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Saturday, December 27, 2008
Plaque Assay


Viruses, like other microorganisms are too small to be enumerated by direct counting. Plaque assay can be used to help in counting the viruses.

The theory of the plaque assay is very similar to the theory behind bacterial colony counting. This method requires that the virus infects a cell line that grows as a monolayer. 1 virus will infect one cell if the concentration of virus is low enough. The viral concentration can be determined by the following formula:
Virus concentration = (number of plaques) x (dilution factor(s)) pfu/ml

Plaque Assay: method



Count only viable virus, it is useful for samples with very low virus counts.



Typical Steps to conduct a Plaque Assay

Materials

Procedures






Blogged @ 8:20 PM

Tuesday, December 23, 2008
Viral Amplification


What is Viral Amplification???

Viral amplification is used to infect the cells and wait for multiple rounds of infection to grow the virus in large quantities. It is a useful method to get satisfying concentration of virus and to conduct further studies on the virus amplified.
The virus is first cultivated in cells in a small flask, the medium is then used to infect a larger flask to produces higher titres. To amplify the virus, the virus needed to be cultivated in a continuous cell line rather than primary cell line because primary cell line have a limited life span and needed to be regenerated every time. The multiplicity of infection (MOI), the ratio of infectious virus to infection cells must be at least 10 to get a better yield of virus.


Typical Steps to conduct Viral Amplication

































Results

After viral amplification, the infected Vero cells which are high in titre do not divide but increasing in size and appear granular under microscope. However, the infected Vero cells which do not undergo viral amplification are low in titre, hence they continue to grow to confluency

Blogged @ 6:54 AM

Monday, December 22, 2008
Culture of Virus


Growth of virus on Embryonated eggs

Plant cell cultures are typically grown as cell suspension cultures in liquid medium. Tobacco BY-2 cells are non-green, fast growing plant cells which can multiply their numbers up to 100-fold within one week in adequate culture medium and good culture conditions. This cultivar of tobacco is kept as cell suspension culture.

In cell suspension cultures, each of the cells is floating independently or at most only in short chains in a culture medium. As the organism is relatively simple and predictable it makes the study of biological processes easier, and can be an intermediate step towards understanding more complex organisms.

Primary cell culture

Cell cultures freshly initiated from tissues or organ pieces are called primary cell cultures. These are characterized by a normally limited life span of the cells, which may die after a number of cell divisions.
The switch to abnormal chromosome numbers is usually referred to as cell transformation and this process may give rise to cells that can then be cultivated for indefinite periods of time by serial passaging. Such cells give rise to so-called continuous cell lines.
Continuous cell lines and various culture techniques play an important role in research on cytokines. They are employed to obtain recombinant cytokines and other proteins of interest. Cell lines are used also in studies of signal transduction mechanisms following, for example, introduction and functional expression of cloned receptor genes.

Tissue Culture Methods for Detection
CPE: vaccinia on monkey kidney (BSC40)

Fields Vriology (2007) 5th edition, Knipe, DM & Howley, PM, eds, Wolters Kluwer/Lippincott Williams & Wilkins, Philadelphia Fig. 2.5

Cytopathic Effect is the degenerative changes in cells associated with the multiplication of certain viruses; when, in tissue culture, spread of virus is restricted by an overlay of agar, the cytopathic effect may lead to formation of plaque.

Cytocidal effects are cytopathic effects that lead to host cell death.
Noncytocidal effects are cytopathic effects that do not lead to cell death.

Blogged @ 9:24 PM

Sunday, December 21, 2008
Intro on Methods of Study of Viruses


This topic gives ideal for people seeking a solid understanding of the basic principles in this rapidly developing field; it also offers a comprehensive introduction to the fundamentals of virology. The study of viruses is known as virology, and is a branch of microbiology. Viruses consist of two or three parts: all viruses have genes made from either DNA or RNA, long molecules that carry genetic information; all have a protein coat that protects these genes; and some have an envelope of fat that surrounds them when they are outside a cell.

Viruses spread in many ways; different species of virus use different methods. The methods of studying the viruses such as Plaque Assay, ELISA, etc
Studying of viruses is to help find out the cure for the diseases.

Four main methods for diagnosis of viral infections
1) Culture
2) Serology: test for immune response to virus
3) Detection of viral antigens
4) Detection of viral nucleic acids

Cultivation:

Physical Methods



From Medical Microbiology, 5th ed., Murray, Rosenthal & Pfaller, Mosby Inc., 2005, Table 51-1.

Blogged @ 6:10 PM

Poxviridae


The Small Pox Virus


Morphology
  • Ovoid and brick-shaped
  • 160-190nm in diameter, 220-450nm in length
  • Virions - envelope, surface membrane, a core and lateral bodies
  • Virus capsid is enveloped
  • External Coat - lipid and tubular or globular protein structures enclosing lateral bodies
Genome
  • Linear double-stranded DNA
  • 130000-375000 nucleotides long
  • Sequences repeated at both ends
  • Double-stranded DNA - Cross-linked at both ends

Diseases
  • Smallpox
  • Variola
  • Vaccinia
  • Cowpox
  • Monkeypox

Smallpox
  • Transmit from human to human, no animal reservoir or insect that play a part in transmitting.
  • Virus transmit through infected aerosols and water droplets in face to face contact.
  • Can also be transmitted through the clothes, belonging etc of infected person. However chances are lower.
  • have an incubation period of 7-17days
  • initial sign and symptoms are quite similar to influenza
  • Variola major - 25-30% fatalities. Do not spread that widely because patient is unable to leave bed during the early phase and stay in bed through out the illness.
  • Variola minor - less than 1% death. Spread widely and more easily because infected person is still able to continue with daily actives in early phase.
  • Before vaccine was developed, infected people either die or survive but heavily scarred, became blind and suffer neurological damages.
  • Vaccination was then developed by Edward Jenner (the video below tells you more)






Eradication


Blogged @ 11:14 AM

Saturday, December 20, 2008
Smallpox Documentary

















More about poxviridae in the next post! =)

Blogged @ 11:07 PM

Monday, December 15, 2008
Flaviviridae


More than 100 different members of the Flaviviridae are known, and are subdivided into 3 genera:
I. Flavivirus (including dengue, yellow fever, and West Nile viruses)
II. Pestivirus
III. Hepacivirus (hepatitis C viruses)

These genera have diverse biological properties and cause distinct diseases. However, they have similar genome organization and replication mechanisms.

Virion Properties

Morphology


Genome

Examples of Flavivirus


Dengue Virus
Dengue virus causes dengue and dengue hemorrhagic fever. It is an arbovirus. It has four serotypes, known as DEN-1, 2, 3, and 4. Most common caused by Aedes aegypti Mosquito.





Aedes aegypti can be identified by the white bands or scale patterns on its legs and thorax.
Two electron images of mature Dengue-2 virus particles replicating in five-day-old tissue culture cells:


Dengue Fever (Primary Infection)


Dengue fever is an acute viral illness characterized by:

Some cases may present with or develop encephalitic signs and symptoms, such as:

Four Grades of DHF

  1. Grade 1
    Fever and nonspecific constitutional symptoms
    Positive tourniquet test is only hemorrhagic manifestation
  2. Grade 2
    Grade 1 manifestations + spontaneous bleeding
  3. Grade 3
    Signs of circulatory failure (rapid/weak pulse, narrow pulse pressure, hypotension, cold/clammy skin)
  4. Grade 4
    Profound shock (undetectable pulse and BP)
    Symptoms

Antibody Response

Infection will result in lifelong immunity to that serotype, but only temporary immunity to other serotypes.

Primary Infection

Secondary Infection

Treatment

Prevention

Vaccination???
Presently no vaccine for prevention.
Vaccine development for dengue and DHF is difficult because any of four different viruses may cause disease, and because protection against only one or two dengue viruses could actually increase the risk of more serious disease.


Vector Control:
Chemical Control


Biological and Environmental Control

Yellow Fever Virus

Yellow fever is transmitted by the bite of an infected mosquito. Infants and children are at higher risk. There are two cycles of infection: one carried by monkeys and one by humans.

Jungle yellow fever

Urban yellow fever

Symptoms


Yellow fever's incubation period (the amount of time between the introduction of the virus into the host and the development of symptoms) is three to six days. During this time, there are generally no symptoms identifiable to the host.


Period of invasion
-lasts two to five days
-begins with an abrupt onset of symptoms

Period of intoxication
-last 3 to 9 days
-represents the most severe and potentially fatal phase of the illness)

Treatment


No specific treatment for yellow fever.
Dehydration and fever can be corrected with oral rehydration salts and paracetamol. Any superimposed bacterial infection should be treated with an appropriate antibiotic.


Prevention


Vaccination???
A very safe, very effective yellow fever vaccine exists. About 95% of vaccine recipients acquire long-term immunity to the yellow fever virus.
Vector Control:
· Insecticide

West Nile Virus


West Nile fever is a disease caused by West Nile Virus. West Nile Virus has an extremely broad host range. It replicates in humans, horses, and several species of birds. Most infected individuals show few signs of illness, but some develop severe neurological illness which can be fatal.




Symptoms
Most cases are mild and flu-like symptoms:

In more severe cases:

Typically those patients who develop a more severe form of the disease are likely to be people with a weakened immune system which includes the older person or those with certain chronic illnesses.

Treatment


No specific treatment, other than supportive care, is available.


Prevention


Vaccination???
No vaccine is available.


Vector Control:
Insect repellents


Blogged @ 11:56 PM

Friday, December 12, 2008
Retroviridae


Genera
Orthoretrovirinae (subfamily)

Spumaretrovirinae (subfamily)

Virion Properties
Morphology




Genome


All retroviruses contain three large genes which are, reading from 5’ to 3’:


i. gag - contains information to direct the synthesis of internal virion proteins that form the matrix, the capsid and the nucleoprotein structures


ii. pol - contains information for the reverse transcriptase and integrase enzymes

iii.env - contains the information for building the surface and transmembrane components of the viral envelope protein.





Examples of Retrovirus

Human T-cell lymphotropic virus (HTLV)
There are four different types of human T-cell lymphotropic viruses:
HTLV-1 : HTLV-1 has an affinity for CD4+ T-cells and is associated with several types of disease states: Adult t-cell leukemia, tropical spastic paraparesis, uveitis, and dermatitis.

HTLV-2: HTLV-2 mainly infects CD8+ T-cells, but does not have any proven causative role in human lymphoproliferative diseases.

HTLV-3: HTLV-3 was originally isolated in association with AIDS. With further research, however, it was discovered that its pathogenic and genetic characteristics differed from those of HTLV-1 and HTLV-2.

HTLV-4: HTLV-4 has only been described in cases involving bushmeat hunters in Africa.

An infected T-Cell with HTLV-1(green)

HTLV

Human Immunodeficiency Virus (HIV)
There 2 types of human immunodeficiency virus: HIV-1 and HIV-2. The new strain of HIV (HIV-2) discovered off the West coast of Africa is distinctly different than the original HIV-1 strain. While they have almost the same set of genes and very similar pathological effects, HIV-2 bears greater resemblence to the Simian Immunodeficiency Virus (SIV). HIV-2 is also less pathogenic than HIV-1.

HIV-1

HIV-2
Life Cycle of HIV

Their unique life cycle and replication mechanism are what set them distinctly apart from other viruses. The virion contains RNA, but when it enters the host cell, the RNA is reverse transcribed into DNA using reverse transcriptase. This DNA is then actually integrated into the host DNA to form a provirus. This serves as a template for transcription of viral RNAs and their resulting proteins which assemble into new virions. Integration of the viral DNA to form the provirus allows retroviruses to maintain infection in a host despite any immune response.

The video below helps you know more about the life cycle of HIV:

Transmission
The source of infection is from bodily fluids of the carrier such as semen or blood.
HIV can be transmitted through:

Symptoms
Stages of HIV infection has been broken down into four steps:


A. Primary Infection
During stage 1, there is a short flu-like illness that is often mistaken for being nothing serious, thus diagnosis is frequently missed. This stage generally lasts for a few weeks, during which the immune system attempts to fight back by producing HIV antibodies and cytotoxic lymphocytes.

B. Clinically Asymptomatic Stage
Even though no symptoms are present, the virus is multiplying (or making copies of itself) in the body during this time. HIV multiplies so quickly that the immune system cannot destroy the virus. After years of fighting HIV, the immune system starts to weaken.

C. Symptomatic HIV Infection
It occurs when the immune becomes severely damaged by HIV. The body has been fighting back for years, the virus could mutate and become stronger and the T helper cells are dying off, with turnover rates failing to keep up.

D. Progression from HIV to AIDS
As the immune system becomes more and more damaged the illnesses that occur become more and more severe leading eventually to an AIDS diagnosis.
Kaposi's sarcoma (a skin tumor that looks like dark purple blotches)

Treatment

Antiretroviral Drugs
Block the activity of one of the enzymes HIV needs to replicate inside human cells.

These drugs are:

Treatment is most effective when at least two or three drugs are given in combination, referred to as highly active antiretroviral therapy (HAART). It can delay or prevent AIDS in HIV-infected people, thus extending their life.

Diagnosis
Specific tests include the following:


Blogged @ 9:49 PM

Saturday, December 6, 2008
Orthomyxoviridae


The Orthomyxoviruses are composed of one genus and 3 types; A, B and C.
The disease caused by these viruses, influenza, is an acute respiratory disease with prominent systemic symptoms despite the fact that the infection rarely extends beyond the respiratory tract mucosa.


Type A is responsible for periodic worldwide epidemics; types A and B cause regional epidemics during the winter.
The recurring pattern of the influenza viruses is due to their ability to exhibit variation in surface antigens. Two phenomenon account for this variability:

Antigenic drift is due to mutations in the RNA that leads to changes in the antigenic character of the H and N molecules. Antigenic drift involves subtle changes that may cause epidemics but not pandemics.

Antigenic shift is due to rearrangement of different segments of the viral genome that produces major changes in the antigenic character of the H and N molecules. Antigenic shift usually occurs in animal hosts and is responsible for producing both epidemics and pandemics.

Orthomyxoviruses contain a single stranded, negative RNA genome divided into 8 segments.
The viruses have a lipid bilayer envelope with surface glycoproteins (hemagglutinin and neuraminidase)

Viral attachment is mediated by the hemagglutinin. The virus enters host cells by pinocytosis and uncoating occurs by fusion of the viral envelope with the membrane of the vacuole. The RNA is capped and replication proceeds in the nucleus. The progeny are released by budding and cell death ensues.

There are 3 viral antigens of importance: the nucleoprotein antigen that determines the virus type (A, B or C), the hemagglutinin (H) antigen, and the neuraminidase (N) antigen. The H and N antigens are variable.

Pathogenesis

Transmission of disease is airborne. The viruses deposit in lower respiratory tract, their primary site is the tracheobronchial mucosa.

Neuraminidase produces liquefaction, which leads to viral spread.

Respiratory symptoms include a cough, sore throat and nasal discharge.

The extent of respiratory tract cell destruction is a probable factor in the disease.

Severe complications include pneumonia (viral or bacterial)

Host Defences

IgA is produced in the upper respiratory tract and IgG is produced in the lower respiratory tract. These antibodies are directed primarily against the hemagglutinin and neuraminidase.

EPIDEMIOLOGY:
Influenza displays a typical pattern: school children bring the disease home and infect siblings and parents.
Epidemics usually last from 3-6 weeks and the highest attack rates are for 5-19 year olds (generally Type A).

DIAGNOSIS :Influenza usually displays a sudden onset with fever, malaise, headache, muscle aches, sore throat, cough and, generally in winter. The presence of disease in the community (i.e. epidemiology) is helpful in diagnosis.

Blogged @ 10:29 PM

Friday, December 5, 2008
Picornaviridae


Picornaviruses are small, nonenveloped viruses containing a single positive strand RNA genome. They possess an icosahedral symmetry.

They are divided into two groups; the Enteroviruses (Poliovirus, Coxsackievirus and Echovirus) and the Rhinoviruses. There are about 63 serotypes of Enterovirus and more than 100 serotypes of Rhinovirus.

Commonly produce subclinical infections; acute disease may range from minor illness to paralytic disease.

The Enteroviruses enter via the intestinal tract and attach to receptors on intestinal epithelia. During this alimentary phase, the virus replicates in cytoplasm-> spread into the lymphatic circulation (lymphatic phase) ->bloodstream (viremic phase). The viremic phase generally marks the end of the infection but an occasional neurologic phase can lead to more severe and permanent problems.

Rhinoviruses



Sensitive to acid pH and optimal growth occurs at 33°. There are over 100 serotypes of Rhinoviruses and they produce the common cold.


PATHOGENESIS:
Infection results via the nasopharynx by direct contact. Viral replication leads to inflammation and edema, symptoms of the common cold. Inapparent infection is common.

HOST DEFENSES:
Enteroviruses: Interferon is effective against these viruses. More specifically, IgA antibodies in the intestine and saliva are protective.
Rhino: Susceptibility to the Rhinoviruses is dependent on prior exposure. Antibody of the IgA and IgG classes is important. Non-specific defenses including interferon, gastric acidity and temperature may play a major role in controlling infection.

EPIDEMIOLOGY:
Enteroviruses: Found worldwide, the enteroviruses are spread via the fecal-oral route. Most illnesses occur in the summer and fall. The virus may be carried in the throat for a week and shed in the feces for several weeks.
Rhinoviruses: Spread from person to person, usually by direct contact. Inapparent infections occur in about half. On average, most persons suffer with 2-4 colds per year during the fall and spring months and these represent different serotypes of the virus.

There are so far no vaccines invented for both enterovirus and rhinovirus which are categorised under picornaviridae as there’s too many of serotypes. Only natural recovery is possible via diagnosing a person and telling him the site of replication of the virus. For example, recovery of Enterovirus from the throat or feces is diagnostic. Recovery of Rhinoviruses is simply not practical.

Blogged @ 2:50 AM

Wednesday, December 3, 2008
Hepdnaviridae


Hepadnaviridae (Hepa = liver; dna = deoxyribonucleic acid) includes one virus that is pathogenic to man: Hepatitis B virus (HBV). As their names imply, all of the known hepadnaviruses are hepatotropic, infecting liver cells, and all can cause hepatitis in their known host. Hepatitis is the a syndrome characterized by inflammation of the liver. It can be caused by hepatitis viruses (not necessarily in the Hepadnavirus family), other viruses, amebas, and non-infectious agents such as alcohol and acetaminophen.


The hepadnaviurses include three viruses of mammals and two viruses of birds. The mammalian viruses are closely related. For instance, Hepatitis B and Woodchuck Hepatitis Virus are 60% genetically identical. All have a very narrow host range.

Members of the Hepadna family include:

Hepadnaviruses are characterized by:

Envelope-- spherical, 42nm in diameter, contains cellular lipids, glycoproteins, and a virus-specific surface antigens such as HBsAg.

Icosahedral Capsid-- 27nm core. The core contains contains an antigen (HBcAg), DNA polymerase, and a small, circular, partially double stranded DNA. Capsid is closely surrounded by the viral envelope. T=3 triangulation number.

Viral genome-- Circular, 3.2kb, partially double-stranded DNA containing four overlapping open reading frames. It has the smallest genome of DNA viruses. One DNA strand, the minus strand has a protein covalently attached to the 5' end. The plus strand is of variable length and is shorter than the negative strand, and has an RNA oligonucleotide at its 5' end.

The rest of discussion will be based on Hepatitis B Virus (HBV) as more is known about this virus than other viruses in the Hepadnavirus family.

What is Hepatitis B?

Hepatitis B virus (HBV) is a virus that is transmitted sexually, in contaminated blood, and from mother to child. HBV can cause serious health problems, although many treatment options do exist. Hepatitis B infection is the 10th leading cause of death in the world, affecting approximately 2 billion people across the globe. The most serious complication of HBV infection is liver cancer (hepatocellular carcinoma), which alone causes more than 300,000 deaths per year. The risk of developing liver cancer after being infected with HBV is low, occurring in 1-4% of patients with HBV infections. Other serious complications that can arise from HBV infection are cirrhosis or scarring of the liver and a rare immunological disorder called immune complex disease. Cirrhosis (scarring of the liver) is also a serious health problem associated with HBV.


Pathogenesis
Hepatitis B virus is dangerous because it attacks the liver, thus inhibiting the functions of this vital organ. The virus causes persistent infection, chronic hepatitis, liver cirrhosis, hepatocellular carcinoma, and immune complex disease.

HBV infection in itself does not lead to the death of infected hepatocytes. HBV in a non-cytolytic infection. Liver damage however, arises from cytolytic effects of the immune system's cytotoxic T lymphocytes (CTL) which attempt to clear infection by killing infected cells. The strength of the CTL response has been noted to determine the course of the infection. For example, a vigorous CTL response results in clearance and recovery, although often with an episode of jaundice. A weak response results in few symptoms and chronic infection (and hence higher susceptibility for hepatocellular carcinoma).

The younger a person is when she becomes infected with HBV, the more likely she is to be asymptomatic and become a chronic carrier of the disease. Babies born to infected mothers are at very high risk of to becoming carriers and developing liver pathology.

Vertical is thus one common way that HBV is transmitted, along with transmission through sexual intercourse and mixing of blood products. Vertical transmission can be prevented by administering vaccine the same day of birth. Different modes of transmission are more prevalent in certain areas of the world and among certain high-risk groups, yet all areas of the world see HBV transmission through all of these avenues. About 90% of adults who acquire HBV recover from it completely and become immune to the virus. The other 10% of cases are the people who become chronic carriers.

Epidemiology
Groups at high risk of contracting Hepatitis B:
  • Sexually active individuals with multiple partners
  • Sexually active homosexual males
  • Intravenous drug users
  • Healthcare workers or other professionals regularly exposed to human blood
  • Hemophiliacs
  • People traveling to areas with endemic HBV

Most of these groups are at high risk due to behavioral factors. Risk of becoming infected with HBV is minimized by changing risky behaviors (e.g. IV drug use or unprotected sex) and, of course, by getting vaccinated.


Blogged @ 10:37 PM

Monday, December 1, 2008
Herpesviridae


Types:Herpes Simplex (HSV-1, HSV-2), Varicella-Zoster virus (VZV), Cytomegalovirus (CMV), Epstein-Barr virus (EBV)

The Herpesviruses are a large group containing more than 70 members that infect organisms from fungi to humans.

The Herpesviruses contain a linear DNA genome and are enveloped (bilayered with surface projections derived from the host cell nuclear membrane). Replication occurs in the host cell nucleus.

Herpesviruses cause acute infections but they are also capable of latency. This can lead to recurrent infections, which are important to the mechanism of host to host transmission
Humans are the natural host for HSV, VZV, CMV and EBV.

PATHOGENESIS:
Herpesviruses infect a range of different cell types, causing different disease scenarios. The skin and mucus membranes are common sites of infection for HSV and VZV; CMV and EBV are more internal (EBV infects B lymphocytes).

The viruses produce intranuclear inclusions and multinucleated giant cells

More specifically:

HSV-1 is responsible for a variety of infections. Most commonly, HSV-1 produces the condition known as gingivostomatitis in which oral cavity vesicles or ulcers form. These lesions may recur frequently as "cold sores" (herpes labialis).

HSV-2 is commonly referred to as genital herpes. This virus produces lesions on the genitals, urethra and bladder. Recurrence may be frequent.

VZV produces the disease varicella and zoster. Varicella is commonly known as chickenpox. This relatively mild infection in children can be more serious in adults, occasionally progressing to pneumonia. A highly contagious disease by touching the blisters or respiratory secretions, or through air. Varicella is characterized by a skin rash appearing first on the head and trunk, and later on the extremities. The skin lesions progress from macules to papules to vesicles to pustules to crusts. These lesions are not prone to scar. Zoster is commonly known as shingles and is a manifestation of varicella infection. Typically occurring in older individuals, the lesions are confined to skin areas.


CMV is a virus found in saliva, urine , semen, cervical secretion and breast milk.

EBV is a virus found in the nasopharynx and salivary glands.

HOST DEFENSES:
Primary infection by Herpesviruses induces antibody, which is protective, but recurrent infections still occur.

The cell-mediated immune response is also important (viral antigens on the cell surface allow detection and killing of infected cells).

EPIDEMIOLOGY:
In lower socioeconomic groups, most individuals are infected subclinically by HSV-1, CMV and EBV. In the higher socioeconomic groups, about half are infected. VZV infects both groups equally. HSV-2 is generally transmitted by sexual contact; the others more commonly by saliva.

CMV can be spread transplacentally (0.5-2.5% newborns have CMV in the urine).

DIAGNOSIS:
Clinical: Generally, the lesions are characteristic and clinical diagnosis is accurate.
Laboratory: Smears of lesions show intranuclear inclusions.

CONTROL:
Sanitary: Avoidance of contacts reduces the incidence of disease but virus may be transmitted by asymptomatic individuals.
Immunological: Vaccines are in development but the problems associated with latency and possible cancers remains. A vaccine for VZV is available. Hyperimmune serum can be used for susceptible or high risk individuals.

Blogged @ 10:34 PM


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Useful Links
For references etc.

Medical Microbiology-(bacteria)
Virology Classification
Animal Viruses
Baltimore Classification-Wiki
ICTVdB
Dengue Fever
Dengue Fever Fact Sheet
Yellow Fever
WHO on Yellow Fever
PHAC on West Nile
TMB on West Nile
Viral Mechanisms
Cell culture-COPE
ELISA-wiki
NCBI
Haemagglutination & ELISA(Journal)
Haemagglutination Inhibition(Journal)
HIV on MedicineNet
HIV Infection-Symptoms
HTLV
Mechanisms of Retroviridae
Hepdnaviridae
Herpesviridae-wiki
Influenza virus

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Recent posts
Previous posts by date.

Mechanisms of virus neutralization by Antibodies(Ab)
Direct electron microscopic particle count
Haemagglutination Inhibition (HI)
Antibody detection
ELISA
Plaque Assay
Viral Amplification
Culture of Virus
Intro on Methods of Study of Viruses
Poxviridae

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