Rotavirus: Difference between revisions

Jump to navigation Jump to search
VisualWikitext
m (Robot: Automated text replacement (-{{SIB}} +, -{{EH}} +, -{{EJ}} +, -{{Editor Help}} +, -{{Editor Join}} +))
No edit summary
 
(14 intermediate revisions by 4 users not shown)
Line 1: Line 1:
{{Taxobox  
{{Taxobox  
| name = Rotavirus
| name = Rotavirus
| status =
| status_ref =
| image = rotavirus.jpg
| image = rotavirus.jpg
| image_width = 180px
| image_width = 180px
| image_caption = Electron micrograph of Rotaviruses. The bar = 100 nm
| image_caption = Electron micrograph of Rotaviruses.
| image2 =
| image2_width =
| image2_caption =
| virus_group = iii
| familia = [[Reoviridae]]
| genus = '''''Rotavirus'''''
| species = '''''A, B, C, D, E, F & G'''''
| baltimore Group = III
| binomial_authority =
| range_map_width =
| range_map_caption =
}}  
}}  
{{DiseaseDisorder infobox|right |
__NOTOC__
Name          = Rotaviral Gastroenteritis |
{{Rotavirus infection}}
ICD10          = {{ICD10|A|08|0|a|00}}|
{{About0|Rotavirus infection}}
ICD9          = {{ICD9|008.61}} |
ICDO          = |
Image          = Rotavirus infected gut.jpg|
Caption        = Electron micrograph of a rotavirus infected enterocyte (top) compared to an uninfected cell (bottom). The bar = approx. 500 nm|
OMIM          = |
MedlinePlus    = 000252 |
eMedicineSubj  = emerg |
eMedicineTopic = 401 |
eMedicine_mult = |
DiseasesDB    = 11667 |
MeshID        = D012401|
}}
{{SI}}
{{CMG}}
{{CMG}}


==Overview==


[[Image:Flewett Rotavirus.jpg|left|thumb|One of Flewett's original electron micrographs]]
[[Image:Rotavirus Reconstruction.jpg|left|thumb|Computer reconstruction of a rotavirus particle]]
==Overview==
'''Rotaviruses''' are a genus of [[virus]]es belonging to the [[Reoviridae]] family. Seven major groups have been identified, three of which (groups A, B, and C) infect humans, with group A being the most common and widespread one. They cause [[vomit]]ing and [[diarrhea]] and are the most common cause of severe diarrhea in children, killing about 600,000 children every year in developing countries (as of 2005). New [[vaccine]]s have been shown to be safe and effective in 2006 [http://www.newscientist.com/article.ns?id=dn8539].
'''Rotaviruses''' are a genus of [[virus]]es belonging to the [[Reoviridae]] family. Seven major groups have been identified, three of which (groups A, B, and C) infect humans, with group A being the most common and widespread one. They cause [[vomit]]ing and [[diarrhea]] and are the most common cause of severe diarrhea in children, killing about 600,000 children every year in developing countries (as of 2005). New [[vaccine]]s have been shown to be safe and effective in 2006 [http://www.newscientist.com/article.ns?id=dn8539].


==Microbiology==
==Microbiology==
{| style="float: right;"
| [[Image:Flewett Rotavirus.jpg|left|thumb|200px|One of Flewett's original electron micrographs]]
|-
| [[Image:Rotavirus Reconstruction.jpg|left|thumb|200px|Computer reconstruction of a rotavirus particle]]
|-
| [[Image:Multiple rotavirus particles.jpg|left|thumb|200px|Rotavirus A from the [[faeces]] of an infected child]]
|}
===Structure===
===Structure===


Line 59: Line 38:
The DLPs can migrate to the endoplasmic reticulum where they obtain their third, outer layer (formed by VP7 and VP4).
The DLPs can migrate to the endoplasmic reticulum where they obtain their third, outer layer (formed by VP7 and VP4).


== Nature of acute disease ==
== Transmission and associated foods==
Rotaviruses cause [[acute gastroenteritis]]. "Infantile diarrhea", "winter diarrhea", "stomach flu", "acute nonbacterial infectious gastroenteritis", and "acute viral gastroenteritis" are other names applied to this disease.
 
Rotavirus gastroenteritis is a self-limiting, mild to severe disease characterized by [[vomiting]], watery [[diarrhea]], and low-grade [[fever]]. The infective dose is presumed to be 10-100 infectious viral particles. Because a person with rotavirus diarrhea often excretes large numbers of virus (10<sup>8</sup>-10<sup>10</sup> infectious particles/ml of feces), infection doses can be readily acquired through contaminated hands, objects, or utensils. Asymptomatic rotavirus excretion has been well documented and may play a role in perpetuating endemic disease.
 
The virus infects [[enterocyte]]s of the [[villus|villi]] of the [[small intestine]], leading to structural changes of the [[epithelium]] and diarrhea.
 
The incubation period ranges from 1-3 days. Symptoms often start with vomiting followed by 4-8 days of diarrhea. Temporary [[lactose intolerance]] may occur. Recovery is usually complete. However, severe diarrhea without fluid and electrolyte replacement may result in death. Childhood mortality caused by rotavirus is relatively low in the U.S., with an estimated 100 cases/year, but reaches over 500,000 cases/year worldwide (as of 2005). Association with other enteric pathogens may play a role in the severity of the disease.
 
Clinically, the most severe disease occurs in children under two years of age (Mandell, Bennett & Dolin: Principles and Practice of Infectious Diseases, 6th ed.)
 
== Target populations and frequency ==
 
Humans of all ages are susceptible to rotavirus infection. Children 6 months to 2 years of age, premature infants, the elderly, and the immunocompromised are particularly susceptible to more severe symptoms caused by infection with group A rotavirus.
 
Group A rotavirus is endemic worldwide. It is the leading cause of severe diarrhea among infants and children, being responsible for about 20% of cases, and accounts for about half of the cases requiring hospitalization. Almost every child has been infected with rotavirus by age 5. Over 3 million cases of rotavirus gastroenteritis occur annually in the U.S. In temperate areas, it occurs primarily in the winter, but in the tropics it occurs throughout the year. The number attributable to food contamination is unknown.
 
Group B rotavirus, also called adult diarrhea rotavirus or ADRV, has caused major epidemics of severe diarrhea affecting thousands of persons of all ages in China. In a group B epidemic in China in 1982, more than a million people were affected. Group B rotavirus has also been identified after the Chinese epidemics from Calcutta, India in 1998 and this strain was named CAL. Unlike ADRV, the CAL strain is endemic and does not cause known epidemics.
 
Group C rotavirus has been associated with rare and sporadic cases of diarrhea in children in many countries. However, the first outbreaks were reported from Japan and England.
 
About 120 million rotavirus infections occur every year, causing the death of 600,000 to 650,000 children.
 
== Diagnosis of human illness ==
Specific diagnosis of the disease is made by identification of the virus in the patient's stool. [[Enzyme immunoassay]] (EIA) is the test most widely used to screen clinical specimens, and several commercial kits are available for group A rotavirus. [[Electron microscopy]] and [[polyacrylamide gel electrophoresis]] are used in some laboratories in addition or as an alternative to EIA. A reverse transcription-polymerase chain reaction ([[RT-PCR]]) has been developed to detect and identify all three groups of human rotaviruses.


== Transmission and associated foods==
[[Image:Multiple rotavirus particles.jpg|left|thumb|Rotavirus A from the [[faeces]] of an infected child]]
Rotaviruses are transmitted by the fecal-oral route. Person-to-person spread through contaminated hands is probably the most important means by which rotaviruses are transmitted in close communities such as pediatric and geriatric wards, day care centers and family homes.  
Rotaviruses are transmitted by the fecal-oral route. Person-to-person spread through contaminated hands is probably the most important means by which rotaviruses are transmitted in close communities such as pediatric and geriatric wards, day care centers and family homes.  


Line 92: Line 45:


The virus has not been isolated from any food associated with an outbreak, and no satisfactory method is available for routine analysis of food. However, it should be possible to apply procedures that have been used to detect the virus in water and in clinical specimens, of which reverse transcription (RT)-PCR amplification is the most sensitive method to food analysis.
The virus has not been isolated from any food associated with an outbreak, and no satisfactory method is available for routine analysis of food. However, it should be possible to apply procedures that have been used to detect the virus in water and in clinical specimens, of which reverse transcription (RT)-PCR amplification is the most sensitive method to food analysis.
== Vaccines ==
In 2006, two vaccines against Rotavirus infection were shown to be safe and effective in children: Rotarix by [[GlaxoSmithKline]] and RotaTeq by [[Merck & Co., Inc.|Merck]]. Both are taken orally and contain disabled live virus. In February 2006, the [[U.S. Food and Drug Administration]] approved RotaTeq for use in the United States. Merck announced a price of $187.50 for the standard three-dose regimen; this is much more expensive than other standard childhood immunizations and, even allowing for discounts, will probably prevent widespread use of the vaccine in poor countries.  However, Merck is selling vaccines at dramatically lower prices in developing world countries and is working with a range of partners including the Rotavirus Vaccine Project, PATH and other governmental and non-governmental organizations to develop and implement mechanisms for providing access to this vaccine in the developing world.
An earlier vaccine, Rotashield by Wyeth-Ayerst, had to be taken off the market in the late 1990s after it was discovered in rare cases to be linked to a severe complication called [[Intussusception (medical disorder)|intussusception]]. This event was so rare that widespread adoption of Rotashield in developing countries would nevertheless have saved millions of lives, but use of a vaccine deemed unsafe in the U.S. was seen as unacceptable.
== Selected outbreaks ==
[[Image:Rotavirus seasonal distribution.png|left|thumb|The seasonal variation of rotavirus A infections in a region of England: rates of infection peak during the winter months.]]
Literature references can be found at the links below.
{| class = "prettytable" style = "float:right; font-size:85%; margin-left:15px; width:50%; text-align:center"
|+ Children dead before age 5 due to rotavirus A
! Country !! Rate or range !! Published  !! Source 
|-
! Vietnam
| 1 in 61 to 1 in 113 || 2006 ||<ref name="pmid16395100">{{cite journal
|author=Anh DD, Thiem VD, Fischer TK, Canh DG, Minh TT, Tho le H, Van Man N, Luan le T, Kilgore P, von Seidlein L, Glass RI
|title=The burden of rotavirus diarrhea in Khanh Hoa Province, Vietnam: baseline assessment for a rotavirus vaccine trial
|journal=Pediatr. Infect. Dis. J.
|volume=25
|issue=1
|pages=37–40
|year=2006
|pmid=16395100
}}</ref>
|-
! Bangladesh
| 1 in 390 to 1 in 660 ||2007||<ref name="pmid17984808">{{cite journal
|author=Tanaka G, Faruque AS, Luby SP, Malek MA, Glass RI, Parashar UD
|title=Deaths from rotavirus disease in Bangladeshi children: estimates from hospital-based surveillance
|journal=Pediatr. Infect. Dis. J.
|volume=26
|issue=11
|pages=1014–8
|year=2007
|pmid=17984808
|doi=10.1097/INF.0b013e318125721c
}}</ref>
|-
! Venezuela
| 1 in 1800 ||2007||<ref name="pmid17468648">{{cite journal
|author=Pérez-Schael I, Salinas B, González R, Salas H, Ludert JE, Escalona M, Alcalá A, Rosas MA, Materán M
|title=Rotavirus mortality confirmed by etiologic identification in Venezuelan children with diarrhea
|journal=Pediatr. Infect. Dis. J.
|volume=26
|issue=5
|pages=393–7
|year=2007
|pmid=17468648
|doi=10.1097/01.inf.0000260252.48129.86
}}</ref>
|-
! European Union
| 1 in 20433 ||2006||<ref name="pmid16397431">{{cite journal
|author=Soriano-Gabarró M, Mrukowicz J, Vesikari T, Verstraeten T
|title=Burden of rotavirus disease in European Union countries
|journal=Pediatr. Infect. Dis. J.
|volume=25
|issue=1 Suppl
|pages=S7–S11
|year=2006
|pmid=16397431
}}</ref>
|-
! United States
|1 in 21675||2007||<ref name="pmid17357047"/>
|}
Outbreaks of group A rotavirus diarrhea are common among hospitalized infants, young children attending day care centers, and elderly persons in nursing homes. Among adults, multiple foods served in banquets were implicated in 2 outbreaks. An outbreak due to contaminated municipal water occurred in Colorado, 1981.
Several large outbreaks of group B rotavirus involving millions of persons as a result of sewage contamination of drinking water supplies have occurred in China since 1982. Although to date outbreaks caused by group B rotavirus have been confined to mainland China, seroepidemiological surveys have indicated lack of immunity to this group of virus in the U.S. Recent studies led to the identification of group B rotavirus occurring at a sporadic frequency in Calcutta, India and subsequently from other Asian countries as well. Thus, group B rotavirus infection may be more common than presumed earlier, but studies on this pathogen are very limited. Group B rotaviruses are difficult to isolate and cannot be easily adapted to cell culture, a property that precludes their detailed analysis.
The newly recognized group C rotavirus has been implicated in rare and isolated cases of gastroenteritis. However, it was associated with three outbreaks among school children: one in Japan, 1989, and two in England, 1990.
During 2005 the largest recorded outbreak in Nicaragua occurred. This unusual large and severe outbreak was probably due to a mutation in the rotavirus A genome, possibly helping the virus evade the prevalent immunity in the population which had no protection against this type.
For more information on recent outbreaks see the [http://www.cdc.gov/mmwr/ CDC Morbidity and Mortality Weekly Reports].
==Complications==
Repeated rotavirus infections may increase the risk of [[celiac]] disease in genetically susceptible children. A case-control study of infants with a genetic predisposition for celiac disease observed that the risk of developing the disease increased twofold in children who were infected with rotavirus once and almost fourfold for those who were infected with it multiple times (American Journal of Gastroenterology, October 2006.)


== Sources ==
== Sources ==
Line 177: Line 50:
* [http://www.newscientist.com/article.ns?id=dn8539 New vaccines for diarrhoea virus shown effective], New Scientist, 5 January 2006
* [http://www.newscientist.com/article.ns?id=dn8539 New vaccines for diarrhoea virus shown effective], New Scientist, 5 January 2006
* [http://www.nature.com/news/2006/060102/full/060102-7.html Diarrhoea vaccines prove their mettle], news@nature.com, 5 January 2006
* [http://www.nature.com/news/2006/060102/full/060102-7.html Diarrhoea vaccines prove their mettle], news@nature.com, 5 January 2006
**


== See also ==
== See also ==
Line 189: Line 61:
* [http://rotavirusvaccine.org PATH's Rotavirus Vaccine Program]
* [http://rotavirusvaccine.org PATH's Rotavirus Vaccine Program]
* [http://www.path.org/vaccineresources/rotavirus Rotavirus disease and vaccine resources]
* [http://www.path.org/vaccineresources/rotavirus Rotavirus disease and vaccine resources]
<br>


[[Category:Viral diseases]]
[[Category:Viral diseases]]
[[Category:Viruses]]
[[Category:Viruses]]


[[ar:فيروس الروتا]]
==References==
[[ca:Rotavirus]]
{{reflist|2}}
[[de:Rotaviren]]
[[es:Rotavirus]]
[[fr:Rotavirus]]
[[it:Rotavirus]]
[[lt:Rotavirusinė infekcija]]
[[nl:Rotavirus]]
[[ja:ロタウイルス]]
[[pl:Rotawirusy]]
[[pt:Rotavirus]]
[[fi:Rotavirus]]
[[zh:輪狀病毒]]
 
{{WH}}
{{WS}}

Latest revision as of 14:01, 3 December 2015

style="background:#Template:Taxobox colour;"|Rotavirus
Electron micrograph of Rotaviruses.
Electron micrograph of Rotaviruses.
style="background:#Template:Taxobox colour;" | Scientific classification

Rotavirus infection Microchapters

Home

Patient Information

Overview

Historical Perspective

Classification

Pathophysiology

Causes

Differentiating Rotavirus infection from other Diseases

Epidemiology and Demographics

Risk Factors

Screening

Natural History, Complications and Prognosis

Diagnosis

History and Symptoms

Physical Examination

Laboratory Findings

Xray

CT scan

MRI

Ultrasound

Other Imaging Findings

Other Diagnostic Studies

Treatment

Medical Therapy

Surgery

Primary Prevention

Secondary Prevention

Future or Investigational Therapies

Case Studies

Case #1

Rotavirus On the Web

Most recent articles

Most cited articles

Review articles

CME Programs

Powerpoint slides

Images

American Roentgen Ray Society Images of Rotavirus

All Images
X-rays
Echo & Ultrasound
CT Images
MRI

Ongoing Trials at Clinical Trials.gov

US National Guidelines Clearinghouse

NICE Guidance

FDA on Rotavirus

CDC on Rotavirus

Rotavirus in the news

Blogs on Rotavirus

Directions to Hospitals Treating Rotavirus infection

Risk calculators and risk factors for Rotavirus

This page is about microbiologic aspects of the organism(s).  For clinical aspects of the disease, see Rotavirus infection.

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Rotaviruses are a genus of viruses belonging to the Reoviridae family. Seven major groups have been identified, three of which (groups A, B, and C) infect humans, with group A being the most common and widespread one. They cause vomiting and diarrhea and are the most common cause of severe diarrhea in children, killing about 600,000 children every year in developing countries (as of 2005). New vaccines have been shown to be safe and effective in 2006 [2].

Microbiology

One of Flewett's original electron micrographs
Computer reconstruction of a rotavirus particle
Rotavirus A from the faeces of an infected child

Structure

Rotaviruses have a genome consisting of 11 double-stranded RNA segments surrounded by a distinctive three-layered icosahedral protein capsid. The first layer is formed by the protein VP2, with each vertex having a copy of the proteins VP1 and VP3. The second layer is formed by the protein VP6. The outermost protein layer is composed of the structural glycoprotein VP7 and the spike protein VP4. Viral particles are up to 70nm in diameter and have a buoyant density of 1.36 g/ml in CsCl. By negative staining electron microscopy they resemble 'wheels' from which they derive their name (rota is Latin for wheel).

Cell Infection

Rotaviruses tend to affect gastrointestinal epithelial cells that are at the tip of the villus. Their triple protein coats make them very resistant to the normally prohibitive pH of the stomach, and also digestive enzymes (lipases and proteases) in the gastrointestinal tract.

When they infect a cell, they are ingested by the cell in endocytosis in a vesicle known as an endosome. Proteins in the third layer (VP7 and the VP4 spike) disrupt the membrane of the endosome, creating a difference in the Ca2+ concentration. This facilitates the breakdown of VP7 trimers into single protein subunits, leaving the VP2 and VP6 coats around the viral dsRNA, forming a double-layer particle (DLP).

While the eleven dsRNA strands are still within the protection of the two protein shells, RNA-dependent RNA polymerase creates viral mRNA transcripts of the double-stranded viral genome. This is more easily done within the environment in the "core" of the virus than in the host cell's aqueous environment, which significantly slows down the detachment of the two RNA strands to begin mRNA synthesis. Encapsidation of the viral RNA may also serve to evade host immune responses that are triggered by the presence of double-stranded RNA.

During the infection, rotavirus produces mRNA to support both protein translation and genome replication. Most of the rotavirus proteins accumulate in structures known as viroplasms, where the RNA is replicated and the DLPs are assembled. Viroplasms are electron-dense, perinuclear, punctate structures found as early as 2 hours after virus infection. Viroplasms are viral factories and are thought to be formed by two viral non-structural proteins, NSP5 and NSP2. Expression of certain forms of NSP5, especially one that is tagged at the NH2-terminus, results in the formation of viroplasms. Inhibition of NSP5 using intrabodies or RNA interference results in a profound decrease in rotavirus replication. The DLPs can migrate to the endoplasmic reticulum where they obtain their third, outer layer (formed by VP7 and VP4).

Transmission and associated foods

Rotaviruses are transmitted by the fecal-oral route. Person-to-person spread through contaminated hands is probably the most important means by which rotaviruses are transmitted in close communities such as pediatric and geriatric wards, day care centers and family homes.

Infected food handlers may contaminate foods that require handling and no further cooking, such as salads, fruits, and hors d'oeuvres. Rotaviruses are quite stable in the environment and have been found in estuary samples at levels as high as 1-5 infectious particles/gal. Sanitary measures adequate for bacteria and parasites seem to be ineffective in endemic control of rotavirus, as similar incidence of rotavirus infection is observed in countries with both high and low health standards.

The virus has not been isolated from any food associated with an outbreak, and no satisfactory method is available for routine analysis of food. However, it should be possible to apply procedures that have been used to detect the virus in water and in clinical specimens, of which reverse transcription (RT)-PCR amplification is the most sensitive method to food analysis.

Sources

See also

External links

References

Retrieved from "https://www.wikidoc.org/index.php?title=Rotavirus&oldid=1192011"