Epstein-Barr virus: Difference between revisions
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** 80-95% sensitive and 98-100% specific, overall |
** 80-95% sensitive and 98-100% specific, overall |
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** Less sensitive (10-50%) in young children (<4 years), with much lower negative predictive power |
** Less sensitive (10-50%) in young children (<4 years), with much lower negative predictive power |
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** False positives are rare but can happen with rheumatoid disease, SLE, leukemia, lymphoma, and other infections including [[malaria]], [[HIV]], [[CMV]], [[rubella]], [[viral hepatitis]] and [[tularemia]], and after |
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** False positive with acute HIV seroconversion |
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administration of [[anti-thymocyte globulin]] |
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=== Serology === |
=== Serology === |
Revision as of 22:01, 27 November 2019
Background
Microbiology
- A gamma-1 herpesvirus
- Double-stranded DNA inside an icosahedral protein nucleocapsid surrounded by a lipid envelope with glycoproteins
- Two strains (type 1 and 2) are serologically identical, but have unique epitopes
- Infection can remain quiescent in B cells for life
Epidemiology
- Acquired via oral secretions, e.g. by kissing or sharing of food
- Seroprevalence about 90-95% in adults, with about half of 5 year-olds already being seropositive
- Acquired earlier in low-income countries
- Highest morbidity is with young adults who develop infectious mononucleosis during primary disease
- Includes barracks and universities
Pathophysiology
- Acquired through mucous membrane contact of oral secretions
- Immune response primarily with cytotoxic T cells and NK cells
- Atypical lymphocytosis develops from CD8 cells
- Early response is against lytic antigens (including VCA and EA), and later response against latent proteins (EBNA1, EBNA2, EBNA3, and EBNALP)
- Response also creates IgM antibodies to sheep, horse, and cow RBCs, called heterophile antibodies
Clinical Presentation
Childhood
- In childhood, mostly asymptomatic or mild febrile illness
- May develop rashes, neutropenia, or pneumonia
- Can cause lymphadenopathy
- Heterophile antibody may be negative if young; about 80% are positive by 4 years, though
Infectious mononucleosis
- Caused by primary infection, typically in an adolescent or young adult
- EBV causes about 80% of mononucleosis, with the rest being CMV
- Incubation period 30 to 50 days, and can have asymptomatic viral shedding for up to a month before symptoms
- Symptoms include a triad of sore throat, fever, and lymphadenopathy (classically posterior cervical chain)
- Often preceded by prodromal symptoms of chils, sweats, anorexia, and malaise
- Can also have retro-orbital headaches, myalgias, and abdominal discomfort
- May have a rash which can take any form, and may have palatal petechiae
- Tonsils are sometimes exudative
- Often has splenomegaly, may have hepatomegaly, and rarely has jaundice
- With exposure to amoxicillin, almost all patients develop a diffuse maculopapular rash
- May have transient heterophile antibodies, as well as atypical lymphocytosis
- Resolves over 2 to 3 weeks, with fevers lasting up to 14 days, and fatigue lasting months
Complications
- Linked to a number of malignancies, including Burkitt lymphoma, nasopharyngeal carcinoma, and lymphoproliferative disorders
- Neurologic complications include meningitis, encephalitis, Guillain-BarrΓ© syndromes, optic neuritis, retrobulber neuritis, cranial nerve palsies, mononeuritis multiplex, brachial plexus neuropathy, seizures, subacute sclerosing panencephalitis, transverse, myelitis, psychosis, demyelination, and hemiplegia
Chronic infection
- Classically in Japan and east Asia, possibly South America
- Progressive disease related to infection of NK cells rather than B cells
Oral hairy leukoplakia
EBV-associated malignancies
Disease | EBV | Risk factors |
---|---|---|
Lymphoproliferative disease | 90% | Transplantation patients and immunosuppression |
Primary CNS lymphoma | 100% | HIV with low CD4 and immunosuppression |
Hodgkin lymphoma | 50% | Children and young adults |
Nasopharyngeal carcinoma | 100% | Southern Chinese, Inuit |
Gastric cancer | 4 to 100% | Unknown |
Endemic Burkitt lymphoma | 95% | African children |
Sporadic Burkitt lymphoma | 20% | HIV independent of CD4 |
Diagnosis
Point-of-care testing
- Monospot latex agglutination looking for heterophile antibodies
- 80-95% sensitive and 98-100% specific, overall
- Less sensitive (10-50%) in young children (<4 years), with much lower negative predictive power
- False positives are rare but can happen with rheumatoid disease, SLE, leukemia, lymphoma, and other infections including malaria, HIV, CMV, rubella, viral hepatitis and tularemia, and after
administration of anti-thymocyte globulin
Serology
- Anti-VCA (viral capsid antigens): most useful
- Anti-VCA IgM: appears by presentation and disappears within 4 to 6 weeks; most useful with acute and convalescent
- Anti-VCA IgG: appears in acute phase, peaks at 2 to 4 weeks, then declines but remains positive for life
- Anti-EA (early antigen) IgG: appears in acute phase and falls to undetectable within 3 to 6 months (but may persist for years)
- Least useful test
- Anti-EBNA (EBV nuclear antigen): negative during acute phase converts after 2 to 4 months and stays positive for life
Immunocompetent hosts
VCA-IgM | VCA-IgG | EBNA-IgG | Interpretation |
---|---|---|---|
β | β | β | Susceptible |
+ | Past infection or non-specific | ||
+ | β | Acute or past infection | |
+ | Past infection | ||
+ | β | β | Acute infection or non-specific |
+ | Uninterpretable | ||
+ | β | Acute infection | |
+ | Late primary infection or reactivation |
EBV-associated diseases
Disease | VCA-IgM | VCA-IgG | VCA-IgA | EA(D)-IgG | EA(R)-IgG | EA-IgA | EBNA-IgG |
---|---|---|---|---|---|---|---|
Chronic active infection | Β± | ++ | Β± | + | ++ | β | Β± |
Burkitt lymphoma | β | ++ | β | Β± | ++ | β | + |
ENT carcinoma | β | ++ | + | ++ | Β± | + | + |
Hodgkin lymphoma | β | ++ | β | + | β | β | + |
Reactivation | Β± | ++ | Β± | + | Β± | Β± | Β± |
PCR
- Useful for diagnosis of:
- Rare, chronic infection
- Early post-transplant lymphoproliferative disease
- Nasopharyngeal cancer
- As well as monitoring response to treatment
References
- ^ Massimo De Paschale. Serological diagnosis of Epstein-Barr virus infection: Problems and solutions. World Journal of Virology. 2012;1(1):31. doi:10.5501/wjv.v1.i1.31.