Diphtheria Classification and external resources
Diphtheria causes a characteristic swollen neck, sometimes referred to as “bull neck”.
ICD-10 A36 ICD-9 032 DiseasesDB 3122 MedlinePlus 001608 eMedicine emerg/138 med/459 oph/674 ped/596 MeSH D004165
Diphtheria (Greek διφθέρα (diphthera) "pair of leather scrolls") is an upper respiratory tract illness caused by Corynebacterium diphtheriae, a facultative anaerobic Gram-positive bacterium. It is characterized by sore throat, low fever, and an adherent membrane (a pseudomembrane) on the tonsils, pharynx, and/or nasal cavity. A milder form of diphtheria can be restricted to the skin. Less common consequences include myocarditis (about 20% of cases)  and peripheral neuropathy (about 10% of cases).
Diphtheria is a contagious disease spread by direct physical contact or breathing the aerosolized secretions of infected individuals. Historically quite common, diphtheria has largely been eradicated in industrialized nations through widespread vaccination. In the United States for example, there were 52 reported cases of diphtheria between 1980 and 2000; between 2000 and 2007 there were only three cases as the DPT (Diphtheria–Pertussis–Tetanus) vaccine is recommended for all school-age children. Boosters of the vaccine are recommended for adults since the benefits of the vaccine decrease with age without constant re-exposure; they are particularly recommended for those traveling to areas where the disease has not been eradicated.
Diphtheria toxin is a single protein composed of two fragments: one that allows entry into host cells and another that prevents the host cell from making proteins. The toxin binds to a cell-surface receptor to gain entry into the cell. Once inside the cell, the protein prevents the cell from making new proteins.
As mentioned, diphtheria toxin is 60,000 molecular weight protein composed of two components—fragment A and fragment B—held together by a disulfide bond. Fragment B is a recognition subunit that gains the toxin entry into the host cell by binding to a receptor on its plasma membrane (specifically, it binds to the EGF-like domain of heparin-binding EGF-like growth factor, or HB-EGF). This signals the cell to internalize the toxin within an endosome via receptor-mediated endocytosis. Inside the endosome, the toxin is split by a trypsin-like protease into its individual A and B fragments. The acidity of the endosome causes fragment B to create pores in the endosome membrane, thereby catalyzing the release fragment A into the cell's cytoplasm.
Fragment A inhibits the synthesis of new proteins in the affected cell. It does this by catalyzing ADP-ribosylation of elongation factor EF-2—a protein that is essential to the translation step of protein synthesis. Specifically, this ADP-ribosylation involves the transfer of an ADP-ribose from NAD+ to a diphthamide (a modified histidine) residue within the EF-2 protein. Since EF-2 is needed for the moving of tRNA from the A-site to the P-site of the ribosome during protein translation, ADP-ribosylation of EF-2 inhibits protein synthesis.
ADP-ribosylation of EF-2 is reversed by giving high doses of nicotinamide (a form of vitamin B3), since this is one of the reaction's end-products and high amounts will drive the reaction in the opposite direction.
Diphtheria pathogenesis most often occurs due to respiratory or skin transmission, which later develops into tissue necrosis, which is mediated by its toxin.
The current definition of diphtheria used by the Centers for Disease Control and Prevention (CDC) is based on both laboratory and clinical criteria.
- Isolation of Corynebacterium diphtheriae from a clinical specimen, or
- Histopathologic diagnosis of diphtheria
- Upper respiratory tract illness with sore throat
- Low-grade fever (>103°F is rare)
- An adherent pseudomembrane of the tonsil(s), pharynx, and/or nose.
- Probable: a clinically compatible case that is not laboratory-confirmed and is not epidemiologically linked to a laboratory-confirmed case
- Confirmed: a clinically compatible case that is either laboratory-confirmed or epidemiologically linked to a laboratory-confirmed case
Empirical treatment should generally be started in a patient in whom suspicion of diphtheria is high.
The disease may remain manageable, but in more severe cases lymph nodes in the neck may swell, and breathing and swallowing will be more difficult. People in this stage should seek immediate medical attention, as obstruction in the throat may require intubation or a tracheotomy. Abnormal cardiac rhythms can occur early in the course of the illness or weeks later, and can lead to heart failure. Diphtheria can also cause paralysis in the eye, neck, throat, or respiratory muscles. Patients with severe cases will be put in a hospital intensive care unit (ICU) and be given a diphtheria antitoxin. Since antitoxin does not neutralize toxin that is already bound to tissues, delaying its administration is associated with an increase in mortality risk. Therefore, the decision to administer diphtheria antitoxin is based on clinical diagnosis, and should not await laboratory confirmation.
Antibiotics have not been demonstrated to affect healing of local infection in diphtheria patients treated with antitoxin. Antibiotics are used in patients or carriers to eradicate C. diphtheriae and prevent its transmission to others. The CDC recommends either:
- Erythromycin (orally or by injection) for 14 days (40 mg/kg per day with a maximum of 2 g/d), or
- Procaine penicillin G given intramuscular for 14 days (300,000 U/d for patients weighing <10 kg and 600,000 U/d for those weighing >10 kg). Patients with allergies to penicillin G or erythromycin can use rifampin or clindamycin.
In cases that progress beyond a throat infection, diphtheria toxin spreads through the bloodstream and can lead to potentially life-threatening complications that affect other organs of the body, such as the heart and kidneys. The toxin can cause damage to the heart that affects its ability to pump blood or the kidneys' ability to clear wastes. It can also cause nerve damage, eventually leading to paralysis. 40% to 50% of those left untreated can die.
Diphtheria is a serious disease, with fatality rates between 5% and 10%. In children under 5 years and adults over 40 years, the fatality rate may be as much as 20%. Outbreaks, though very rare, still occur worldwide, even in developed nations such as Germany and Canada. After the breakup of the former Soviet Union in the late 1980s, vaccination rates in its constituent countries fell so low that there was an explosion of diphtheria cases. In 1991 there were 2,000 cases of diphtheria in the USSR. By 1998, according to Red Cross estimates, there were as many as 200,000 cases in the Commonwealth of Independent States, with 5,000 deaths. This was so great an increase that diphtheria was cited in the Guinness Book of World Records as "most resurgent disease".
In the 1920s there were an estimated 100,000 to 200,000 cases of diphtheria per year in the United States, causing 13,000 to 15,000 deaths per year. Children represented a large majority of these cases and fatalities. One of the most famous outbreaks of diphtheria was in Nome, Alaska; the "Great Race of Mercy" to deliver diphtheria antitoxin is now celebrated by the Iditarod Trail Sled Dog Race.
One of the first effective treatments for diphtheria was discovered in the 1880s by U.S. physician Joseph O'Dwyer (1841–1898). O'Dwyer developed tubes that were inserted into the throat, and prevented victims from suffocating due to the membrane sheath that grows over and obstructs airways. In 1884 Friedrich Loeffler discovered the causative organism (Corynebacterium diphtheriae). In the 1890s, the German physician Emil von Behring developed an antitoxin that did not kill the bacterium, but neutralized the toxic poisons that the bacterium releases into the body. Von Behring discovered that animal blood has antitoxins in it and so he took the blood, removed the clotting agents and injected it into human patients. Von Behring was awarded the first Nobel Prize in Medicine for his role in the discovery, and development of a serum therapy for diphtheria. (Americans William H. Park and Anna Wessels Williams; and Pasteur Institute scientists Emile Roux and Auguste Chaillou also independently developed diphtheria antitoxin in the 1890s.) The first successful vaccine for diphtheria was developed in 1913 by Behring. However, antibiotics against diphtheria were not available until the discovery and development of sulfa drugs.
The Schick test, invented between 1910 and 1911, is a test used to determine whether or not a person is susceptible to diphtheria. It was named after its inventor, Béla Schick (1877–1967), a Hungarian-born American pediatrician. A massive five-year campaign was coordinated by Dr. Schick. As a part of the campaign, 85 million pieces of literature were distributed by the Metropolitan Life Insurance Company with an appeal to parents to "Save your child from diphtheria." A vaccine was developed in the next decade, and deaths began declining in earnest in 1924.
In early May 2010, a case of diphtheria was diagnosed in Port-au-Prince, Haiti after the devastating 2010 Haiti earthquake. The 15 year old male patient died while workers searched for anti-toxin.
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- ^ "CNN's Anderson Cooper talks with Sean Penn and Dr. Sanjay Gupta about the threat of diphtheria in Haiti.". CNN.com. http://www.cnn.com/video/#/video/world/2010/05/07/ac.penn.gupta.haiti.med.supply.cnn. Retrieved 2010-05-09.
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Actinobacteria (high-G+C) Infectious diseases · Bacterial diseases: G+ (primarily A00–A79, 001–041, 080–109) Actinomycineae CorynebacterineaeTuberculosis: Ghon focus/Ghon's complex · Pott disease · brain (Meningitis, Rich focus) · Tuberculous lymphadenitis (Tuberculous cervical lymphadenitis) · cutaneous (Scrofuloderma, Erythema induratum, Lupus vulgaris, Prosector's wart, Tuberculosis cutis orificialis, Tuberculous cellulitis, Tuberculous gumma) · Lichen scrofulosorum · Tuberculid (Papulonecrotic tuberculid) · Primary inoculation tuberculosis · Miliary · Tuberculous pericarditis · Urogenital tuberculosis · Multi-drug-resistant tuberculosis · Extensively drug-resistant tuberculosis BifidobacteriaceaeGardnerella vaginalis
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Look at other dictionaries:
Diphtheria — Diph*the ri*a, n. [NL., fr. Gr. ? leather (hence taken in the sense of membrane): cf. ? to make soft, L. depsere to knead.] (Med.) A very dangerous contagious disease in which the air passages, and especially the throat, become coated with a… … The Collaborative International Dictionary of English
diphtheria — from Fr. diphthérie, coined 1857 by physician Pierre Bretonneau (1778 1862) from Gk. diphthera prepared hide, leather, of unknown origin; the disease so called for the tough membrane that forms in the throat. Bretonneau s earlier name for it was… … Etymology dictionary
diphtheria — the bacterial disease, is spelt with ph and should be pronounced dif , not dip … Modern English usage
diphtheria — ► NOUN ▪ a serious bacterial disease causing inflammation of the mucous membranes, especially in the throat. ORIGIN Greek diphthera skin, hide (referring to the false membrane that forms in the throat) … English terms dictionary
diphtheria — [dif thir′ē ə, dipthir΄ē ə] n. [ModL < Fr diphtherie (so named (1855) by A. Trousseau (1801 67), Fr physician, replacing earlier diphthérite, first used (1821) by P. Bretonneau (1778 1862), Fr physician) < Gr diphthera, leather < dephein … English World dictionary
diphtheria — /dif thear ee euh, dip /, n. Pathol. a febrile, infectious disease caused by the bacillus Corynebacterium diphtheriae, and characterized by the formation of a false membrane in the air passages, esp. the throat. [1850 55; < NL < F diphthérie < Gk … Universalium
Diphtheria — An acute infectious disease that typically strikes the upper respiratory tract including the throat. It is caused by infection with the bacteria Corynebacterium diphtheriae. Symptoms include sore throat and mild fever at first. As the disease… … Medical dictionary
diphtheria — noun VERB + DIPHTHERIA ▪ have, suffer from ▪ catch, contract, get ▪ immunize sb against ▪ Parents are advised to have their children immunized against diphtheria … Collocations dictionary
diphtheria — n. to come down with, contract; prevent diphtheria * * * [dɪf θɪ(ə)rɪə] contract prevent diphtheria to come down with … Combinatory dictionary
diphtheria —  The disease diphtheria is characterized by the formation of a false membrane in the throat which obstructs breathing, and when the French physician Pierre Bretonneau described it in the 1820s, he coined a name for it based on Greek diphthéra … The Hutchinson dictionary of word origins