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Ebola Syndrome

To define what Ebola is, Ebola virus disease (EVD) or Ebola hemorrhagic fever (EHF) is a viral hemorrhagic fever triggered by ebolaviruses in humans and all other primates. Fever, muscular soreness, sore throat, and headaches are common signs and symptoms that appear two to three weeks after catching the virus. Diarrhoea, vomiting, and rash are common side effects, as is liver and renal dysfunction. A few people start to bleed both internally as well as outwardly at this moment. Ebola syndrome disease does have a significant mortality rate, killing between 25% and 90% of people affected, with an average of around 50%. This is usually caused by shock from fluid loss and occurs six to 16 days after the onset of symptoms.


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The ebola spreading is transmitted by direct contact with bodily fluids like blood from infected animals or humans. Interaction with materials that have lately been contaminated by bodily fluids can potentially spread the disease. The disease has never been shown to transmit via the air amongst primates, such as humans, either in the laboratory or natural settings.

After an individual recovers from EVD, his or her sperm or breast milk might still have the virus for a few weeks to months. Fruit bats are thought to be the natural carrier of the virus, capable of spreading it without becoming infected. Malaria, meningitis, typhoid fever, cholera, and other viral haemorrhagic fevers can all look like EVD. To confirm a diagnosis, blood samples are examined for viral antibodies, viral RNA, or the virus directly.

Ebola Causes: Four of the five viruses in the Ebolavirus genus cause EVD in humans. Bundibugyo virus (BDBV), Ta Forest virus (TAFV), Sudan virus (SUDV), and Ebola virus are the four (EBOV, formerly Zaire Ebola virus). The most hazardous of the recognised EVD-causing viruses, EBOV (species Zaire ebolavirus), is accountable for the most outbreaks. The fifth virus, Reston virus (RESTV), is not known to induce disease in humans, however, it has been found to do so in numerous different primates. Marburgviruses are tightly linked to any and all five viruses.


Signs of Ebola

Onset:

The time between introduction to the virus, and the onset of symptoms (incubation period) ranges from two to 21 days, with the average being four to ten days. According to the latest estimates depending on mathematical models, about 5% of cases could take much longer than 21 days to emerge.

Symptoms typically start with a flu-like stage that includes weakness, fatigue, headache, muscle discomfort, decreased appetite, fever, joint pain, and sore throat. The temperature of the fever is frequently greater than 38.3 °C (101 °F). Vomiting, nausea, abdominal pain, diarrhoea, and hiccups are common side effects. Severe dehydration is frequently caused by a mixture of extreme vomiting and diarrhoea. Chest pain and shortness of breath, as well as headaches, inflammation, and confusion, might follow. Five to seven days following the onset of symptoms, the skin may develop a maculopapular rash, which is a flat red patch covered with minute bumps.


Bleeding:

Internal and external bleeding may occur in rare instances. This usually happens five to seven days after the first signs and symptoms appear. All infected people have a reduced ability to clot blood. In 40–50% of situations, bleeding from mucosal membranes or needle puncture areas has been documented. Blood may be vomited, coughed up, or passed in the stool as a result of this. Petechiae, purpura, ecchymoses, and haematomas can all result from bleeding into the skin. Bleeding into the whites of the eyes is a possibility as well. Heavy bleeding is rare, and when it does happen, it normally happens in the gastrointestinal tract. In the 2001 outbreak in Gabon, the rate of bleeding into the gastrointestinal system was found to be around 58 percent, whereas it was approximately 18 percent in the 2014–15 outbreak in the United States, probably due to better avoidance of disseminated intravascular coagulation.


Recovery and Death:

Between seven and fourteen days following the onset of symptoms, recovery might occur. If a person dies, it usually occurs six to sixteen days after the onset of symptoms and is commonly caused by shock from fluid loss. Bleeding is a sign of a bad consequence in general, and blood loss can lead to death. Close to the end of life, people frequently fall into a coma.

Those who recover frequently experience liver inflammation, ongoing muscle and joint pain, and hearing loss, as well as fatigue, a loss of appetite, weakness, and difficulties regaining their pre-illness weight. It's possible that eyesight issues will arise. It is suggested that EVD survivors use condoms for at least twelve months following their initial infection, or till their sperm tests negative for the Ebola virus on two different occasions.

Survivors produce antibodies to Ebola which remain for at least ten years, but it's unknown if they're immune to future infections.


Ebola Treatment: 

Below mentioned are some of the way for ebola treatment and diagnosis:

Laboratory Testing:

Low platelet count; initially reduced white blood cell count preceded by an increasing number of white blood cells; higher levels of the liver enzymes aspartate aminotransferase (AST) and alanine aminotransferase (ALT); and irregularities in blood clotting generally associated with disseminated intravascular coagulation are all non-specific laboratory indications of EVD (DIC), like partial thromboplastin time, prolonged prothrombin time, and bleeding time. Filovirions, like EBOV, might be recognised in cell cultures using electron microscopy because of their distinct filamentous forms.

Isolating the virus, identifying its RNA or proteins, or identifying antibodies against the virus in the blood of the patient confirms the precise diagnosis of EVD. Cell culture isolation, polymerase chain reaction (PCR) detection of viral RNA, and enzyme-linked immunosorbent assay (ELISA) detection of proteins are procedures primarily employed in the early phase of the disease and for finding the virus in human remains. Antibodies to the virus are most effective in those who are in the final phases of the sickness as well as those who recover.

IgM antibodies could be found two days after the onset of symptoms, while IgG antibodies can be discovered six to 18 days after the onset of symptoms. It is typically impossible to isolate the virus using cell culture procedures during an outbreak. ELISA and Real-time PCR are the most popular and sensitive diagnostic procedures used in the field or mobile hospitals. Test results are achieved 3–5 hours following sample submission in 2014, thanks to new mobile test sites deployed in portions of Liberia. WHO authorized the use of a fast antigen test that provides results in 15 minutes in 2015. It can identify Ebola in 92 percent of people who have been infected and rule it out in 85 percent of those who have not been infected.


Differential Diagnosis:

Initial symptoms of EVD might resemble those from other African diseases such as malaria and dengue fever. Other viral haemorrhagic fevers with comparable symptoms include Crimean–Congo haemorrhagic fever, Marburg virus disease, and Lassa fever. 

Typhoid fever, sepsis, candidiasis, measles, visceral leishmaniasis, rickettsial illnesses, scrub typhus, shigellosis, leptospirosis, borreliosis, EHEC enteritis, plague, cholera, Q fever, histoplasmosis, trypanosomiasis, and viral hepatitis are just a few of the infectious illnesses that might require consideration as well as complete differential diagnosis.

Acute promyelocytic leukaemia, clotting factor deficiencies/platelet disorders, haemolytic uraemic syndrome, Kawasaki disease, thrombotic thrombocytopenic purpura, hereditary haemorrhagic telangiectasia, snake envenomation, and warfarin poisoning are non-infectious diseases that can cause symptoms similar to EVD.


Ebola Prevention:

Vaccines- In December 2019, the rVSV-ZEBOV Ebola vaccine was supported and approved in the United States. After ten days, it appears to be completely effective. Between 2014 and 2016, this was investigated in Guinea. As of 2019, over 100,000 people were vaccinated against Ebola.


Infection Control-

1. Caregivers:

People caring for ebola bacteria patients must wear protective gear such as masks, gowns, gloves, and goggles. The Centers for Disease Control and Prevention (CDC) in the United States recommends that the protective gear tends to leave no exposed skin. Such precautions are indeed advised to anyone that might come into contact with objects contaminated by a deceased person's bodily fluids. The Centers for Disease Control and Prevention (CDC) started advising in 2014 that medical personnel undergo instruction on how to properly suit up and remove personal protective equipment (PPE); additionally, a designated person who is appropriately trained in biosafety must be watching each and every step of such process to ensure they have been done properly.


2. Patients and Household Members:

The Ebola patient must be kept away from other people by a boundary. Disinfect any equipment, patient waste, medical waste, or surfaces that might have to arise into direct contact with body fluids. During the 2014 Ebola outbreak, families were given kits containing chlorine powder, protective clothing, and also other disinfecting supplies to help them cure the disease at home.


3. Disinfection:

Heat (heating for about 30 to 60 minutes at 60 °C) could even kill Ebolaviruses. A few lipid solvents, like sodium hypochlorite (bleach), detergents, alcohol-based products, or calcium hypochlorite (bleaching powder), and some other suitable disinfectants could be used at an optimal concentration to sanitise surfaces.

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FAQs on Ebola

1. What is the fundamental cause of Ebola Virus Disease (EVD)?

Ebola Virus Disease (EVD) is caused by an infection with a virus from the genus Ebolavirus, which belongs to the Filoviridae family. The most common species responsible for outbreaks is the Zaire ebolavirus. The virus is zoonotic, meaning it is naturally transmitted from animals, with fruit bats being the likely natural reservoir, to humans through direct contact.

2. What are the primary symptoms that indicate an Ebola infection?

The onset of Ebola symptoms is often sudden. The primary symptoms include:

  • A high fever and severe headache
  • Intense muscle pain and fatigue
  • Sore throat and weakness
As the illness progresses, it can lead to vomiting, diarrhoea, a rash, and impaired kidney and liver function. In severe cases, it results in hemorrhagic symptoms, such as internal and external bleeding.

3. How is the Ebola virus transmitted from person to person?

Ebola is transmitted through direct contact with the blood, secretions, organs, or other bodily fluids of an infected person. It can also spread through contact with surfaces and materials, like bedding or clothing, that are contaminated with these fluids. Importantly, Ebola is not an airborne virus and is only spread once an infected individual starts showing symptoms.

4. Is there an effective treatment or cure for Ebola?

While there is no universal cure, significant progress has been made. Two specific monoclonal antibody treatments (Inmazeb and Ebanga) have been approved for treating infections caused by the Zaire ebolavirus. Additionally, supportive care, including fluid and electrolyte replacement, oxygen therapy, and managing specific symptoms, dramatically increases the chances of survival.

5. What are the chances of survival and recovery after contracting Ebola?

The case fatality rate for Ebola is high, averaging around 50%, but it can range from 25% to 90% depending on the specific outbreak and the level of medical care available. Recovery largely depends on early diagnosis, prompt supportive clinical care, and the patient's immune response. Many individuals do survive with appropriate treatment.

6. Why is Ebola classified as a viral hemorrhagic fever (VHF)?

Ebola is classified as a viral hemorrhagic fever because it is a severe illness that affects multiple organ systems and damages the overall vascular system. The virus impairs the body's ability to regulate blood flow and clotting. This vascular damage increases the permeability of blood vessels, which can lead to hemorrhaging (severe, uncontrolled bleeding) both internally and externally in the later stages of the disease.

7. How does Ebola's transmission and severity compare to common viruses like influenza?

The key differences are in transmission and mortality:

  • Transmission: Influenza is primarily an airborne respiratory virus that spreads easily through coughs and sneezes. Ebola is not airborne; it requires direct physical contact with the bodily fluids of a symptomatic person, making it less contagious in the general community.
  • Severity: Ebola has a far higher mortality rate than seasonal flu. While the flu can be serious, Ebola's ability to cause systemic organ failure and hemorrhagic shock makes it one of the most lethal viral diseases.

8. What type of virus is Ebola and how does its structure contribute to its danger?

Ebola is a single-stranded RNA virus with a negative-sense genome, belonging to the Filoviridae family. Its unique, long, thread-like (filamentous) shape is a defining feature. Its virulence is significantly linked to a surface glycoprotein (GP), which it uses to bind to and enter host cells. This glycoprotein also helps the virus evade the host's immune system, allowing for rapid replication and systemic infection before an effective immune response can be mounted.

9. What are the essential prevention and control measures during an Ebola outbreak?

As per the CBSE syllabus on disease control, the primary strategies for managing an Ebola outbreak include:

  • Rapid Diagnosis and Isolation: Quickly identifying and isolating infected individuals to prevent further spread.
  • Contact Tracing: Monitoring all individuals who have been in contact with an infected person for 21 days.
  • Personal Protective Equipment (PPE): Strict use of PPE by healthcare workers is crucial.
  • Safe Burial Practices: Ensuring safe and dignified burials to prevent transmission from the deceased.
  • Community Engagement: Educating the public on hygiene and safe practices.

10. Is the Ebola virus still a significant health threat in the world today?

Yes, Ebola remains a public health threat, especially in parts of sub-Saharan Africa where it is endemic in animal populations. While the large-scale epidemics of the past decade are over, smaller, sporadic outbreaks continue to occur. Thanks to the development of vaccines and effective treatments, along with robust surveillance systems, the global health community is better prepared to contain these outbreaks when they arise.


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