Cholera - Symptoms, Diagnosis, Treatments, Cure & Causes

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Cholera-From Wikipedia, the free encyclopedia

Cholera ICD10 = A00.

Classification & external resources

Vibrio cholerae: The bacterium that causes cholera (SEM image)

ICD-9 001

DiseasesDB 2546

MedlinePlus 000303

eMedicine med/351 ped/382

MeSH C01.252.400.959.347

Cholera (frequently called Asiatic cholera or epidemic cholera) is a severe diarrheal disease caused by the bacterium Vibrio cholerae.[1] Transmission to humans is by eating or drinking contaminated water or food containing Vibrio cholerae germs. Since one of the symptoms of a cholera infection is massive diarrhea of up to 20 liters of liquid excrement loaded with more Vibrio cholerae germs the disease can be highly contagious if any of these highly liquid feces is allowed to get into the water supply. The germs trick the body into secreting massive amounts of liquid from the body. The germs that cause the infection are invisible without a high powered microscope and a trained user. The natural reservoir of the Vibrio cholerae germ is believed to be the Ganges delta in Bengal (now Bangladesh), where it had been endemic for centuries. [2] The major reservoir for cholera was long assumed to be humans, but some evidence suggests that it is the aquatic environment.

V. cholerae produces cholera toxin, the model for enterotoxins, whose action on the mucosal epithelium lining of the small intestine is responsible for the characteristic massive diarrhea of the disease.[1] In its extreme manifestation, cholera is one of the most rapidly fatal illnesses known. A healthy person may become hypotensive within an hour of the onset of symptoms and may die within 2-3 hours if no treatment is provided. More commonly, the disease progresses from the first liquid stool to shock in 4-12 hours, with death following in 18 hours to several days without rehydration treatment. [3] [4] Before the cause of cholera was proved to be bacteria contaminated water supplies by John Snow and Henry Whitehead in 1854-5 cholera killed 100,000's of people around the world and continues to be killer in much of the third world. John Snow and Henry Whitehead were able to show that the death of about 500 people in a few weeks in London was due to a single contaminated well and is the first proven case of the germ theory of disease. As John Snow's and Henry Whitehead's conclusions on the importance of clean water and adequate sewage treatment were gradually accepted around the world massive and expensive water and sewage systems have been constructed nearly everywhere to make city life possible and safe.

Contents

1 Symptoms

2 Treatment

3 Epidemiology

3.1 Prevention

3.2 Susceptibility

3.3 Transmission

3.4 Biochemistry of the V. cholerae bacterium

4 History

4.1 Origin and Spread

4.2 Famous cholera victims

4.3 Research

4.4 Other historical information

5 Trivia

6 References

7 External links

Symptoms

Symptoms include those of general GI tract (stomach) upset, and massive watery diarrhea. Symptoms may also include terrible muscle and stomach cramps, vomiting and fever in early an stage. In a later stage the diarrhea becomes "rice water stool" (almost clear with flecks of white) and ruptured capillaries may turn the skin black and blue with sunken eyes and cheeks with blue lips. Symptoms are caused by massive body fluid loss induced by the enterotoxins that V. cholerae produces. The main enterotoxin, known as cholera toxin, interacts with G proteins and cyclic AMP in the intestinal lining to open ion channels. As ions flow into the intestinal lumen (lining), body fluids (mostly water) flows out of the body due to osmosis leading to massive diarrhea as the fluid is expelled from the body. The body is "tricked" into releasing massive amounts of fluid into the small intestine which shows up in up to 20 liters (or 20% of body weight) of liquid diarrhea in an adult and massive dehydration. Radical dehydration can bring death within a day through collapse of the circulatory system. Cholera can be gruesome and quick with drastic effects on its potential victims.

Treatment

Nurses encouraging this patient to drink large amounts of a Oral Rehydration Solution to counter act the massive dehydration he acquired from cholera.

Courtesy:Centers for Disease Control and PreventionIn general, the patient has to drink or have injected as much fluid as they are losing due to diarrhea (this can be up to 20 L).

Treatment typically consists of aggressive rehydration (restoring the lost body fluids) and replacement of electrolytes with commercial or hand-mixed sugar-salt solutions( 1 tsp salt + 8 tsp sugar in 1 liter of clean/boiled water) or massive injections of liquid given intravenously via an IV in advanced cases. See: Oral rehydration therapy for easily made rehydration solutions and Ceralyte. Without rehydration, the death rate can be as high as (10-50%) due to the serious dehydration that cholera produces.

Tetracycline antibiotics may have a role in reducing the duration and severity of cholera, although drug-resistance is occurring,[5] and their effects on overall mortality are questioned.[6] Other antibiotics that have been used include ciprofloxacin and azithromycin,[7] although again, drug-resistance has now been described.[8]

Without treatment the death rate is as high as 50%; with treatment the death rate can be well below 1%.[9]

Epidemiology

Prevention

Although cholera can be life-threatening, it is nearly always easily prevented, in principal, if proper sanitation practices are followed. In the United States and Western Europe, because of advanced water treatment and sanitation systems, cholera is no longer a major threat. The last major outbreak of cholera in the United States was in 1911. However, everyone, especially travellers, should be aware of how the disease is transmitted and what can be done to prevent it.

Good sanitation practices, if instituted in time, is usually sufficient to stop an epidemic. There are several points along the transmission path at which the spread may be halted:

Sickbed: Proper disposal and treatment of the germ infected fecal waste (and all clothing and bedding that come in contact with it) produced by cholera victims is of primary importance.

Sewage: Treatment of general sewage before it enters the waterways or under ground water supplies prevent possible undetected patients from spreading the disease.

Sources: Warnings about cholera contamination posted around contaminated water sources with directions on how to decontaminate the water.

Sterilization: Boiling, filtering, and chlorination of water kill the bacteria produced by cholera patients and prevent infections, when they do occur, from spreading. All materials (clothing, bedding, etc.) that come in contact with cholera patients should be sterilized in hot water using (if possible) chlorine bleach. Hands, etc. that touch cholera patients or their clothing etc. should be thoroughly cleaned and sterilized. All water used for drinking, washing or cooking should be sterilized by boiling or chlorination in any area where cholera may be present.

Water filtration, chlorination and boiling are by far the most effective means of halting transmission. Cloth filters, though very basic, have greatly reduced the occurrence of cholera when used in poor villages in Bangladesh that rely on untreated surface water.

In general, public health education and good sanitation practices are the limiting factors in preventing transmission.

Susceptibility

Recent epidemiologic research suggests that an individual's susceptibility to cholera (and other diarrheal infections) is affected by their blood type: Those with type O blood are the most susceptible,[10][11] while those with type AB are the most resistant. Between these two extremes are the A and B blood types, with type A being more resistant than type B.[citation needed]

About one million V. cholerae bacteria must typically be ingested to cause cholera in normally healthy adults, although increased susceptibility may be observed in those with a weakened immune system, individuals with decreased gastric acidity (as from the use of antacids), or those who are malnourished.

It has also been hypothesized that the cystic fibrosis genetic mutation has been maintained in humans due to a selective advantage: heterozygous carriers of the mutation (who are thus not affected by cystic fibrosis) are more resistant to V. cholerae infections.[12] In this model, the genetic deficiency in the cystic fibrosis transmembrane conductance regulator channel proteins interferes with bacteria binding to the gastrointestinal epithelium, thus reducing the effects of an infection.

Transmission

Drawing of Death bringing the cholera, in Le Petit Journal.Persons infected with cholera have massive diarrhea. This highly liquid diarrhea, which is often compared to "rice water", is loaded with bacteria that can spread under unsanitary conditions to infect water used by other people. Cholera is transmitted from person to person through ingestion of feces contaminated water loaded with the cholera bacterium. The source of the contamination is typically other cholera patients when their untreated diarrhea discharge is allowed to get into waterways or into groundwater or drinking water supply. Any infected water and any foods washed in the water, and shellfish living in the affected waterway can cause an infection. Cholera is rarely spread directly from person to person.V. cholerae occurs naturally in the plankton of fresh, brackish, and salt water, attached primarily to copepods in the zooplankton. Both toxic and non-toxic strains exist. Non-toxic strains can acquire toxicity through a lysogenic bacteriophage.[13] Coastal cholera outbreaks typically follow zooplankton blooms. This makes cholera a zoonosis.

Biochemistry of the V. cholerae bacterium

Most of the V. cholerae bacteria in the contaminated water that a potential host drinks do not survive the very acidic conditions of the human stomach [14] But the few bacteria that manage to survive the stomach's acidity conserve their energy and stored nutrients during the perilous passage through the stomach by shutting down much protein production. When the surviving bacteria manage to exit the stomach and reach the favorable conditions of the small intestine, they need to propel themselves through the thick mucus that lines the small intestine to get to the intestinal wall where they can thrive. So they start up production of the hollow cylindrical protein flagellin to make flagella, the curly whip-like tails that they rotate to propel themselves through the pasty mucus that lines the small intestine.

Once the cholera bacteria reach the intestinal wall, they do not need the flagella propellers to move themselves any more, so they stop producing the protein flagellin, thus again conserving energy and nutrients by changing the mix of proteins that they manufacture, responding to the changed chemical surroundings. And on reaching the intestinal wall, they start producing the toxic proteins that give the infected person a watery diarrhea which carries the multiplying and thriving new generations of V. cholerae bacteria out into the drinking water of the next host—if proper sanitation measures are not in place.

Cholera Toxin. The delivery region (blue) binds membrane carbohydrates to get into cells. The toxic part (red) is activated inside the cell (PDB code: 1xtc)Microbiologists have studied the genetic mechanisms by which the V. cholerae bacteria turn off the production of some proteins and turn on the production of other proteins as they respond to the series of chemical environments they encounter, passing through the stomach, through the mucous layer of the small intestine, and on to the intestinal wall.[15] Of particular interest have been the genetic mechanisms by which cholera bacteria turn on the protein production of the toxins that pull chloride ions and accompanying water from the host's blood supply into the small intestine to create the sickening 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.

By inserting separately successive sections of V. cholerae DNA into the DNA of other bacteria such as E. coli that would not naturally produce the protein toxins, researchers could find out the separate pieces of the mechanisms by which V. cholerae respond to the changing chemical environments of the stomach, mucous layers, and intestinal wall. Researchers discovered that there is a complex cascade of regulatory proteins that control expression of V. cholerae virulence determinants. In responding to the chemical environment at the intestinal wall, the V. cholerae bacteria produce the TcpP/TcpH proteins which, together with the ToxR/ToxS proteins, activate the expression of the ToxT regulatory protein. ToxT then directly activates expression of virulence genes that produce the toxins that cause diarrhea in the infected person and that permit the bacteria to colonize the intestine.[15]Current research aims at discovering "the signal that makes the cholera bacteria stop swimming and start to colonize (that is, adhere to the cells of) the small intestine."[14]

History

Origin and Spread

Cholera was originally endemic to the Indian subcontinent, with the Ganges River likely serving as a contamination reservoir. It spread by trade routes (land and sea) to Russia, then to Western Europe, and from Europe to North America. It is now no longer considered an issue in Europe and North America, due to filtering and chlorination of the water supply.

1816-1826 - First Cholera pandemic: Previously restricted, the pandemic began in Bengal, then spread across India by 1820. It extended as far as China and the Caspian Sea before receding.

1829-1851 - Second Cholera pandemic reached Europe, London and Paris in 1832. In London, it claimed 6,536 victims; in Paris, 20,000 succumbed (out of a population of 650,000) with about 100,000 deaths in all of France [5]. It reached Russia (Cholera Riots), Quebec, Ontario and New York in the same year and the Pacific coast of North America by 1834.

1849 - Second major outbreak in Paris. In London, it was the worst outbreak in the city's history, claiming 14,137 lives, ten times as many as the 1832 outbreak. In 1849 cholera claimed 5,308 lives in the port city of Liverpool England and 1,834 in Hull England. [16] An outbreak in North America took the life of former U.S. President James K. Polk. Cholera spread throughout the Mississippi river system killing over 4,500 in St. Louis [6] and over 3,000 in New Orleans [7] as well as thousands in New York [17] In 1849 cholera was spread along the California and Oregon trail as hundreds died on their way to the California Gold Rush, Utah and Oregon. [18]

1852-1860 - Third Cholera pandemic mainly affected Russia, with over a million deaths. In 1853-4, London's epidemic claimed 10,738 lives.

1854 - Outbreak of cholera in Chicago took the lives of 5.5 per cent of the population (about 3,500 people).[8]. Soho outbreak in London stopped by removing the handle of the Broad Street pump by a committee instigated to action by John Snow.[19]

1863-1875 - Fourth Cholera pandemic spread mostly in Europe and Africa.

1866 - Outbreak in North America. In London, a localized epidemic in the East End claimed 5,596 lives just as London was completing its major sewage and water treatment systems--the East End was not quite complete. William Farr, using the work of John Snow et. al. as to contaminated drinking water being the likely source of the disease, was able to relatively quickly identify the East London Water Company as the source of the contaminated water. Quick action prevented further deaths. [20]

1881-1896 - Fifth Cholera pandemic ; The 1892 outbreak in Hamburg, Germany was the only major European outbreak, about 8,600 people died in Hamburg, causing a major political upheaval in Germany, as control over the City was removed from a City Council which had not updated Hamburg's water supplies. This was the last serious European cholera outbreak.

1899-1923 - Sixth Cholera pandemic had little effect in Europe because of advances in public health, but Russia was badly affected again.

1961-1970s - Seventh Cholera pandemic began in Indonesia, called El Tor after the strain, and reached Bangladesh in 1963, India in 1964, and the USSR in 1966. From North Africa it spread into Italy by 1973. In the late 1970s there were small outbreaks in Japan and in the South Pacific. There were also many reports of a cholera outbreak near Baku in 1972, but information of this was suppressed in the USSR.

January 1991 to September 1994 - Outbreak in South America, apparently initiated by ship discharged ballast water. Beginning in Peru there were 1.04 million identified cases and almost 10,000 deaths. The causative agent was an O1, El Tor strain, with small differences to the seventh pandemic strain. In 1992 a new strain appeared in Asia, a non-O1, nonagglutinable vibrio (NAG) named O139 Bengal. It was first identified in Tamilnadu, India and for a while displaced El Tor in southern Asia before decreasing in prevalence from 1995 to around 10% of all cases. It is considered to be an intermediate between El Tor and the classic strain and occurs in a new serogroup. There is evidence as to the emergence of wide-spectrum resistance to drugs such as trimethoprim, sulfamethoxazole and streptomycin.

Famous cholera victims

The crying and pathos in the last movement of Tchaikovsky's last symphony made people think that Tchaikovsky had a premonition of death. "A week after the premiere of his Sixth Symphony, Tchaikovsky was dead--6 Nov. 1893. The cause of this indisposition and stomach ache was suspected to be his intentionally infecting himself with cholera by drinking contaminated water. The day before while having lunch with Modest (his brother and biographer), he is said to have poured faucet water from a pitcher into his glass and drunk a few swallows. Since the water was not boiled and cholera was once again rampaging St. Petersburg, such a connection was quite plausible ...."[21]

Other famous people who succumbed to the disease include:

James K. Polk ex-President of the United States

Nicolas Léonard Sadi Carnot

Georg Wilhelm Friedrich Hegel

Samuel Charles Stowe, son of Harriet Beecher Stowe

Carl von Clausewitz

George Bradshaw

Adam Mickiewicz

August von Gneisenau

William Jenkins Worth

John Blake Dillon

Daniel Morgan Boone, founder of Kansas City, Missouri, son of Daniel Boone

James Clarence Mangan

Mohammad Ali Mirza Dowlatshahi of Persia

Ando Hiroshige, Japanese ukiyo-e woodblock print artist.

Juan de Veramendi, Mexican Governor of Texas, father-in-law of Jim Bowie

Grand Duke Constantine Pavlovich of Russia

William Shelley, son of Mary Shelley

William Godwin, father of Mary Shelley

Judge Daniel Stanton Bacon, father-in-law of George Armstrong Custer

Inessa Armand, mistress of Lenin and the mother of Andre, his son.

Honinbo Shusaku, famous go player renowned for his play.

Alexandre Dumas, père, French author of The Three Musketeers and The Count of Monte Cristo, also contracted cholera in the 1832 Paris epidemic and almost died, before he wrote these two novels.

Research

The major contributions to fighting cholera were made by Physician and self trained scientist John Snow (1813-1858), who found the link between cholera and contaminated drinking water in 1854 and Henry Whitehead, an Anglican minister, who helped John Snow, track down and verify the source of the disease, an infected well in London. Their conclusions and writings were widely distributed and firmly established for the first time a definite link between germs and disease. Clean water and good sewage treatment, despite their major enginering and financial cost, slowly became a priority throughout the major developed cities in the world from this time on ward. Robert Koch, 30 years later, identified V. cholerae with a microscope as the bacillus causing the disease in 1885. The bacterium had been originally isolated thirty years earlier (1855) by Italian anatomist Filippo Pacini, but its exact nature and his results were not widely known around the world.

Cholera has been a laboratory for the study of evolution of virulence. The province of Bengal in British India was partitioned into West Bengal (a state in India) and East Pakistan in 1947. Prior to partition, both regions had cholera pathogens with similar characteristics. After 1947, India made more progress on public health than East Pakistan (now Bangladesh). As a consequence, the strains of the pathogen which succeeded in India had a greater incentive in the longevity of the host and are less virulent than the strains prevailing in Bangladesh, which uninhibitedly draw upon the resources of the host population , thus rapidly killing many in it.

Other historical information

In the past, people travelling in ships would hang a yellow flag if one or more of the crew members suffered from cholera. Boats with a yellow flag hung would not be allowed to disembark at any harbor for an extended period of time, typically 30 to 40 days.[22]

Trivia

A persistent myth states that 90,000 people died in Chicago of cholera and typhoid fever in 1885. This story has no factual basis. In 1885 there was a torrential rainstorm that flushed the Chicago river and its attendant pollutants into Lake Michigan far enough that the city's water supply was contaminated. Fortunately, cholera was not present in the city and this is not known to have caused any deaths. It did cause the city to become more serious about their sewage treatment.

Thomas Mann's Death in Venice takes place during an epidemic of cholera, of which the protagonist dies after eating over-ripe strawberries. In the film version, this was changed to a heart attack for aesthetic reasons.

In the movie and novel "The Painted Veil" a couple moves to China to help the people suffering from cholera.

Cholera was featured in the game Oregon Trail. It was the leading cause of death of party members. Cholera was prevalent on the California and Oregon trail starting in 1849 and was the leading cause of death to those traveling the trail for several years.

References

^ a b Ryan KJ; Ray CG (editors) (2004). Sherris Medical Microbiology, 4th ed., McGraw Hill. ISBN 0838585299.

^ IBMS the Institute of biomedical Science [1]

^ McLeod K (2000). "Our sense of Snow: John Snow in medical geography". Soc Sci Med 50 (7-8): 923-35. PMID 10714917.

^ WHO Cholera [2]

^ Bhattacharya SK, National Institute of Cholera and Enteric Diseases (2003). "An evaluation of current cholera treatment". Expert Opin Pharmacother 4 (2): 141-6. PMID 12562304.

^ Parsi VK (2001). "Cholera". Prim. Care Update Ob Gyns 8 (3): 106-109. PMID 11378428.

^ Saha D, et al. (2006). "Single dose azithromycin for the treatment of cholera in adults". New Engl J Med 354 (23): 2452–62.

^ Krishna BVS, Patil AB, Chandrasekhar MR (2006). "Fluoroquinolone-resistant Vibrio cholerae isolated during a cholera outbreak in India" 100 (3): 224–26. DOI:10.1016/j.rstmh.2005.07.007.

^ Sack D, Sack R, Nair G, Siddique A (2004). "Cholera". Lancet 363 (9404): 223-33. PMID 14738797.

^ Swerdlow D, Mintz E, Rodriguez M, Tejada E, Ocampo C, Espejo L, Barrett T, Petzelt J, Bean N, Seminario L (1994). "Severe life-threatening cholera associated with blood group O in Peru: implications for the Latin American epidemic". J Infect Dis 170 (2): 468-72. PMID 8035040.

^ Harris J, Khan A, LaRocque R, Dorer D, Chowdhury F, Faruque A, Sack D, Ryan E, Qadri F, Calderwood S (2005). "Blood group, immunity, and risk of infection with Vibrio cholerae in an area of endemicity". Infect Immun 73 (11): 7422-7. PMID 16239542.

^ Bertranpetit J, Calafell F (1996). "Genetic and geographical variability in cystic fibrosis: evolutionary considerations". Ciba Found Symp 197: 97-114; discussion 114-8. PMID 8827370.

^ Archivist (1997). "Cholera phage discovery". Arch Dis Child 76: 274.

^ a b 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).

^ a b DiRita V, Parsot C, Jander G, Mekalanos J (1991). "Regulatory cascade controls virulence in Vibrio cholerae". Proc Natl Acad Sci U S A 88 (12): 5403-7. PMID 2052618.

^ IBMS Institute of Biological Science [3]

^ The Cholera Years: The United States in 1832, 1849, and 1866 by Charles E. Rosenberg

^ Trails of Hope: California, Oregon and Mormon Trails [4]

^ On the Mode of Communication of Cholera (1855) by John Snow, M.D. (1813-1858) [http://eee.uci.edu/clients/bjbecker/PlaguesandPeople/week8a.html

^ "The Ghost Map" by Steven Johnson, pg. 209

^ Meumayr A (1997). Music and Medicine: Chopin, Smetana, Tchaikovsky, Mahler : Notes on Their Lives, Works, and Medical Histories. Med-Ed Press: pp. 282-283 (summarizing various theories on what killed the composer Tchaikovsky, including his brother Modest's idea that Tchaikovksy drank cholera infested water the day before he became ill).

^ Mackowiak PA (2002). "The Origin of Quarantine". Clinical Infectious Diseases 35: 1071–2

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