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Revision as of 16:01, 5 April 2012

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

Overview

Cholera is an infection of the small intestine caused by the bacterium Vibrio cholerae. The main symptoms are profuse, watery diarrhea and vomiting. Transmission occurs primarily by drinking water or eating food that has been contaminated by the feces of an infected person, including one with no apparent symptoms. The severity of the diarrhea and vomiting can lead to rapid dehydration and electrolyte imbalance, and death in some cases. The primary treatment is oral rehydration therapy, typically with oral rehydration solution (ORS), to replace water and electrolytes. If this is not tolerated or does not provide improvement fast enough, intravenous fluids can also be used. Antibacterial drugs are beneficial in those with severe disease to shorten its duration and severity. Worldwide, it affects 3–5 million people and causes 100,000–130,000 deaths a year as of 2010^[update]. Cholera was one of the earliest infections to be studied by epidemiological methods.

Historical perspective

The cholera bacterium had been originally isolated in 1855 by Italian anatomist Filippo Pacini, but its exact nature and his results were not widely known. One of the major contributions to fighting cholera was made by the physician and pioneer medical scientist John Snow (1813–1858), who in 1854 found a link between cholera and contaminated drinking water.^[1] Dr. Snow proposed a microbial origin for epidemic cholera in 1849.

Pathophysiology

Most of the V. cholerae bacteria do not survive the very acidic conditions of the human stomach^[2]. The few bacteria that manage to survive the stomach's acidity conserve their energy and stored nutrients during passage through the stomach by shutting down much protein production and restart production in the favorable small intestine's environment. The toxins that interact with host cell mechanisms pump chloride ions into the small intestine, creating an ionic pressure which prevents sodium ions from entering the cell. The chloride and sodium ions create a salt water environment in the small intestines which through osmosis can pull up to six liters of water per day through the intestinal cells creating the massive amounts of diarrhea. The host can become rapidly dehydrated if an appropriate mixture of dilute salt water and sugar is not taken to replace the blood's water and salts lost in the diarrhea.

Epidemiology and demographics

Cholera affects an estimated 3-5 million people worldwide, and causes 100,000-130,000 deaths a year as of 2010. This occurs mainly in the developing world.^[3] In the early 1980s, death rates are believed to have been greater than 3 million a year. It is difficult to calculate exact numbers of cases, as many go unreported due to concerns that an outbreak may have a negative impact on the tourism of a country.^[4] Cholera remains both epidemic and endemic in many areas of the world. Although much is known about the mechanisms behind the spread of cholera, this has not led to a full understanding of what makes cholera outbreaks happen some places and not others. Lack of treatment of human feces and lack of treatment of drinking water greatly facilitate its spread, but bodies of water can serve as a reservoir, and seafood shipped long distances can spread the disease. Cholera was not known in the Americas for most of the 20th century, but it reappeared towards the end of that century and seems likely to persist.^[5]

Causes

Cholera is a severe diarrheal disease caused by the gram negative bacterium Vibrio cholerae.^[6]. Transmission to humans is by ingesting contaminated water or food. The major reservoir for cholera was long assumed to be humans, but some evidence suggests that it is the aquatic environment.

History and symptoms

Patient may give a history of consumption of contaminated food or water, and travel to an endemic area. The symptoms usually develop within 24-48 hour of consumption of contaminated food. Patient presents with sudden onset, painless, odorless, rice watery large volume stool, abdominal cramps, vomiting and fever. If the severe diarrhea and vomiting are not aggressively treated, they can, within hours, result in life-threatening dehydration and electrolyte imbalances. The typical symptoms of dehydration include dizziness ( due to low blood pressure), wrinkled hands (poor skin turgor) , sunken eyes, mucle cramps (decreased potassium), and decreased urine output.

Physical examination

The signs on physical examination depends on the level of dehydration and patient may present with tachycardia, postural hypotension, somnolence, dry mucous membrane, sunken eyes,oliguria. If the severe diarrhea and vomiting are not aggressively treated, they can, within hours, result in life-threatening dehydration and electrolyte imbalances. The typical symptoms of dehydration include dizziness ( due to low blood pressure), wrinkled hands (poor skin turgor) , sunken eyes, muscle cramps (decreased potassium), and decreased urine output.

Lab tests

Lab tests are not mandatory for diagnosis and treatment of cholera. In endemic areas when suspected, treatment should be started as early as possible with fluid replacement and antibiotics. In areas where cholera is uncommon, performing lab tests are worthwhile.Tests used for identification of organisms are: Direct microscopic examination of organism, dark field examination, gram staining, culture, antigen, polymerase chain reaction and serotype tests

References

↑ Rosenberg, Charles E. (1987). The cholera years: the United States in 1832, 1849 and 1866. Chicago: University of Chicago Press. ISBN 0-226-72677-0.
↑ Hartwell LH, Hood L, Goldberg ML, Reynolds AE, Silver LM, and Veres RC (2004). Genetics: From Genes to Genomes. Mc-Graw Hill, Boston: p. 551-552, 572-574 (using the turning off and turning on of gene expression to make toxin proteins in cholera bacteria as a "comprehensive example" of what is known about the mechanisms by which bacteria change the mix of proteins they manufacture to respond to the changing opportunities for surviving and thriving in different chemical environments).
↑ Reidl J, Klose KE (2002). "Vibrio cholerae and cholera: out of the water and into the host". FEMS Microbiol. Rev. 26 (2): 125–39. doi:10.1111/j.1574-6976.2002.tb00605.x. PMID 12069878. Unknown parameter |month= ignored (help)
↑ Sack DA, Sack RB, Chaignat CL (2006). "Getting serious about cholera". N. Engl. J. Med. 355 (7): 649–51. doi:10.1056/NEJMp068144. PMID 16914700. Unknown parameter |month= ignored (help)
↑ Blake, PA (1993). "Epidemiology of cholera in the Americas". Gastroenterology clinics of North America. 22 (3): 639–60. PMID 7691740.
↑ Ryan KJ, Ray CG (editors) (2004). Sherris Medical Microbiology (4th ed. ed.). McGraw Hill. pp. 376&ndash, 7. ISBN 0838585299.

External links

Template:WikiDoc Sources

[Rosenberg-1] Rosenberg, Charles E. (1987). The cholera years: the United States in 1832, 1849 and 1866. Chicago: University of Chicago Press. ISBN 0-226-72677-0.

[Hartwell-2] Hartwell LH, Hood L, Goldberg ML, Reynolds AE, Silver LM, and Veres RC (2004). Genetics: From Genes to Genomes. Mc-Graw Hill, Boston: p. 551-552, 572-574 (using the turning off and turning on of gene expression to make toxin proteins in cholera bacteria as a "comprehensive example" of what is known about the mechanisms by which bacteria change the mix of proteins they manufacture to respond to the changing opportunities for surviving and thriving in different chemical environments).

[3] Reidl J, Klose KE (2002). "Vibrio cholerae and cholera: out of the water and into the host". FEMS Microbiol. Rev. 26 (2): 125–39. doi:10.1111/j.1574-6976.2002.tb00605.x. PMID 12069878. Unknown parameter |month= ignored (help)

[NEJM2006-4] Sack DA, Sack RB, Chaignat CL (2006). "Getting serious about cholera". N. Engl. J. Med. 355 (7): 649–51. doi:10.1056/NEJMp068144. PMID 16914700. Unknown parameter |month= ignored (help)

[5] Blake, PA (1993). "Epidemiology of cholera in the Americas". Gastroenterology clinics of North America. 22 (3): 639–60. PMID 7691740.

[Sherris-6] Ryan KJ, Ray CG (editors) (2004). Sherris Medical Microbiology (4th ed. ed.). McGraw Hill. pp. 376&ndash, 7. ISBN 0838585299.

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 ==Overview==
 '''Cholera''' is an [[infection]] of the [[small intestine]] caused by the bacterium ''[[Vibrio cholerae]]''. The main symptoms are profuse, watery [[diarrhea]] and [[vomiting]]. Transmission occurs primarily by drinking water or eating food that has been contaminated by the [[feces]] of an infected person, including one with no apparent symptoms. The severity of the diarrhea and vomiting can lead to rapid [[dehydration]] and [[electrolyte]] imbalance, and death in some cases.  The primary treatment is [[oral rehydration therapy]], typically with [[oral rehydration solution|oral rehydration solution (ORS)]], to replace water and electrolytes. If this is not tolerated or does not provide improvement fast enough, [[intravenous]] fluids can also be used. [[Antibacterial]] drugs are beneficial in those with severe disease to shorten its duration and severity.  Worldwide, it affects 3–5 million people and causes 100,000–130,000 deaths a year {{As of|2010|lc=on}}. Cholera was one of the earliest infections to be studied by [[epidemiology|epidemiological]] methods.
+==Historical perspective==
+The cholera bacterium had been originally isolated in 1855 by Italian anatomist [[Filippo Pacini]], but its exact nature and his results were not widely known. One of the major contributions to fighting cholera was made by the physician and pioneer medical scientist [[John Snow (physician)|John Snow]] (1813–1858), who in 1854 found a link between cholera and contaminated drinking water.<ref name="Rosenberg">{{cite book |author=Rosenberg, Charles E. |title=The cholera years: the United States in 1832, 1849 and 1866 |publisher=University of Chicago Press |location=Chicago |year=1987 |pages= |isbn=0-226-72677-0}}</ref> Dr. Snow proposed a microbial origin for epidemic cholera in 1849.
 ==Pathophysiology==