Hemorrhagic Fevers, Viral
Hemorrhagic Fever, Crimean
Hemorrhagic Fever with Renal Syndrome
Hemorrhagic Fever Virus, Crimean-Congo
Encephalitis Viruses, Tick-Borne
Hemorrhagic Fever, American
Hemorrhagic Fever, Ebola
Severe Dengue
Marburg Virus Disease
Hantaan virus
Hantavirus
Arenaviruses, New World
Ebolavirus
Dengue
Dengue Virus
Marburgvirus
Junin virus
Democratic Republic of the Congo
Q Fever
Filoviridae Infections
Yellow Fever
Arenavirus
Lassa virus
Filoviridae
Puumala virus
Pichinde virus
Disease Outbreaks
Typhoid Fever
Arenaviridae
Rift Valley Fever
Hantavirus Infections
Arterivirus
Nairovirus
Seoul virus
Ticks
Vero Cells
Bunyaviridae
Rheumatic Fever
Comparative analysis of immune responses to Russian spring-summer encephalitis and Omsk hemorrhagic fever viruses in mouse models. (1/2)
(+info)Nucleotide and deduced amino acid sequence of the envelope glycoprotein of Omsk haemorrhagic fever virus; comparison with other flaviviruses. (2/2)
The gene encoding the envelope glycoprotein of Omsk haemorrhagic fever (OHF) virus was cloned and sequenced. A freeze-dried preparation of infected suckling mouse brain suspension was used as the source material for viral RNA. The derived cDNA was amplified using the polymerase chain reaction and the cloned DNA sequenced by dideoxynucleotide sequencing. Alignment of the OHF virus sequence with those of other known tick-borne flaviviruses showed that they shared N-glycosylation sites, cysteine residues, the fusion peptide and a hexapeptide (EHLPTA) that identifies tick-borne flaviviruses. OHF virus was distinguishable from the other viruses but shared closest amino acid identity (93.0%) with the tick-borne encephalitis viruses. A sequence of three amino acids (AQN; amino acids 282 to 234), which was previously shown to be specific for the tick-borne encephalitis viruses, was altered to MVG in OHF virus. This is predicted to have a higher hydrophobicity than the AQN sequence and may therefore have significant implications for the phenotypic characteristics of OHF virus. The results demonstrate close phylogenetic relationships between these viruses but also show their distinct evolutionary development. Sequence changes within the envelope glycoprotein of OHF virus have been identified that may be responsible for the distinct tropism of this flavivirus. These results support and enlarge upon previous data obtained from serological analysis. (+info)Hemorrhagic fever, Omsk (OHF) is a viral disease transmitted by the tick bite or direct contact with infected body fluids. It is caused by the Omsk hemorrhagic fever virus, which belongs to the family Flaviviridae and is related to the tick-borne encephalitis virus. The disease is named after the city of Omsk in Western Siberia, Russia, where it was first identified in 1940.
OHF is primarily found in Western Siberia, particularly in the areas surrounding the Ob and Irtysh rivers. It mainly affects farmers, foresters, and individuals who spend time in rural or wilderness areas during the summer months when ticks are most active.
The incubation period for OHF ranges from 3 to 7 days after exposure. The initial symptoms include fever, headache, muscle pain, nausea, vomiting, and diarrhea. After a few days, more severe symptoms may develop, such as:
1. Hemorrhagic manifestations: These can include petechial rashes (small red or purple spots on the skin), ecchymoses (larger areas of bruising), and mucosal bleeding (bleeding from the mouth, nose, gums, or other mucous membranes).
2. Neurological symptoms: In some cases, OHF can cause meningoencephalitis, an inflammation of the brain and its surrounding membranes, leading to symptoms such as confusion, disorientation, seizures, and coma.
3. Hepatic involvement: Liver enzymes may be elevated, indicating liver damage or dysfunction.
4. Renal impairment: Acute kidney injury can occur in severe cases of OHF.
The mortality rate for OHF is estimated to be around 1-3%, with most deaths occurring in individuals with severe disease and complications. There is no specific antiviral treatment available for OHF, but supportive care, such as fluid replacement, electrolyte management, and treatment of hemorrhagic manifestations, can help improve outcomes. Preventive measures include using insect repellent, wearing protective clothing, and applying larvicides to control mosquito populations in areas where the virus is prevalent.
**Hemorrhagic fevers, viral** are a group of severe, potentially fatal illnesses caused by viruses that affect the body's ability to regulate its blood vessels and clotting abilities. These viruses belong to several different families including *Filoviridae* (e.g., Ebola, Marburg), *Arenaviridae* (e.g., Lassa, Machupo), *Bunyaviridae* (e.g., Hantavirus, Crimean-Congo hemorrhagic fever virus) and *Flaviviridae* (e.g., Dengue, Yellow Fever).
The initial symptoms are non-specific and include sudden onset of fever, fatigue, muscle aches, joint pains, headache, and vomiting. As the disease progresses, it may lead to capillary leakage, internal and external bleeding, and multi-organ failure resulting in shock and death in severe cases.
The transmission of these viruses can occur through various means depending on the specific virus. For example, some are transmitted via contact with infected animals or their urine/feces (e.g., Hantavirus), others through insect vectors like ticks (Crimean-Congo hemorrhagic fever) or mosquitoes (Dengue, Yellow Fever), and yet others through direct contact with infected body fluids (Ebola, Marburg).
There are no specific treatments for most viral hemorrhagic fevers. However, some experimental antiviral drugs have shown promise in treating certain types of the disease. Supportive care, such as maintaining blood pressure, replacing lost fluids and electrolytes, and managing pain, is critical to improving outcomes. Prevention measures include avoiding areas where the viruses are common, using personal protective equipment when caring for infected individuals or handling potentially contaminated materials, and controlling insect vectors.
Sources: Centers for Disease Control and Prevention (CDC), World Health Organization (WHO).
Crimean hemorrhagic fever (CHF) is a tick-borne disease caused by the virus named Crimean-Congo hemorrhagic fever virus (CCHFV). It is a severe and often fatal illness. The disease is characterized by sudden onset of high fever, muscle pain, severe headache, soreness in the eyes, fatigue, and dizziness. After two to four days, there may be evidence of hemorrhage (bleeding) from the mouth, gums, nose, or other sites. The virus is primarily transmitted to people from ticks that feed on domestic animals such as cattle, sheep, and goats. It can also be transmitted through contact with infected animal blood or tissues during and after slaughtering. Human-to-human transmission can occur resulting from close contact with the blood, secretions, organs or other bodily fluids of infected persons. Healthcare workers are at risk if they are not wearing appropriate personal protective equipment. There is no specific treatment for CHF yet, but early supportive care and symptomatic treatment improve survival rates.
Hemorrhagic Fever with Renal Syndrome (HFRS) is a group of clinically similar diseases caused by several distinct but related orthohantaviruses. The viruses are primarily transmitted to humans through inhalation of aerosols contaminated with excreta of infected rodents.
The clinical presentation of HFRS includes four phases: febrile, hypotensive, oliguric (decreased urine output), and polyuric (increased urine output). The febrile phase is characterized by fever, headache, myalgia, and abdominal pain. In the hypotensive phase, patients may experience a sudden drop in blood pressure, shock, and acute kidney injury leading to oliguria. The oliguric phase can last for days to weeks, followed by a polyuric phase where urine output increases significantly.
Additional symptoms of HFRS may include nausea, vomiting, conjunctival injection (redness), photophobia (sensitivity to light), and petechial rash (small red or purple spots on the skin caused by bleeding under the skin). In severe cases, HFRS can lead to acute renal failure, hypovolemic shock, and even death.
The severity of HFRS varies depending on the specific virus causing the infection. The most severe form of HFRS is caused by the Hantaaan virus, which has a mortality rate of up to 15%. Other viruses that can cause HFRS include Dobrava-Belgrade, Seoul, and Puumala viruses, with lower mortality rates ranging from less than 1% to about 5%.
Prevention measures for HFRS include reducing exposure to rodents and their excreta through proper food storage, waste disposal, and rodent control. Vaccines are available in some countries to prevent HFRS caused by specific viruses.
Crimean-Congo Hemorrhagic Fever (CCHF) is a viral disease transmitted to humans through tick bites or contact with infected animal blood or tissues during and after slaughter. The virus belongs to the Nairovirus genus in the Bunyaviridae family. The disease was first identified in Crimea in 1944 and later in the Congo in 1956, hence the name Crimean-Congo Hemorrhagic Fever.
The CCHF virus causes severe illness with a case fatality rate of up to 40% in hospitalized patients. The symptoms include sudden onset of fever, muscle pain, headache, dizziness, neck pain and stiffness, back pain, sore eyes, and sensitivity to light. After a few days, patients may develop nausea, vomiting, diarrhea, abdominal pain, and bleeding from the mouth, nose, gums, and private parts.
There is no specific treatment or vaccine available for CCHF, but early supportive care with oral or intravenous fluids, analgesics, and antipyretics can significantly reduce mortality. Ribavirin has been used in the treatment of severe cases, but its efficacy is not fully proven. Preventive measures include avoiding tick bites, using protective clothing and gloves while handling animals or their tissues, and practicing good hygiene and food safety.
Tick-borne encephalitis (TBE) viruses are a group of related viruses that are primarily transmitted to humans through the bite of infected ticks. The main strains of TBE viruses include:
1. European tick-borne encephalitis virus (TBEV-Eu): This strain is found mainly in Europe and causes the majority of human cases of TBE. It is transmitted by the tick species Ixodes ricinus.
2. Siberian tick-borne encephalitis virus (TBEV-Sib): This strain is prevalent in Russia, Mongolia, and China, and is transmitted by the tick species Ixodes persulcatus.
3. Far Eastern tick-borne encephalitis virus (TBEV-FE): Also known as Russian spring-summer encephalitis (RSSE) virus, this strain is found in Russia, China, and Japan, and is transmitted by the tick species Ixodes persulcatus.
4. Louping ill virus (LIV): This strain is primarily found in the United Kingdom, Ireland, Portugal, and Spain, and is transmitted by the tick species Ixodes ricinus. It mainly affects sheep but can also infect humans.
5. Turkish sheep encephalitis virus (TSEV): This strain is found in Turkey and Greece and is primarily associated with ovine encephalitis, although it can occasionally cause human disease.
6. Negishi virus (NGS): This strain has been identified in Japan and Russia, but its role in human disease remains unclear.
TBE viruses are members of the Flaviviridae family and are closely related to other mosquito-borne flaviviruses such as West Nile virus, dengue virus, and Zika virus. The incubation period for TBE is usually 7-14 days after a tick bite, but it can range from 2 to 28 days. Symptoms of TBE include fever, headache, muscle pain, fatigue, and vomiting, followed by neurological symptoms such as meningitis (inflammation of the membranes surrounding the brain and spinal cord) or encephalitis (inflammation of the brain). Severe cases can lead to long-term complications or even death. No specific antiviral treatment is available for TBE, and management typically involves supportive care. Prevention measures include avoiding tick-infested areas, using insect repellents, wearing protective clothing, and promptly removing attached ticks. Vaccination is also recommended for individuals at high risk of exposure to TBE viruses.
Hemorrhagic fever, American is a group of viral diseases that are transmitted to humans by infected ticks, mosquitoes or rodents. The most common types of American hemorrhagic fevers include:
1. Hantavirus Pulmonary Syndrome (HPS): It is caused by Sin Nombre virus and is transmitted to humans through inhalation of aerosolized urine, droppings or saliva of infected rodents.
2. Colorado Tick Fever (CTF): It is caused by a Coltivirus and is transmitted to humans through the bite of an infected tick.
3. Venezuelan Equine Encephalitis (VEE): It is caused by an Alphavirus and is transmitted to humans through the bite of an infected mosquito.
4. Eastern Equine Encephalitis (EEE) and Western Equine Encephalitis (WEE): They are also caused by Alphaviruses and are transmitted to humans through the bite of an infected mosquito.
These diseases are called hemorrhagic fevers because they are characterized by bleeding disorders, high fever, muscle and joint pain, headache, and fatigue. In severe cases, they can lead to shock, organ failure, and death. There are no specific treatments for these diseases, but early detection and supportive care can improve outcomes. Prevention measures include avoiding contact with rodents, using insect repellent, and wearing protective clothing in areas where the diseases are common.
Ebola Hemorrhagic Fever (EHF) is a severe, often fatal illness in humans. It is one of the five identified subtypes of the Ebolavirus. The virus is transmitted to people from wild animals and spreads in the human population through human-to-human transmission.
The early symptoms include sudden onset of fever, fatigue, muscle pain, headache and sore throat. This is followed by vomiting, diarrhea, rash, symptoms of impaired kidney and liver function, and in some cases, both internal and external bleeding.
Laboratory findings include low white blood cell and platelet counts and elevated liver enzymes.
The virus is introduced into the human population through close contact with the blood, secretions, organs or other bodily fluids of infected animals such as fruit bats, porcupines and non-human primates. Then it spreads in communities through human-to-human transmission via direct contact (through broken skin or mucous membranes) with the blood, secretions, organs or other bodily fluids of infected people, and with surfaces and materials contaminated with these fluids.
Healthcare workers have frequently been infected while treating patients with suspected or confirmed EVD due to a lack of adequate infection prevention and control measures.
There are currently no approved specific antiviral drugs or vaccines for Ebola. Several promising treatments and vaccine candidates are being evaluated.
Severe dengue, also known as dengue hemorrhagic fever, is a severe and potentially fatal complication of dengue virus infection. The World Health Organization (WHO) defines it as follows:
"Dengue hemorrhagic fever is characterized by a high fever (40°C/104°F) that lasts for 2-7 days, with generalized pain and severe headache, bleeding manifestations (e.g., nose or gum bleed, skin rash with bruising, internal bleeding), plasma leakage leading to accumulation of fluid in the lungs or abdomen, and a rapid decrease in platelet count."
Severe dengue can be life-threatening if not diagnosed and treated promptly. It is important to seek medical attention immediately if you suspect you have dengue fever and are experiencing any of the symptoms associated with severe dengue.
Fever, also known as pyrexia or febrile response, is a common medical sign characterized by an elevation in core body temperature above the normal range of 36.5-37.5°C (97.7-99.5°F) due to a dysregulation of the body's thermoregulatory system. It is often a response to an infection, inflammation, or other underlying medical conditions, and it serves as a part of the immune system's effort to combat the invading pathogens or to repair damaged tissues.
Fevers can be classified based on their magnitude:
* Low-grade fever: 37.5-38°C (99.5-100.4°F)
* Moderate fever: 38-39°C (100.4-102.2°F)
* High-grade or severe fever: above 39°C (102.2°F)
It is important to note that a single elevated temperature reading does not necessarily indicate the presence of a fever, as body temperature can fluctuate throughout the day and can be influenced by various factors such as physical activity, environmental conditions, and the menstrual cycle in females. The diagnosis of fever typically requires the confirmation of an elevated core body temperature on at least two occasions or a consistently high temperature over a period of time.
While fevers are generally considered beneficial in fighting off infections and promoting recovery, extremely high temperatures or prolonged febrile states may necessitate medical intervention to prevent potential complications such as dehydration, seizures, or damage to vital organs.
Marburg Virus Disease (MVD) is an acute and often fatal viral hemorrhagic fever illness caused by the Marburg virus, a member of the filovirus family. It's a highly infectious disease that can be transmitted from human to human through direct contact with infected bodily fluids, tissues, or indirectly through contaminated surfaces and materials.
The incubation period for MVD ranges from 2 to 21 days, after which symptoms such as fever, chills, headache, muscle aches, severe malaise, and progressive weakness appear. Around the fifth day of illness, a maculopapular rash may occur, followed by diarrhea, nausea, vomiting, abdominal pain, and non-bloody stools. In some cases, patients may develop severe bleeding disorders, shock, liver failure, and multi-organ dysfunction, which can lead to death in 24-48 hours.
Currently, there are no approved vaccines or antiviral treatments for MVD, but supportive care is crucial for managing the symptoms of the disease. Preventive measures such as avoiding contact with infected individuals and their bodily fluids, wearing protective clothing, and practicing good hygiene can help prevent the spread of the virus.
Hantaan virus (HTNV) is a species of the genus Orthohantavirus, which causes hemorrhagic fever with renal syndrome (HFRS) in humans. This enveloped, single-stranded, negative-sense RNA virus is primarily transmitted to humans through contact with infected rodents or their excreta, particularly the striped field mouse (Apodemus agrarius) in Asia. The virus was initially isolated in 1976 from the Hantaan River area in Korea.
HTNV infection leads to a spectrum of clinical manifestations in HFRS, ranging from mild to severe forms. The symptoms often include fever, headache, muscle pain, nausea, vomiting, abdominal pain, and blurred vision. In severe cases, it can cause acute renal failure, hypotension, and hemorrhagic complications. The incubation period for HTNV infection typically ranges from 7 to 42 days.
Prevention strategies include avoiding contact with rodents, reducing rodent populations in living areas, using personal protective equipment when handling potentially infected materials, and ensuring proper food storage and waste disposal practices. No specific antiviral treatment is available for HFRS caused by HTNV; however, supportive care, such as fluid replacement and hemodialysis, can help manage severe symptoms and improve outcomes.
Hantavirus is an etiologic agent for several clinical syndromes, including hantavirus pulmonary syndrome (HPS) and hemorrhagic fever with renal syndrome (HFRS). It's a single-stranded RNA virus belonging to the family Bunyaviridae, genus Orthohantavirus.
These viruses are primarily transmitted to humans by inhalation of aerosolized excreta from infected rodents. The symptoms can range from flu-like illness to severe respiratory distress and renal failure, depending upon the specific hantavirus species. There are no known treatments for HFRS, but early recognition and supportive care can significantly improve outcomes. Ribavirin has been used in some cases of HPS with apparent benefit, although its general efficacy is not well-established
(References: CDC, NIH, WHO)
Arenaviruses, New World, are a group of viruses in the Arenaviridae family that primarily infect rodents and can cause disease in humans. They are named after the Latin word "arena" which means "sand" because of the sandy-like appearance of their virions when viewed under an electron microscope.
New World arenaviruses include several different species, such as Junín virus, Machupo virus, Guanarito virus, and Sabia virus, among others. These viruses are endemic to certain regions in the Americas, particularly in South America. They are transmitted to humans through close contact with infected rodents or their excreta, and can cause severe hemorrhagic fever with high fatality rates if left untreated.
Some New World arenaviruses, such as Junín virus and Machupo virus, have been associated with outbreaks of human disease in the past, while others, like Guanarito virus and Sabia virus, have caused sporadic cases of illness. There are currently no vaccines available for most New World arenaviruses, although research is ongoing to develop effective countermeasures against these viruses.
Ebolavirus is a genus of viruses in the family Filoviridae, order Mononegavirales. It is named after the Ebola River in the Democratic Republic of Congo (formerly Zaire), where the virus was first identified in 1976. There are six species of Ebolavirus, four of which are known to cause disease in humans: Zaire ebolavirus, Sudan ebolavirus, Bundibugyo ebolavirus, and Tai Forest ebolavirus (formerly Cote d'Ivoire ebolavirus). The fifth species, Reston ebolavirus, is known to cause disease in non-human primates and pigs, but not in humans. The sixth and most recently identified species, Bombali ebolavirus, has not been associated with any human or animal diseases.
Ebolaviruses are enveloped, negative-sense, single-stranded RNA viruses that cause a severe and often fatal hemorrhagic fever in humans and non-human primates. The virus is transmitted to people from wild animals and spreads in the human population through human-to-human transmission. Fruit bats of the Pteropodidae family are considered to be the natural host of Ebolavirus.
The symptoms of Ebolavirus disease (EVD) typically include fever, severe headache, muscle pain, weakness, fatigue, and sore throat, followed by vomiting, diarrhea, rash, impaired kidney and liver function, and in some cases, both internal and external bleeding. The case fatality rate of EVD is variable but has been historically high, ranging from 25% to 90% in past outbreaks depending on the species and the quality of medical care. There are no licensed specific treatments or vaccines available for EVD, although several promising candidates are currently under development.
Dengue is a mosquito-borne viral infection that is primarily transmitted by the Aedes aegypti and Aedes albopictus species of mosquitoes. It is caused by one of four closely related dengue viruses (DENV 1, DENV 2, DENV 3, or DENV 4). The infection can cause a wide range of symptoms, ranging from mild fever and headache to severe flu-like illness, which is often characterized by the sudden onset of high fever, severe headache, muscle and joint pain, nausea, vomiting, and skin rash. In some cases, dengue can progress to more severe forms, such as dengue hemorrhagic fever or dengue shock syndrome, which can be life-threatening if not treated promptly and appropriately.
Dengue is prevalent in many tropical and subtropical regions around the world, particularly in urban and semi-urban areas with poor sanitation and inadequate mosquito control. There is no specific treatment for dengue, and prevention efforts focus on reducing mosquito populations and avoiding mosquito bites. Vaccines are available in some countries to prevent dengue infection, but they are not widely used due to limitations in their effectiveness and safety.
Dengue virus (DENV) is a single-stranded, positive-sense RNA virus that belongs to the genus Flavivirus in the family Flaviviridae. It is primarily transmitted to humans through the bites of infected female mosquitoes, mainly Aedes aegypti and Aedes albopictus.
The DENV genome contains approximately 11,000 nucleotides and encodes three structural proteins (capsid, pre-membrane/membrane, and envelope) and seven non-structural proteins (NS1, NS2A, NS2B, NS3, NS4A, NS4B, and NS5). There are four distinct serotypes of DENV (DENV-1, DENV-2, DENV-3, and DENV-4), each of which can cause dengue fever, a mosquito-borne viral disease.
Infection with one serotype provides lifelong immunity against that particular serotype but only temporary and partial protection against the other three serotypes. Subsequent infections with different serotypes can increase the risk of developing severe dengue, such as dengue hemorrhagic fever or dengue shock syndrome, due to antibody-dependent enhancement (ADE) and original antigenic sin phenomena.
DENV is a significant public health concern in tropical and subtropical regions worldwide, with an estimated 390 million annual infections and approximately 100-400 million clinical cases. Preventive measures include vector control strategies to reduce mosquito populations and the development of effective vaccines against all four serotypes.
According to the World Health Organization (WHO), Marburgviruses are toxiviral hemorrhagic fever-causing agents that belong to the Filoviridae family, which also includes Ebolaviruses. These enveloped, non-segmented, negative-stranded RNA viruses cause a severe and often fatal illness in humans and non-human primates. The Marburg virus was initially discovered in 1967, after simultaneous outbreaks occurred in laboratories in Marburg and Frankfurt, Germany, and in Belgrade, Yugoslavia (now Serbia).
The virions of Marburgviruses are typically filamentous or U-shaped and measure approximately 80 nm in diameter. The genome consists of a single non-segmented, negative-sense RNA molecule that encodes seven structural proteins: nucleoprotein (NP), polymerase cofactor protein (VP35), matrix protein (VP40), glycoprotein (GP), transcription activator protein (VP30), RNA-dependent RNA polymerase (L), and a small hydrophobic protein (sVP24 or VP80).
Marburgviruses are primarily transmitted to humans through contact with the bodily fluids of infected animals, such as bats and non-human primates. Human-to-human transmission can occur via direct contact with infected individuals' blood, secretions, organs, or other bodily fluids, as well as through contaminated surfaces and materials.
The incubation period for Marburg virus disease (MVD) typically ranges from 2 to 21 days. Initial symptoms include fever, chills, headache, muscle aches, and general malaise. As the disease progresses, patients may develop severe watery diarrhea, abdominal pain, nausea, vomiting, and unexplained bleeding or bruising. In fatal cases, MVD can cause multi-organ failure, shock, and death, often within 7 to 14 days after symptom onset.
Currently, there are no approved vaccines or antiviral treatments specifically for Marburg virus infections. However, supportive care, such as fluid replacement, electrolyte management, and treatment of secondary infections, can help improve outcomes for MVD patients. Preventive measures, including the use of personal protective equipment (PPE) and proper infection control practices, are crucial to reducing the risk of transmission during outbreaks.
Junin virus is a type of arenavirus that causes Argentine hemorrhagic fever, a severe and often fatal disease endemic to Argentina. The virus is primarily transmitted to humans through contact with the excreta of infected rodents, particularly the dryland vole (Microtus parvulus).
The Junin virus has a lipid envelope and a single-stranded RNA genome that encodes for four structural proteins and several nonstructural proteins. The viral glycoproteins are responsible for receptor binding, membrane fusion, and host immune response evasion.
Argentine hemorrhagic fever caused by Junin virus is characterized by fever, muscle pain, headache, and gastrointestinal symptoms, which can progress to severe bleeding, shock, and multi-organ failure in severe cases. The virus has a high case fatality rate if left untreated, but antiviral therapy with ribavirin and immune plasma from convalescent patients has significantly improved survival rates.
Prevention measures include avoiding contact with rodents, using personal protective equipment during high-risk activities, and implementing rodent control programs in endemic areas. Vaccination with the Candid #1 vaccine has also been shown to be effective in preventing Argentine hemorrhagic fever caused by Junin virus.
The Democratic Republic of the Congo (DRC) is a country located in Central Africa. It is named after the Congo River, which flows through the country. The DRC is the second-largest country in Africa by area and the eleventh-largest in the world. It is home to a diverse population of more than 80 million people, making it one of the most populous countries on the continent.
The DRC is a democratic republic, which means that it is a form of government in which the people have the power to choose their leaders through free and fair elections. The country has a presidential system of government, in which the president serves as both the head of state and the head of government. The current president of the DRC is Félix Tshisekedi, who took office in January 2019.
The DRC is a federal republic, meaning that it is divided into several provinces, each with its own elected government. The country has a total of 26 provinces, which are further divided into districts and sectors.
The DRC is a member of various international organizations, including the United Nations, the African Union, and the Southern African Development Community. It is also a party to several international treaties and agreements, such as the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) and the Paris Agreement on climate change.
The DRC has a mixed economy, with both private and public sectors playing important roles. The country is rich in natural resources, including minerals such as copper, diamonds, gold, and tin. It also has large areas of fertile land that are suitable for agriculture. However, the DRC faces significant challenges, including poverty, corruption, and conflict. Despite these challenges, the country has made progress in recent years in terms of economic growth and development.
Q fever is a zoonotic disease caused by the bacterium Coxiella burnetii. It is characterized by acute or chronic flu-like symptoms, pneumonia, and hepatitis. The bacteria are primarily transmitted to humans through inhalation of contaminated dust or aerosols from infected animals such as cattle, sheep, and goats. Q fever can also be transmitted through consumption of unpasteurized milk or direct contact with infected animals. It is often asymptomatic or mildly symptomatic in animals but can cause severe disease in humans.
The acute form of Q fever typically presents with sudden onset of high fever, severe headache, fatigue, muscle pain, and cough. Some patients may also develop pneumonia or hepatitis. The chronic form of the disease is less common but more serious, often affecting people with compromised immune systems. Chronic Q fever can lead to endocarditis, an infection of the inner lining of the heart, which can be life-threatening if left untreated.
Diagnosis of Q fever typically involves a combination of clinical evaluation, serological testing, and PCR (polymerase chain reaction) assays. Treatment usually involves antibiotics such as doxycycline or fluoroquinolones for several weeks to months, depending on the severity and duration of the illness. Prevention measures include avoiding contact with infected animals, wearing protective clothing and masks when handling animal products, and pasteurizing milk before consumption.
Lassa fever is an acute viral hemorrhagic fever caused by the Lassa virus. It is primarily transmitted to humans through contact with infected rodents or their excreta, and it can also spread from person to person via bodily fluids. The symptoms of Lassa fever typically include fever, sore throat, muscle pain, chest pain, headache, and vomiting. In severe cases, the disease can cause bleeding from the mouth and nose, as well as complications such as deafness and encephalitis. Lassa fever is endemic to West Africa, particularly in Nigeria, Guinea, Liberia, and Sierra Leone.
Filoviridae infections refer to diseases caused by viruses belonging to the Filoviridae family, which includes Ebola virus and Marburg virus. These viruses are characterized by filamentous or threadlike shapes and can cause severe hemorrhagic fever in humans and primates. The infections are associated with high mortality rates, ranging from 25% to 90%, depending on the specific virus and strain.
Transmission of Filoviridae viruses occurs through direct contact with infected bodily fluids or contaminated surfaces. The initial symptoms of infection include fever, muscle pain, headache, and sore throat, followed by vomiting, diarrhea, rash, and impaired organ function. In severe cases, the disease can progress to hemorrhagic fever, characterized by internal and external bleeding, shock, and multi-organ failure.
Currently, there are no approved vaccines or antiviral treatments for Filoviridae infections, although several experimental therapies and vaccines are under development. Prevention measures include avoiding contact with infected individuals, practicing good hygiene, and using personal protective equipment when caring for sick patients.
Arenaviridae infections are viral illnesses caused by members of the Arenaviridae family of viruses, which include several Old World and New World arenaviruses. These viruses are primarily transmitted to humans through contact with infected rodents or their excreta.
Old World arenaviruses include Lassa fever virus, Lymphocytic choriomeningitis virus (LCMV), and Lujo virus, among others. They are endemic in Africa and can cause severe hemorrhagic fever with high mortality rates.
New World arenaviruses, found mainly in the Americas, include Junin virus, Machupo virus, Guanarito virus, and Sabia virus. These viruses can cause hemorrhagic fever as well, although their severity varies.
In general, Arenaviridae infections can present with a wide range of symptoms, from mild flu-like illness to severe hemorrhagic fever, depending on the specific virus and the individual's immune status. Treatment typically involves supportive care, while some viruses have specific antiviral therapies available. Prevention measures include avoiding contact with rodents and their excreta, as well as implementing public health interventions to control rodent populations in endemic areas.
Yellow fever is an acute viral hemorrhagic disease that's transmitted to humans through the bite of infected mosquitoes. The "yellow" in the name refers to the jaundice that can occur in some patients, resulting from liver damage caused by the virus. The disease is endemic in tropical regions of Africa and Central and South America.
The yellow fever virus is a single-stranded RNA virus that belongs to the Flaviviridae family, genus Flavivirus. It's closely related to other mosquito-borne viruses like dengue and Zika. The virus has three distinct geographical variants (West African, East African, and South American), each with different epidemiological patterns and clinical features.
The incubation period for yellow fever is typically 3 to 6 days after infection. The initial symptoms include fever, chills, headache, back pain, myalgia, and fatigue. Most patients recover after this initial phase, but around 15% of those infected enter a more severe phase characterized by high fever, jaundice, abdominal pain, vomiting, bleeding, and often rapid death within 7 to 10 days.
There is no specific treatment for yellow fever, and management is focused on supportive care, including fluid replacement, blood transfusions, and addressing any complications that arise. Prevention relies on vaccination and mosquito control measures. The yellow fever vaccine is safe and highly effective, providing immunity in 95% of those who receive it. A single dose offers lifelong protection in most individuals. Mosquito control efforts, such as reducing breeding sites and using insecticide-treated materials, can help prevent the spread of the virus in affected areas.
Arenavirus is a type of virus that belongs to the family Arenaviridae. These viruses are enveloped and have a single-stranded, bi-segmented RNA genome. They are named after the Latin word "arena" which means "sand" because their virions contain ribosomes which resemble sand granules when viewed under an electron microscope.
Arenaviruses are primarily associated with rodents and can cause chronic infection in their natural hosts. Some arenaviruses can also infect humans and other animals, causing severe hemorrhagic fevers. Examples of human diseases caused by arenaviruses include Lassa fever, Argentine hemorrhagic fever, Bolivian hemorrhagic fever, and Venezuelan hemorrhagic fever.
These viruses are typically transmitted to humans through contact with infected rodents or their excreta, but some can also be spread from person to person through close contact with an infected individual's blood or other bodily fluids. There are currently no vaccines available for most arenaviruses, and treatment is primarily supportive, focusing on managing symptoms and complications.
Lassa virus is an arenavirus that causes Lassa fever, a type of hemorrhagic fever. It is primarily transmitted to humans through contact with infected rodents or their urine and droppings. The virus can also be spread through person-to-person transmission via direct contact with the blood, urine, feces, or other bodily fluids of an infected person.
The virus was first discovered in 1969 in the town of Lassa in Nigeria, hence its name. It is endemic to West Africa and is a significant public health concern in countries such as Sierra Leone, Liberia, Guinea, and Nigeria. The symptoms of Lassa fever can range from mild to severe and may include fever, sore throat, muscle pain, chest pain, and vomiting. In severe cases, the virus can cause bleeding, organ failure, and death.
Prevention measures for Lassa fever include avoiding contact with rodents, storing food in rodent-proof containers, and practicing good hygiene. There is no vaccine available to prevent Lassa fever, but ribavirin, an antiviral drug, has been shown to be effective in treating the disease if administered early in the course of illness.
Filoviridae is a family of negative-sense, single-stranded RNA viruses that includes three genera: Ebolavirus, Marburgvirus, and Cuevavirus. These viruses are known to cause severe hemorrhagic fever in humans and nonhuman primates, with high fatality rates. The most well-known members of this family are Ebola virus and Marburg virus.
The virions of Filoviridae are filamentous, often having a "U," "6," or "hook" shape, and can be up to 14,000 nanometers in length. The genome of these viruses is non-segmented and contains seven genes that encode for structural proteins and enzymes necessary for replication.
Transmission of Filoviridae occurs through direct contact with infected bodily fluids or contaminated surfaces, and infection can result in a range of symptoms including fever, severe headache, muscle pain, weakness, fatigue, and hemorrhage. There are currently no approved vaccines or antiviral treatments for Filoviridae infections, although several are in development.
Puumala virus (PUUV) is an RNA virus that belongs to the Hantavirus genus in the Bunyaviridae family. It is the most common cause of nephropathia epidemica (NE), also known as hemorrhagic fever with renal syndrome (HFRS), in Europe. The virus is primarily transmitted to humans through contact with infected rodent urine, droppings, or saliva, particularly from the bank vole (Myodes glareolus). The symptoms of NE caused by PUUV include fever, headache, muscle pain, nausea, and vomiting, which can progress to acute kidney injury in severe cases. Preventive measures include avoiding contact with rodents and their excreta, as well as ensuring proper ventilation when cleaning areas where rodents may be present.
Pichinde virus (PICV) is an enveloped, negative-sense, single-stranded RNA virus that belongs to the family Arenaviridae. It is primarily found in rodents, specifically the Pichinde deer mouse (Oligoryzomys fulvescens), which are endemic to South America, particularly Colombia.
PICV is not known to cause disease in humans and is often used as a model organism for studying arenaviral pathogenesis and immunity. However, accidental laboratory infections have been reported, resulting in mild febrile illness or seroconversion without symptoms. Therefore, it is recommended that appropriate biosafety measures be taken when handling this virus.
A disease outbreak is defined as the occurrence of cases of a disease in excess of what would normally be expected in a given time and place. It may affect a small and localized group or a large number of people spread over a wide area, even internationally. An outbreak may be caused by a new agent, a change in the agent's virulence or host susceptibility, or an increase in the size or density of the host population.
Outbreaks can have significant public health and economic impacts, and require prompt investigation and control measures to prevent further spread of the disease. The investigation typically involves identifying the source of the outbreak, determining the mode of transmission, and implementing measures to interrupt the chain of infection. This may include vaccination, isolation or quarantine, and education of the public about the risks and prevention strategies.
Examples of disease outbreaks include foodborne illnesses linked to contaminated food or water, respiratory infections spread through coughing and sneezing, and mosquito-borne diseases such as Zika virus and West Nile virus. Outbreaks can also occur in healthcare settings, such as hospitals and nursing homes, where vulnerable populations may be at increased risk of infection.
Typhoid fever is an acute illness caused by the bacterium Salmonella enterica serovar Typhi. It is characterized by sustained fever, headache, constipation or diarrhea, rose-colored rash (in some cases), abdominal pain, and weakness. The bacteria are spread through contaminated food, water, or direct contact with an infected person's feces. If left untreated, typhoid fever can lead to severe complications and even be fatal. It is diagnosed through blood, stool, or urine tests and treated with antibiotics. Vaccination is available for prevention.
Arenaviridae is a family of viruses that includes several species known to cause disease in humans and animals. The name "Arenaviridae" comes from the Latin word "arena," meaning "sand," due to the sandy appearance of these viruses when viewed under an electron microscope.
The virions (complete virus particles) of Arenaviridae are typically enveloped, spherical or pleomorphic in shape, and measure between 50-300 nanometers in diameter. The genome of Arenaviridae viruses is composed of two single-stranded, negative-sense RNA segments called the L (large) segment and the S (small) segment. These segments encode for several viral proteins, including the glycoprotein (GP), nucleoprotein (NP), and the RNA-dependent RNA polymerase (L).
Arenaviridae viruses are primarily transmitted to humans through contact with infected rodents or their excreta. Some of the most well-known human pathogens in this family include Lassa fever virus, Junín virus, Machupo virus, and Guanarito virus, which can cause severe hemorrhagic fevers. Other Arenaviridae viruses, such as lymphocytic choriomeningitis virus (LCMV), can cause milder illnesses in humans, including fever, rash, and meningitis.
Prevention and control of Arenaviridae infections typically involve reducing exposure to infected rodents and their excreta, as well as the development of vaccines and antiviral therapies for specific viruses in this family.
Rift Valley Fever (RVF) is a viral zoonotic disease that primarily affects animals, but can also have serious consequences for humans. It is caused by the Rift Valley Fever virus (RVFV), which belongs to the family Bunyaviridae and the genus Phlebovirus.
The disease is transmitted through the bite of infected mosquitoes or through contact with the blood, milk, or other bodily fluids of infected animals such as cattle, sheep, goats, and camels. In humans, RVF can cause a range of symptoms, from mild fever and headache to severe complications such as retinitis, encephalitis, and hemorrhagic fever, which can be fatal in some cases.
RVF is endemic in parts of Africa, particularly in the Rift Valley region, and has also been reported in the Arabian Peninsula. It poses a significant public health and economic threat to affected regions due to its potential to cause large-scale outbreaks with high mortality rates in both animals and humans. Prevention and control measures include vaccination of animals, vector control, and avoidance of mosquito bites.
Hantavirus infections are a group of viral diseases caused by rodent-borne hantaviruses. These viruses are primarily transmitted to humans through the inhalation of aerosolized urine, droppings, or saliva from infected rodents, particularly the deer mouse, white-tailed mouse, and rice rat in North America.
There are several different types of hantavirus infections, including Hantavirus Pulmonary Syndrome (HPS) and Hemorrhagic Fever with Renal Syndrome (HFRS). HPS is more common in the Americas, while HFRS is more prevalent in Europe and Asia.
Symptoms of hantavirus infections can vary depending on the specific type of infection but may include fever, muscle aches, headache, fatigue, and coughing. In severe cases, hantavirus infections can lead to respiratory failure, shock, and even death.
Preventive measures include avoiding contact with rodents, sealing entry points to prevent their entry into homes or buildings, and using appropriate personal protective equipment when cleaning areas where rodents may have been present. Currently, there is no specific treatment for hantavirus infections, but early recognition and supportive care can improve outcomes.
Antibodies, viral are proteins produced by the immune system in response to an infection with a virus. These antibodies are capable of recognizing and binding to specific antigens on the surface of the virus, which helps to neutralize or destroy the virus and prevent its replication. Once produced, these antibodies can provide immunity against future infections with the same virus.
Viral antibodies are typically composed of four polypeptide chains - two heavy chains and two light chains - that are held together by disulfide bonds. The binding site for the antigen is located at the tip of the Y-shaped structure, formed by the variable regions of the heavy and light chains.
There are five classes of antibodies in humans: IgA, IgD, IgE, IgG, and IgM. Each class has a different function and is distributed differently throughout the body. For example, IgG is the most common type of antibody found in the bloodstream and provides long-term immunity against viruses, while IgA is found primarily in mucous membranes and helps to protect against respiratory and gastrointestinal infections.
In addition to their role in the immune response, viral antibodies can also be used as diagnostic tools to detect the presence of a specific virus in a patient's blood or other bodily fluids.
Arterivirus is a type of enveloped, single-stranded, positive-sense RNA virus that belongs to the family Arteriviridae. These viruses are named after their initial discovery in arteries and have since been found to infect a wide range of mammals, including pigs, horses, cats, and primates.
Arteriviruses can cause various diseases, such as porcine reproductive and respiratory syndrome (PRRS) in pigs, equine arteritis virus (EAV) in horses, and simian hemorrhagic fever virus (SHFV) in non-human primates. In humans, Arterivirus infection is rare, but some cases of human infection with porcine reproductive and respiratory syndrome virus have been reported.
Arteriviruses are characterized by their unique viral structure, including a distinctive "coronavirus-like" appearance due to the presence of club-shaped projections on their surface called peplomers. However, they differ from coronaviruses in several ways, such as genome organization and replication strategy.
Overall, Arterivirus is an important group of viruses that can cause significant economic losses in the livestock industry and pose a potential threat to human health.
Fever of Unknown Origin (FUO) is a medical condition defined as a fever that remains undiagnosed after one week of inpatient evaluation or three days of outpatient evaluation, with temperatures repeatedly measuring at or above 38.3°C (101°F). The fevers can be continuous or intermittent and are often associated with symptoms such as fatigue, weight loss, and general malaise.
The causes of FUO can be broadly categorized into four groups: infections, inflammatory diseases, neoplasms (cancers), and miscellaneous conditions. Infections account for a significant proportion of cases, particularly in immunocompromised individuals. Other possible causes include connective tissue disorders, vasculitides, drug reactions, and factitious fever.
The diagnostic approach to FUO involves a thorough history and physical examination, laboratory tests, and imaging studies. The goal is to identify the underlying cause of the fever and provide appropriate treatment. In some cases, despite extensive evaluation, the cause may remain undiagnosed, and management focuses on supportive care and monitoring for any new symptoms or complications.
Nairovirus is a genus of viruses in the family Bunyaviridae. They are negative-sense, single-stranded RNA viruses and are transmitted to humans and animals through tick bites. The name "Nairovirus" comes from the initials of the National Institute for Virology in South Africa, where the first virus in this genus was discovered.
Nairoviruses can cause severe febrile illnesses in humans, including hemorrhagic fever and neurological symptoms. Some of the more well-known nairoviruses include Crimean-Congo hemorrhagic fever virus (CCHFV), which is found in Africa, Asia, Eastern Europe, and the Middle East, and Nairobi sheep disease virus (NSDV), which primarily infects sheep and goats but can also cause illness in humans.
It's important to note that nairoviruses are zoonotic, meaning they can be transmitted from animals to humans, and can pose a significant public health risk in areas where they are endemic. Prevention measures include avoiding tick bites, using personal protective equipment when handling infected animals, and implementing appropriate infection control practices in healthcare settings.
Seoul virus is a type of hantavirus that can cause a severe and sometimes fatal disease in humans called hemorrhagic fever with renal syndrome (HFRS). It is primarily carried by the brown or Norway rat (Rattus norvegicus) and is transmitted to humans through contact with infected rat urine, droppings, or saliva.
The virus can also be spread through aerosolized particles of rat excreta, making it possible for the virus to infect people who come into contact with contaminated dust or airborne particles. In addition, Seoul virus can be transmitted through the bite of an infected rat or by consuming food or water contaminated with rat urine or feces.
The symptoms of Seoul virus infection typically appear within 1-2 weeks after exposure and can include fever, chills, headache, muscle aches, nausea, and vomiting. In severe cases, the virus can cause damage to the blood vessels, leading to bleeding disorders, low blood pressure, and acute kidney failure.
Seoul virus is found worldwide, but it is most commonly reported in Asia. People who work in rat-infested environments, such as sewers, warehouses, and farms, are at increased risk of exposure to the virus. There is no specific treatment for Seoul virus infection, but supportive care, such as fluid replacement and management of complications, can improve outcomes. Prevention measures include avoiding contact with rats and their excreta, using personal protective equipment when working in rat-infested areas, and practicing good hygiene.
A medical definition of "ticks" would be:
Ticks are small, blood-sucking parasites that belong to the arachnid family, which also includes spiders. They have eight legs and can vary in size from as small as a pinhead to about the size of a marble when fully engorged with blood. Ticks attach themselves to the skin of their hosts (which can include humans, dogs, cats, and wild animals) by inserting their mouthparts into the host's flesh.
Ticks can transmit a variety of diseases, including Lyme disease, Rocky Mountain spotted fever, anaplasmosis, ehrlichiosis, and babesiosis. It is important to remove ticks promptly and properly to reduce the risk of infection. To remove a tick, use fine-tipped tweezers to grasp the tick as close to the skin's surface as possible and pull upward with steady, even pressure. Do not twist or jerk the tick, as this can cause the mouthparts to break off and remain in the skin. After removing the tick, clean the area with soap and water and disinfect the tweezers.
Preventing tick bites is an important part of protecting against tick-borne diseases. This can be done by wearing protective clothing (such as long sleeves and pants), using insect repellent containing DEET or permethrin, avoiding wooded and brushy areas with high grass, and checking for ticks after being outdoors.
'Murinae' is not a medical term. It is a taxonomic classification used in biology, specifically for a subfamily of rodents that includes mice, rats, and several related species. The term 'Murinae' comes from the family Muridae, which is the largest family of mammals, containing over 700 species.
The misconception might arise because medical professionals sometimes use common names for various animals or organisms in their diagnoses, treatments, or research. However, it is essential to clarify that 'Murinae' is a scientific classification and not a medical term.
Vero cells are a line of cultured kidney epithelial cells that were isolated from an African green monkey (Cercopithecus aethiops) in the 1960s. They are named after the location where they were initially developed, the Vervet Research Institute in Japan.
Vero cells have the ability to divide indefinitely under certain laboratory conditions and are often used in scientific research, including virology, as a host cell for viruses to replicate. This allows researchers to study the characteristics of various viruses, such as their growth patterns and interactions with host cells. Vero cells are also used in the production of some vaccines, including those for rabies, polio, and Japanese encephalitis.
It is important to note that while Vero cells have been widely used in research and vaccine production, they can still have variations between different cell lines due to factors like passage number or culture conditions. Therefore, it's essential to specify the exact source and condition of Vero cells when reporting experimental results.
Bunyaviridae is a family of enveloped, single-stranded RNA viruses that includes more than 350 different species. These viruses are named after the type species, Bunyamwera virus, which was first isolated in 1943 from mosquitoes in Uganda.
The genome of Bunyaviridae viruses is divided into three segments: large (L), medium (M), and small (S). The L segment encodes the RNA-dependent RNA polymerase, which is responsible for replication and transcription of the viral genome. The M segment encodes two glycoproteins that form the viral envelope and are involved in attachment and fusion to host cells. The S segment encodes the nucleocapsid protein, which packages the viral RNA, and a non-structural protein that is involved in modulation of the host immune response.
Bunyaviridae viruses are transmitted to humans and animals through arthropod vectors such as mosquitoes, ticks, and sandflies. Some members of this family can cause severe disease in humans, including Hantavirus pulmonary syndrome, Crimean-Congo hemorrhagic fever, and Rift Valley fever.
Prevention and control measures for Bunyaviridae viruses include avoiding contact with vectors, using insect repellent and wearing protective clothing, and implementing vector control programs. There are no specific antiviral treatments available for most Bunyaviridae infections, although ribavirin has been shown to be effective against some members of the family. Vaccines are available for a few Bunyaviridae viruses, such as Hantavirus and Crimean-Congo hemorrhagic fever virus, but they are not widely used due to limitations in production and distribution.
Rheumatic fever is a systemic inflammatory disease that may occur following an untreated Group A streptococcal infection, such as strep throat. It primarily affects children between the ages of 5 and 15, but it can occur at any age. The condition is characterized by inflammation in various parts of the body, including the heart (carditis), joints (arthritis), skin (erythema marginatum, subcutaneous nodules), and brain (Sydenham's chorea).
The onset of rheumatic fever usually occurs 2-4 weeks after a streptococcal infection. The exact cause of the immune system's overreaction leading to rheumatic fever is not fully understood, but it involves molecular mimicry between streptococcal antigens and host tissues.
The Jones Criteria are used to diagnose rheumatic fever, which include:
1. Evidence of a preceding streptococcal infection (e.g., positive throat culture or rapid strep test, elevated or rising anti-streptolysin O titer)
2. Carditis (heart inflammation), including new murmurs or changes in existing murmurs, electrocardiogram abnormalities, or evidence of heart failure
3. Polyarthritis (inflammation of multiple joints) – typically large joints like the knees and ankles, migratory, and may be associated with warmth, swelling, and pain
4. Erythema marginatum (a skin rash characterized by pink or red, irregularly shaped macules or rings that blanch in the center and spread outward)
5. Subcutaneous nodules (firm, round, mobile lumps under the skin, usually over bony prominences)
6. Sydenham's chorea (involuntary, rapid, irregular movements, often affecting the face, hands, and feet)
Treatment of rheumatic fever typically involves antibiotics to eliminate any residual streptococcal infection, anti-inflammatory medications like corticosteroids or nonsteroidal anti-inflammatory drugs (NSAIDs) to manage symptoms and prevent long-term heart complications, and secondary prophylaxis with regular antibiotic administration to prevent recurrent streptococcal infections.