an Ebola treatment center, approved hospitals received fundings through Hospital Preparedness Programs (HPP).[66] HPP Ebola Part B utilized its funding amount of 32,000 dollars to support the development of 10 regional Ebola treatment centers.[67] Texas, one of the states selected to hold a regional Ebola treatment center, received 2.3 million dollars from HPP Ebola Part B.[68] The accumulation of funds for Ebola treatment centers in the United States shows that isolation facilities are a necessity in the battle against Ebola and other infectious diseases.
A challenge faced by ETUs on African land is the security of patients and workers. In 2019, an ETU located in Katwa, Democratic Republic of Congo was attacked by assailants.[69] The violent attack not only resulted in the destruction of ETU tents but also in the death of suffering patients.[70] Due to the fact that ETU structures are made of fragile materials and exposed to the public, they can be considered a target. ETUs built within dangerous areas are in most need of ETU surveillance and protection. ETUs built on war zones is yet another reason for protection, potentially through a country's national guard.
The purpose of the ETU is to provide quality care for Ebola patients while simultaneously preventing transmission within the unit and the general public.[71] Although ETUs were created for treatment and prevention of Ebola, it also became a treatment center for other coexisting diseases such as Malaria.[72] To fulfill its purpose, the structure of ETUs holds three risk areas.[73] The treatment unit itself is encompassed by two areas, the low-risk and high-risk zones.[74] The third risk area, which is enclosed by a fence, is established by the surrounding property on which the ETU is assembled.[75] The design of ETUs constrict infectious zones to one concentrated area through a “unidirectional flow.”[76] This allows medical personnel to move from low risk to high risk areas.[77] High-risk zones are specifically located at the very center of ETUs and are confined by a double gate.[78]
Low-Risk Zone:
While the low-risk zone has areas for storage of equipment, treatments, and meeting rooms, its main purpose is to provide a safe space for the preparation of patient care.[79] As a staff-only area, the low-risk zone includes a space for donning, a place for medical personnel to suit up in personal protective equipment (PPE).[80] The low-risk zone is also where health care worker enter and exit ETUs.[81] Once healthcare workers leave the low-risk zone, they are prohibited from re-entering it. This occurrence can be particularly dangerous as contamination could be introduced to healthy medical personnel. Defined by its name, the low-risk zones are meant to have little to no contamination.[82]
High-Risk Zone:
The high risk zone is the area designated for patient care.[83] All activities that may result in the transmission of Ebola take place within the high-risk zone. For instance, the collection of PPE and medical instruments are disposed of in this zone.[84] Clinical samples from patients are kept in “High-risk zone” laboratories.[85] Doffing areas, which are utilized for the removal of PPE, increase the vulnerability of infection amongst healthcare workers.[86] The elevated chances of contracting Ebola in doffing areas is partly due to the fact that the body is exposed to the infectious environment. During the process of doffing, there is close distance between a caretaker's clothes and contaminated bodily fluids on the surface of PPE.[87]
The Management of Patients and Healthcare Workers
The management of patients in ETUs comes at the cost of monitoring various variables in an attempt to provide quality healthcare. Isolation in ETUs can be stress inducing to patients as they experience great affliction, become separated from their loved ones, and sojourn in a busy environment.[88] For this reason, ETUs are kept clean and comfortable to give patients a sense of normalcy.[89] In pursuit of making ETUs a less intimidating environment for patients, the presence of community is not only accepted but strongly encouraged.[90] Despite the forbiddance of visitors within the unit, the community is permitted to watch ETU activity from a far.[91] Furthermore, Communication between visitors and patients are facilitated by mesh fences that keep an appropriate distance between them.[92] That being said, all patients are kept in the high-risk zone.[93]
The management of healthcare workers is equally important to that of patients as workers may experience fatigue and are constantly at risk of contraction.[94] When treating patients, all healthcare workers are expected to use PPE. The use of PPE requires all caretakers to wear gloves, gowns, and rubber boots.[95] PPE also includes the use goggles, masks, and face shields for face protection.[96] The management of healthcare workers is enhanced by the buddy system, a mechanism of healthcare surveillance which allows ETUs to take immediate action in case of an emergency.[97] The buddy system promotes the prevention of Ebola transmission to healthcare workers, by having two workers stay in each others proximity at all times.[98]
Conclusion
Over the years, scientists have learned a substantial amount about the EBOV anatomy and how it mechanistically functions as a virus. The adaptivity of EBOV from animals to humans across its wide range of species is an area of continuous discovery. Claiming the lives of thousands, EVD has caused a great deal of fear and heartbreak globally. It is through these trying times that significant advancements of treatments and virological knowledge came about. The knowledge that international health has gained from the peak of the outbreak has been utilized in other threatening instances such as the COVID-19 pandemic. Having dealt with a highly infectious pathogen in specialized ETUs, healthcare workers were more equipped to efficiently navigate COVID-19 isolation units in hospitals. Moreover, the required procedures necessary for transmission prevention in ETUs have also played an important role in COVID-19 containment. The importance of public health services has been made evident through the immense support of public health officials in the battle of Ebola outbreaks. Due to the efforts of public health officials to spread awareness of transmission pathways and protection techniques during outbreaks, the lives of many were saved. Overall the preparedness of public health officials and doctors have increased because of the intense Ebola era. While exposure to Ebola and COVID-19 has increased the efficiency of emergency responses across the globe, the improvement of ETUs structure and function is still very much needed. By observing patterns in Ebola burden on various countries, it can be seen that outbreaks affected some more than others. For this very reason, transmission and death rates were higher amongst underprivileged countries and communities. For the betterment of global health, Improvement of ETUs is particularly required in countries with low quality healthcare and facilities.
- ↑ Kadanali A, Karagoz G. An overview of Ebola virus disease. North Clin Istanb. 2015 Apr 24;2(1):81-86. doi: 10.14744/nci.2015.97269. PMID: 28058346; PMCID: PMC5175058.
- ↑ Centers for Disease Control and Prevention. (2018a, April 4). CDC. Centers for Disease Control and Prevention. https://emergency.cdc.gov/agent/agentlist-category.asp
- ↑ Kadanali A, Karagoz G. An overview of Ebola virus disease. North Clin Istanb. 2015 Apr 24;2(1):81-86. doi: 10.14744/nci.2015.97269. PMID: 28058346; PMCID: PMC5175058.
- ↑ Postigo-Hidalgo I, Fischer C, Moreira-Soto A, Tscheak P, Nagel M, Eickmann M, Drexler JF. Pre-emptive genomic surveillance of emerging ebolaviruses. Euro Surveill. 2020 Jan;25(3):1900765. doi: 10.2807/1560-7917.ES.2020.25.3.1900765. PMID: 31992392; PMCID: PMC6988270.
- ↑ Aceti DJ, Ahmed H, Westler WM, Wu C, Dashti H, Tonelli M, Eghbalnia H, Amarasinghe GK, Markley JL. Fragment screening targeting Ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Res. 2020 Aug;180:104822. doi: 10.1016/j.antiviral.2020.104822. Epub 2020 May 21. PMID: 32446802; PMCID: PMC7894038.
- ↑ Postigo-Hidalgo I, Fischer C, Moreira-Soto A, Tscheak P, Nagel M, Eickmann M, Drexler JF. Pre-emptive genomic surveillance of emerging ebolaviruses. Euro Surveill. 2020 Jan;25(3):1900765. doi: 10.2807/1560-7917.ES.2020.25.3.1900765. PMID: 31992392; PMCID: PMC6988270.
- ↑ PDB101: Molecule of the month: Ebola virus proteins. RCSB. (n.d.). https://pdb101.rcsb.org/motm/178
- ↑ Takamatsu Y, Kolesnikova L, Becker S. Ebola virus proteins NP, VP35, and VP24 are essential and sufficient to mediate nucleocapsid transport. Proc Natl Acad Sci U S A. 2018 Jan 30;115(5):1075-1080. doi: 10.1073/pnas.1712263115. Epub 2018 Jan 16. PMID: 29339477; PMCID: PMC5798334.
- ↑ Jain S, Martynova E, Rizvanov A, Khaiboullina S, Baranwal M. Structural and Functional Aspects of Ebola Virus Proteins. Pathogens. 2021 Oct 15;10(10):1330. doi: 10.3390/pathogens10101330. PMID: 34684279; PMCID: PMC8538763.
- ↑ “PDB101: Molecule of the Month: Ebola Virus Proteins.” RCSB, pdb101.rcsb.org/motm/178. Accessed 15 Apr. 2024.
- ↑ Credit. (n.d.-a). Ebola virus. Baylor College of Medicine. https://www.bcm.edu/departments/molecular-virology-and-microbiology/emerging-infections-and-biodefense/specific-agents/ebola-virus
- ↑ Credit. (n.d.-a). Ebola virus. Baylor College of Medicine. https://www.bcm.edu/departments/molecular-virology-and-microbiology/emerging-infections-and-biodefense/specific-agents/ebola-virus
- ↑ Commissioner, O. of the. (n.d.). First FDA-approved vaccine for the prevention of ebola virus disease, marking a critical milestone in public health preparedness and response. U.S. Food and Drug Administration. https://www.fda.gov/news-events/press-announcements/first-fda-approved-vaccine-prevention-ebola-virus-disease-marking-critical-milestone-public-health
- ↑ Malenfant JH, Joyce A, Choi MJ, et al. Use of Ebola Vaccine: Expansion of Recommendations of the Advisory Committee on Immunization Practices to Include Two Additional Populations—United States, 2021. MMWR Morb Mortal Wkly Rep 2022;71:290–292
- ↑ Lee JE, Saphire EO. Ebolavirus glycoprotein structure and mechanism of entry. Future Virol. 2009;4(6):621-635. doi: 10.2217/fvl.09.56. PMID: 20198110; PMCID: PMC2829775.
- ↑ Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20
- ↑ Alfson KJ, Worwa G, Carrion R Jr, Griffiths A. Determination and Therapeutic Exploitation of Ebola Virus Spontaneous Mutation Frequency. J Virol. 2015 Dec 16;90(5):2345-55. doi: 10.1128/JVI.02701-15. PMID: 26676781; PMCID: PMC4810732.
- ↑ Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20
- ↑ Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20
- ↑ Centers for Disease Control and Prevention. (2023, September 15). Ebola vaccine: Information about ERVEBO®. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/clinicians/vaccine/index.html#:~:text=The%20Ebola%20Virus%20Vaccine,-ERVEBO®%20
- ↑ NHS. (n.d.). NHS choices. https://www.nhs.uk/conditions/ebola/
- ↑ NHS. (n.d.). NHS choices. https://www.nhs.uk/conditions/ebola/
- ↑ World Health Organization. (n.d.). Ebola virus disease. World Health Organization. https://www.who.int/news-room/fact-sheets/detail/ebola-virus-disease
- ↑ Ebola virus. Physiopedia. (n.d.-a). https://www.physio-pedia.com/Ebola_Virus#cite_note-Beeching-1
- ↑ Meet the survivors who won their battle against ebola. The IRC. (n.d.). https://www.rescue.org/article/meet-survivors-who-won-their-battle-against-ebola
- ↑ Meet the survivors who won their battle against ebola. The IRC. (n.d.). https://www.rescue.org/article/meet-survivors-who-won-their-battle-against-ebola
- ↑ World Health Organization. (n.d.-a). Ebola virus disease. World Health Organization. https://www.who.int/news-room/fact-sheets/detail/ebola-virus-disease
- ↑ Experts suspect ebola virus sometimes spreads by air. CIDRAP. (n.d.). https://www.cidrap.umn.edu/ebola/experts-suspect-ebola-virus-sometimes-spreads-air
- ↑ Keita, A. K., Vidal, N., Toure, A., Diallo, M. S. K., Magassouba, N., Baize, S., Mateo, M., Raoul, H., Mely, S., Subtil, F., Kpamou, C., Koivogui, L., Traore, F., Sow, M. S., Ayouba, A., Etard, J. F., Delaporte, E., & Peeters, M. (2019, November 8). A 40-month follow-up of ebola virus disease survivors in Guinea (postebogui) reveals long-term detection of ebola viral ribonucleic acid in semen and breast milk. OUP Academic. https://academic.oup.com/ofid/article/6/12/ofz482/5614563
- ↑ Keita, A. K., Vidal, N., Toure, A., Diallo, M. S. K., Magassouba, N., Baize, S., Mateo, M., Raoul, H., Mely, S., Subtil, F., Kpamou, C., Koivogui, L., Traore, F., Sow, M. S., Ayouba, A., Etard, J. F., Delaporte, E., & Peeters, M. (2019, November 8). A 40-month follow-up of ebola virus disease survivors in Guinea (postebogui) reveals long-term detection of ebola viral ribonucleic acid in semen and breast milk. OUP Academic. https://academic.oup.com/ofid/article/6/12/ofz482/5614563
- ↑ Keita, A. K., Vidal, N., Toure, A., Diallo, M. S. K., Magassouba, N., Baize, S., Mateo, M., Raoul, H., Mely, S., Subtil, F., Kpamou, C., Koivogui, L., Traore, F., Sow, M. S., Ayouba, A., Etard, J. F., Delaporte, E., & Peeters, M. (2019, November 8). A 40-month follow-up of ebola virus disease survivors in Guinea (postebogui) reveals long-term detection of ebola viral ribonucleic acid in semen and breast milk. OUP Academic. https://academic.oup.com/ofid/article/6/12/ofz482/5614563
- ↑ World Health Organization. (n.d.-a). Ebola virus disease. World Health Organization. https://www.who.int/news-room/fact-sheets/detail/ebola-virus-disease
- ↑ https://www.inaturalist.org/taxa/40782-Pteropodidae
- ↑ World Health Organization. (n.d.-a). Ebola virus disease. World Health Organization. https://www.who.int/news-room/fact-sheets/detail/ebola-virus-disease
- ↑ Centers for Disease Control and Prevention. (2023b, September 21). Transmission. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/transmission/index.html#:~:text=Additionally%2C%20ebolaviruses%20are%20not%20known,animals%20infected%20with%20an%20ebolavirus.
- ↑ “One Health Basics.” Centers for Disease Control and Prevention, Centers for Disease Control and Prevention, 28 Sept. 2023, www.cdc.gov/onehealth/basics/index.html.
- ↑ https://oia.osu.edu/news/revisualizing-the-one-health-schematic/
- ↑ “One Health Basics.” Centers for Disease Control and Prevention, Centers for Disease Control and Prevention, 28 Sept. 2023, www.cdc.gov/onehealth/basics/index.html.
- ↑ “Zoonotic Disease: Emerging Public Health Threats in the Region.” World Health Organization, World Health Organization, www.emro.who.int/fr/about-who/rc61/zoonotic-diseases.html. Accessed 15 Apr. 2024.
- ↑ “Revisualizing the One Health Schematic - Op-Ed by Amanda Berrian.” Office of International Affairs, oia.osu.edu/news/revisualizing-the-one-health-schematic/. Accessed 15 Apr. 2024.
- ↑ “Zika Virus.” World Health Organization, World Health Organization, www.who.int/news-room/fact-sheets/detail/zika-virus#:~:text=Zika%20virus%20is%20a%20mosquito,African%20countries%20in%20the%201950s. Accessed 15 Apr. 2024.
- ↑ https://www.niaid.nih.gov/diseases-conditions/origins-coronaviruses
- ↑ “Connecting Human and Forest Health in West Africa: Basic Page: West Africa Regional.” U.S. Agency for International Development, 4 Aug. 2023, www.usaid.gov/biodiversity/stories/connecting-human-forest-health-west-africa#:~:text=In%202017%2C%20CIFOR%20and%20partners,often%20disconnected%20areas%20of%20forest.
- ↑ “Connecting Human and Forest Health in West Africa: Basic Page: West Africa Regional.” U.S. Agency for International Development, 4 Aug. 2023, www.usaid.gov/biodiversity/stories/connecting-human-forest-health-west-africa#:~:text=In%202017%2C%20CIFOR%20and%20partners,often%20disconnected%20areas%20of%20forest.
- ↑ “Connecting Human and Forest Health in West Africa: Basic Page: West Africa Regional.” U.S. Agency for International Development, 4 Aug. 2023, www.usaid.gov/biodiversity/stories/connecting-human-forest-health-west-africa#:~:text=In%202017%2C%20CIFOR%20and%20partners,often%20disconnected%20areas%20of%20forest.
- ↑ “Connecting Human and Forest Health in West Africa: Basic Page: West Africa Regional.” U.S. Agency for International Development, 4 Aug. 2023, www.usaid.gov/biodiversity/stories/connecting-human-forest-health-west-africa#:~:text=In%202017%2C%20CIFOR%20and%20partners,often%20disconnected%20areas%20of%20forest.
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369
- ↑ Centers for Disease Control and Prevention. (2021a, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak.
- ↑ Centers for Disease Control and Prevention. (2021, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21)
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369
- ↑ Author links open overlay panelDavid J. Aceti a, a, b, c, Highlights•Performed a high throughput screen (HTS) to identify binders of Ebola NP.•Identified several binders that target Ebola NP C-terminal domain.•Validated binding and propose structure-activity relationships.•Highlight the utility of Ebola NP C-ter, & AbstractThe Ebola Virus is a causative agent of viral hemorrhagic fever outbreaks and a potential global health risk. The outbreak in West Africa (2013–2016) led to 11. (2020a, May 21) Fragment screening targeting ebola virus nucleoprotein C-terminal domain identifies lead candidates. Antiviral Research. https://www.sciencedirect.com/science/article/pii/S0166354220302369
- ↑ Centers for Disease Control and Prevention. (2021a, January 26). 2014-2016 ebola outbreak distribution in West Africa error processing SSI file. Centers for Disease Control and Prevention. https://www.cdc.gov/vhf/ebola/history/2014-2016-outbreak/distribution-map.html#:~:text=The%20largest%20Ebola%20outbreak%20in,the%20epicenter%20of%20the%20outbreak.
- ↑ First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia
- ↑ First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia
- ↑ First u.s.-constructed ebola treatment unit set to open in Liberia. Archive - U.S. Agency for International Development. (2014, November 10). https://2012-2017.usaid.gov/news-information/press-releases/nov-10-2014-first-us-constructed-ebola-treatment-unit-set-open-liberia
- ↑ https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7181920/#:~:text=The%20Centers%20for%20Disease%20Control,care%20for%20patients%20with%20EVD.
- ↑ https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7181920/#:~:text=The%20Centers%20for%20Disease%20Control,care%20for%20patients%20with%20EVD.
- ↑ https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7181920/#:~:text=The%20Centers%20for%20Disease%20Control,care%20for%20patients%20with%20EVD.
- ↑ Regional Treatment Network for ebola and other special ... (n.d.-d). https://www.phe.gov/Preparedness/planning/hpp/reports/Documents/RETN-Ebola-Report-508.pdf
- ↑ Regional Treatment Network for ebola and other special ... (n.d.-d). https://www.phe.gov/Preparedness/planning/hpp/reports/Documents/RETN-Ebola-Report-508.pdf
- ↑ Regional Treatment Network for ebola and other special ... (n.d.-d). https://www.phe.gov/Preparedness/planning/hpp/reports/Documents/RETN-Ebola-Report-508.pdf
- ↑ Texas. (n.d.-e). https://www.lbb.texas.gov/Documents/Publications/Issue_Briefs/3096_Emergency_Fed_Funds_Ebola.pdf
- ↑ DRC: MSF shuts down ebola treatment center following violent attack. Doctors Without Borders - USA. (n.d.-a). https://www.doctorswithoutborders.org/latest/drc-msf-shuts-down-ebola-treatment-center-following-violent-attack
- ↑ DRC: MSF shuts down ebola treatment center following violent attack. Doctors Without Borders - USA. (n.d.-a). https://www.doctorswithoutborders.org/latest/drc-msf-shuts-down-ebola-treatment-center-following-violent-attack
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola outbreak in Democratic Republic of Congo. Doctors Without Borders - USA. (n.d.). https://www.doctorswithoutborders.org/what-we-do/focus/ebola-outbreak-democratic-republic-congo
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Fischer WA 2nd, Weber D, Wohl DA. Personal Protective Equipment: Protecting Health Care Providers in an Ebola Outbreak. Clin Ther. 2015 Nov 1;37(11):2402-2410. doi: 10.1016/j.clinthera.2015.07.007. Epub 2015 Oct 9. PMID: 26452427; PMCID: PMC4661082.
- ↑ Fischer WA 2nd, Weber D, Wohl DA. Personal Protective Equipment: Protecting Health Care Providers in an Ebola Outbreak. Clin Ther. 2015 Nov 1;37(11):2402-2410. doi: 10.1016/j.clinthera.2015.07.007. Epub 2015 Oct 9. PMID: 26452427; PMCID: PMC4661082.
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf
- ↑ Ebola treatment unit. (n.d.-a). https://www.cdc.gov/vhf/ebola/hcp/safety-training-course/assets/E-Lecture_ETU.pdf