Typhoid fever: Difference between revisions

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==Heterozygous advantage==
==Heterozygous advantage==
It is thought that [[cystic fibrosis]] may have risen to its present levels (1 in 1600 in UK) due to the [[heterozygous advantage]] that it confers against typhoid fever. The [[Cystic fibrosis transmembrane conductance regulator|CFTR protein]] is present in both the lungs and the intestinal epithelium, and the mutant cystic fibrosis form of the CFTR protein prevents entry of the typhoid bacterium into the body through the intestinal epithelium.
It is thought that [[cystic fibrosis]] may have risen to its present levels (1 in 1600 in UK) due to the [[heterozygous advantage]] that it confers against typhoid fever. The [[Cystic fibrosis transmembrane conductance regulator|CFTR protein]] is present in both the lungs and the intestinal epithelium, and the mutant cystic fibrosis form of the CFTR protein prevents entry of the typhoid bacterium into the body through the intestinal epithelium.
==History==
Around 430–426 B.C., a devastating [[pandemic|plague]], which some believe to have been typhoid fever, killed one third of the population of Athens, including their leader Pericles.  The balance of power shifted from Athens to Sparta, ending the Golden Age of Pericles that had marked Athenian dominance in the ancient world.  Ancient historian Thucydides also contracted the disease, but he survived to write about the plague.  His writings are the primary source on this outbreak.  The cause of the plague has long been disputed, with modern academics and medical scientists considering [[epidemic]] [[typhus]] the most likely cause.  However, a 2006 study detected [[DNA]] sequences similar to those of the bacterium responsible for typhoid fever.<ref name=Papagrigorakis_2006>{{cite journal | author=Papagrigorakis MJ, Yapijakis C, Synodinos PN, Baziotopoulou-Valavani E | title=DNA examination of ancient dental pulp incriminates typhoid fever as a probable cause of the Plague of Athens | journal=Int J Infect Dis | year=2006 | pages=206–14 | volume=10 | issue=3 | id=PMID 16412683} }}</ref>  Other scientists have disputed the findings, citing serious methodologic flaws in the dental pulp-derived DNA study.<ref name=Shapiro_2006>{{cite journal |author=Shapiro B, Rambaut A, Gilbert M |title=No proof that typhoid caused the Plague of Athens (a reply to Papagrigorakis et al.) |journal=Int J Infect Dis |volume=10 |issue=4 |pages=334–5; author reply 335–6 |year=2006 |id=PMID 16730469}}</ref> The disease is most commonly transmitted through poor hygiene habits and public sanitation conditions; during the period in question, the whole population of Attica was besieged within the Long Walls and lived in tents.
In the late 19th century, typhoid fever mortality rate in Chicago averaged 65 per 100,000 people a year. The worst year was 1891, when the typhoid death rate was 174 per 100,000 persons.<ref name=CPL>{{cite web | title=1900 Flow of Chicago River Reversed | work=Chicago Timeline | url=http://www.chipublib.org/004chicago/timeline/riverflow.html | publisher = Chicago Public Library | accessdate=2007-02-08}}</ref>  The most notorious carrier of typhoid fever—but by no means the most destructive—was Mary Mallon, also known as Typhoid Mary. In 1907, she became the first [[United States|American]] carrier to be identified and traced. She was a cook in New York; some believe she was the source of infection for several hundred people. She is closely associated with forty-seven cases and three deaths.<ref name=Nova>{{cite web | title=Nova: The Most Dangerous Woman in America | url=http://www.pbs.org/wgbh/nova/typhoid/letter.html}}</ref> Public health authorities told Mary to give up working as a cook or have her [[gall bladder]] removed. Mary quit her job but returned later under a false name. She was detained and [[quarantine]]d after another typhoid outbreak. She died of pneumonia after 26 years in quarantine.
In 1897, Almroth Edward Wright developed an effective vaccine.
Most developed countries saw declining rates of typhoid fever throughout first half of 20th century due to vaccinations and advances in public sanitation and hygiene. Antibiotics were introduced in clinical practice in 1942, greatly reducing mortality. At the present time, incidence of typhoid fever in developed countries is around 0.5 cases per 100,000 people per year.
An outbreak in the Democratic Republic of Congo in 2004-05 recorded more than 42,000 cases and 214 deaths.<ref name="who"/>


==References==
==References==

Revision as of 14:18, 21 August 2012

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Typhoid fever
Salmonella typhi bacteria
ICD-10 A01.0
ICD-9 002
DiseasesDB 27829
MeSH D014435

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

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Overview

Typhoid fever, also known as enteric fever and Salmonella typhi infection,[1] is an illness caused by the bacterium Salmonella enterica serovar typhi. Common worldwide, it is transmitted by the fecal-oral route — the ingestion of food or water contaminated with feces from an infected person.[2] The bacteria then multiply in the blood stream of the infected person and are absorbed into the digestive tract and eliminated with the waste.

Symptoms

Typhoid fever is characterized by a sustained fever as high as 40°C (104°F), profuse sweating, gastroenteritis, and diarrhea. Less commonly a rash of flat, rose-colored spots may appear.[3]

Classically, the course of untreated typhoid fever is divided into four individual stages, each lasting approximately one week. In the first week, there is a slowly rising temperature with relative bradycardia, malaise, headache and cough. Epistaxis is seen in a quarter of cases and abdominal pain is also possible. There is leukopenia with eosinopenia and relative lymphocytosis, a positive diazo reaction and blood cultures are positive for Salmonella typhi or paratyphi. The classic Widal test is negative in the first week.

In the second week of the infection, the patient lies prostrated with high fever in plateau around 40°C and bradycardia (Sphygmo-thermic dissociation), classically with a dicrotic pulse wave. Delirium is frequent, frequently calm, but sometimes agitated. This delirium gives to typhoid the nickname of "nervous fever". Rose spots appear on the lower chest and abdomen in around 1/3 patients. There are rhonchi in lung bases. The abdomen is distended and painful in the right lower quadrant where borborygmi can be heard. Diarrhea can occur in this stage: six to eight stools in a day, green with a characteristic smell, comparable to pea-soup. However, constipation is also frequent. The spleen and liver are enlarged (hepatosplenomegaly) and tender and there is elevation of liver transaminases. The Widal reaction is strongly positive with antiO and antiH antibodies. Blood cultures are sometimes still positive at this stage.

In the third week of typhoid fever a number of complications can occur:

The fever is still very high and oscillates very little over 24 hours. Dehydration ensues and the patient is delirious (typhoid state). By the end of third week defervescence commences that prolongs itself in the fourth week.

Diagnosis

Diagnosis is made by blood, bone marrow or stool cultures and with the Widal test (demonstration of salmonella antibodies against antigens O-somatic and H-flagellar). In epidemics and less wealthy countries, after excluding malaria, dysentery or pneumonia, a therapeutic trial time with chloramphenicol is generally undertaken while awaiting the results of Widal test and blood cultures.[4]

Treatment

Doctor administering a typhoid vaccination at a school in San Augustine County, Texas. Photograph by John Vachon, April 1943.

Typhoid fever in most cases is not fatal. Antibiotics, such as ampicillin, chloramphenicol, trimethoprim-sulfamethoxazole, and ciprofloxacin, have been commonly used to treat typhoid fever in developed countries. Prompt treatment of the disease with antibiotics reduces the case-fatality rate to approximately 1%.

When untreated, typhoid fever persists for three weeks to a month. Death occurs in between 10% and 30% of untreated cases. Vaccines for typhoid fever are available and are advised for persons traveling in regions where the disease is common (especially Asia, Africa and Latin America). Typhim Vi is an intramuscular killed-bacteria vaccination and Vivotif is an oral live bacteria vaccination, both of which protect against typhoid fever. Neither vaccine is 100% effective against typhoid fever and neither protects against unrelated typhus.

Primary Prevention

Typhoid fever can be prevented and can usually be treated with antibiotics. If you are planning to travel outside the United States, you should know about typhoid fever and what steps you can take to protect yourself.


Two basic actions can protect you from typhoid fever:

  • Avoid risky foods and drinks.
  • Get vaccinated against typhoid fever.

It may surprise you, but watching what you eat and drink when you travel is as important as being vaccinated. This is because the vaccines are not completely effective. Avoiding risky foods will also help protect you from other illnesses, including travelers' diarrhea, cholera, dysentery, and hepatitis A.


Boil it, cook it, peel it, or forget it:

  • If you drink water, buy it bottled or bring it to a rolling boil for 1 minute before you drink it. Bottled carbonated water is safer than uncarbonated water.
  • Ask for drinks without ice unless the ice is made from bottled or boiled water. Avoid popsicles and flavored ices that may have been made with contaminated water.
  • Eat foods that have been thoroughly cooked and that are still hot and steaming.
  • Avoid raw vegetables and fruits that cannot be peeled. Vegetables like lettuce are easily contaminated and are very hard to wash well.
  • When you eat raw fruit or vegetables that can be peeled, peel them yourself. (Wash your hands with soap first.) Do not eat the peelings.
  • Avoid foods and beverages from street vendors. It is difficult for food to be kept clean on the street, and many travelers get sick from food bought from street vendors.

Getting vaccinated:

If you are traveling to a country where typhoid is common, you should consider being vaccinated against typhoid. Visit a doctor or travel clinic to discuss your vaccination options.

Remember that you will need to complete your vaccination at least 1 week before you travel so that the vaccine has time to take effect. Typhoid vaccines lose effectiveness after several years; if you were vaccinated in the past, check with your doctor to see if it is time for a booster vaccination. Taking antibiotics will not prevent typhoid fever; they only help treat it.

The chart below provides basic information on typhoid vaccines that are available in the United States:

Typhoid vaccines

Resistance

Resistance to ampicillin, chloramphenicol, trimethoprim-sulfamethoxazole and streptomycin is now common, and these agents have not been used as first line treatment now for almost 20 years. Typhoid that is resistant to these agents is known as multidrug-resistant] typhoid (MDR typhoid).

Ciprofloxacin resistance is an increasing problem, especially in the Indian subcontinent and Southeast Asia. Many centres are therefore moving away from using ciprofloxacin as first line for treating suspected typhoid originating in India, Pakistan, Bangladesh, Thailand or Vietnam. For these patients, the recommended first line treatment is ceftriaxone.

There is a separate problem with laboratory testing for reduced susceptibility to ciprofloxacin: current recommendations are that isolates should be tested simultaneously against ciprofloxacin (CIP) and against nalidixic acid (NAL), and that isolates that are sensitive to both CIP and NAL should be reported as "sensitive to ciprofloxacin", but that isolates testing sensitive to CIP but not to NAL should be reported as "reduced sensitivity to ciprofloxacin". However, an analysis of 271 isolates showed that around 18% of isolates with a reduced susceptibility to ciprofloxacin (MIC 0.125–1.0 mg/l) would not be picked up by this method.[5] It not certain how this problem can be solved, because most laboratories around the world (including the West) are dependent disc testing and cannot test for MICs.

Risk Stratification and Prognosis

Without therapy, the illness may last for 3 to 4 weeks and death rates range between 12% and 30%.

Even if your symptoms seem to go away, you may still be carrying S. Typhi . If so, the illness could return, or you could pass the disease to other people. In fact, if you work at a job where you handle food or care for small children, you may be barred legally from going back to work until a doctor has determined that you no longer carry any typhoid bacteria.


If you are being treated for typhoid fever, it is important to do the following:

Keep taking the prescribed antibiotics for as long as the doctor has asked you to take them. Wash your hands carefully with soap and water after using the bathroom, and do not prepare or serve food for other people. This will lower the chance that you will pass the infection on to someone else.

Have your doctor perform a series of stool cultures to ensure that no S. Typhi bacteria remain in your body.

Transmission

Death rates for Typhoid Fever in the U.S. 1906-1960

Flying insects feeding on feces may occasionally transfer the bacteria through poor hygiene habits and public sanitation conditions. Public education campaigns encouraging people to wash their hands after toileting and before handling food are an important component in controlling spread of the disease. According to statistics from the United States Centers for Disease Control, the chlorination of drinking water has led to dramatic decreases in the transmission of typhoid fever in the U.S..

A person may become an asymptomatic carrier of typhoid fever, suffering no symptoms, but capable of infecting others. According to the Centers for Disease Control approximately 5% of people who contract typhoid continue to carry the disease after they recover.

Epidemiology

Locations of typhoid outbreaks worldwide

With an estimated 16-33 million cases of typhoid annually resulting in 500,000 to 600,000 deaths In endemic areas, the World Health Organisation identifies typhoid as a serious public health problem. Its incidence is highest in children between the ages of 5 and 19 years.[6]

In the United States about 400 cases occur each year, and 75% of these are acquired while traveling internationally. Typhoid fever is still common in the developing world, where it affects about 21.5 million persons each year. Typhoid fever is common in most parts of the world except in industrialized regions such as the United States, Canada, western Europe, Australia, and Japan. Therefore, if you are traveling to the developing world, you should consider taking precautions. Over the past 10 years, travelers from the United States to Asia, Africa, and Latin America have been especially at risk.

Heterozygous advantage

It is thought that cystic fibrosis may have risen to its present levels (1 in 1600 in UK) due to the heterozygous advantage that it confers against typhoid fever. The CFTR protein is present in both the lungs and the intestinal epithelium, and the mutant cystic fibrosis form of the CFTR protein prevents entry of the typhoid bacterium into the body through the intestinal epithelium.

References

  1. Kotton C. Typhoid fever. MedlinePlus. URL: http://www.nlm.nih.gov/medlineplus/ency/article/001332.htm. Accessed on: May 4, 2007.
  2. Giannella RA (1996). "Salmonella". Baron's Medical Microbiology (Baron S et al, eds.) (4th ed. ed.). Univ of Texas Medical Branch. ISBN 0-9631172-1-1.
  3. "CDC Typhoid Fever". Center for Disease Control. 2005-10-25. Retrieved 2007-10-02.
  4. Ryan KJ, Ray CG (editors) (2004). Sherris Medical Microbiology (4th ed. ed.). McGraw Hill. ISBN 0838585299.
  5. Cooke FJ, Wain J, Threlfall EJ (2006). "Fluoroquinolone resistance in Salmonella Typhi (letter)". Brit Med J. 333 (7563): 353&ndash, 4.
  6. "Typhoid Fever". World Health Organisation. Retrieved 2007-08-28. Check date values in: |accessdate= (help)

Further reading

  • Gale's Encyclopedia of Medicine, published by Thomas Gale in 1999, ISBN

External links


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