Anaphylaxis


Anaphylaxis

Infobox_Disease
Name = Anaphylaxis


Caption =
DiseasesDB = 29153
ICD10 = ICD10|T|78|2|t|66
ICD9 =
ICDO =
OMIM =
MedlinePlus =
eMedicineSubj = med
eMedicineTopic = 128
MeshID = D000707

Anaphylaxis is an acute systemic (multi-system) and severe Type I Hypersensitivity allergic reaction in humans and other mammals. The term comes from the Greek words ανα "ana" (against) and φύλαξις "phylaxis" (protection). ["Anaphylaxis." Etymology. "Oxford English Dictionary". http://dictionary.oed.com.] Minute amounts of allergens may cause a life-threatening anaphylactic reaction. Anaphylaxis may occur after ingestion, skin contact, injection of an allergen or, in rare cases, inhalation. [cite web |url=http://health.allrefer.com/health/anaphylaxis-info.html |title=Anaphylaxis |accessdate=2007-01-29 |date=2002-01-17 |work=Health |publisher=AllRefer.com ]

Anaphylactic shock, the most severe type of anaphylaxis, occurs when an allergic response triggers a quick release from mast cells of large quantities of immunological mediators (histamines, prostaglandins, leukotrienes) leading to systemic vasodilation (associated with a sudden drop in blood pressure) and edema of bronchial mucosa (resulting in bronchoconstriction and difficulty breathing). Anaphylactic shock can lead to death in a matter of minutes if left untreated.

An estimated 1.24% to 16.8% of the population of the United States is considered "at risk" for having an anaphylactic reaction if they are exposed to one or more allergens, especially penicillin and insect stings. Most of these people successfully avoid their allergens and will never experience anaphylaxis. Of those people who actually experience anaphylaxis, up to 1% may die as a result.cite journal |author=Neugut AI, Ghatak AT, Miller RL |title=Anaphylaxis in the United States: an investigation into its epidemiology |journal=Arch. Intern. Med. |volume=161 |issue=1 |pages=15–21 |year=2001 |month=January |pmid=11146694 | doi = 10.1001/archinte.161.1.15|url=http://archinte.ama-assn.org/cgi/content/full/161/1/15] Anaphylaxis results in approximately 18 deaths per year in the U.S. (compared to 2.4 million deaths from all causes each year in the U.S.cite web |url=http://www.cdc.gov/nchs/fastats/deaths.htm |title=Deaths/Mortality |accessdate=2008-03-31 |format= |work= |publisher=National Center for Health Statistics |accessdate=2008-04-22] ). The most common presentation includes sudden cardiovascular collapse (88% of reported cases of severe anaphylaxis).

Researchers typically distinguish between "true anaphylaxis" and "pseudo-anaphylaxis or an anaphylactoid reaction." The symptoms, treatment, and risk of death are identical, but "true" anaphylaxis is always caused directly by degranulation of mast cells or basophils that is mediated by immunoglobulin E (IgE), and pseudo-anaphylaxis occurs due to all other causes.cite web |author=Limmer D, Mistovich JJ, Krost WS |title=Anaphylactic and Anaphylactoid Reactions -- Prehospital Pathophysiology |url=http://publicsafety.com/article/article.jsp?id=2165&siteSection=6 |date=November 17th, 2005 |publisher=EMSResponder.com |accessdate=2007-11-27 |work=] The distinction is primarily made by those studying mechanisms of allergic reactions.

ymptoms

Symptoms of anaphylaxis are related to the action of Immunoglobulin E (IgE) and other anaphylatoxins, which act to release histamine and other mediator substances from mast cells (degranulation). In addition to other effects, histamine induces vasodilation of arterioles and constriction of bronchioles in the lungs, also known as bronchospasm (constriction of the airways).

Tissues in different parts of the body release histamine and other substances. This causes constriction of the airways, resulting in wheezing, difficulty breathing, and gastrointestinal symptoms such as abdominal pain, cramps, vomiting, and diarrhea. Histamine causes the blood vessels to dilate (which lowers blood pressure) and fluid to leak from the bloodstream into the tissues (which lowers the blood volume). These effects result in shock. Fluid can leak into the alveoli (air sacs) of the lungs, causing pulmonary edema.

Symptoms can include the following:
* polyuria
* respiratory distress
* hypotension (low blood pressure)
* encephalitis
* fainting
* unconsciousness
* urticaria (hives)
* flushed appearance
* angioedema (swelling of the lips, face, neck and throat): this can be life threatening
* tears (due to angioedema and stress)
* vomiting
* itching
* diarrhoea
* abdominal pain
* anxiety

The time between ingestion of the allergen and anaphylaxis symptoms can vary for some patients depending on the amount of allergen consumed and their reaction time. Symptoms can appear immediately, or can be delayed by half an hour to several hours after ingestion. [cite web |url= http://www.aafa.org/display.cfm?id=9&sub=20&cont=286
title=Food Allergies |date=March 28, 2007 |publisher=Asthma and Allergy Foundation of America |quote=
] However, symptoms of anaphylaxis usually appear very quickly once they do begin.

Causes

Anaphylaxis is a severe, whole-body allergic reaction. After an initial exposure ("sensitizing dose") to a substance like bee sting toxin, the person's immune system becomes sensitized to that allergen. On a subsequent exposure ("shocking dose"), an allergic reaction occurs. This reaction is sudden, severe, and involves the whole body.

Hives and angioedema (hives on the lips, eyelids, throat, and/or tongue) often occur. Angioedema may be severe enough to block the airway. Prolonged anaphylaxis can cause heart arrhythmias.

Some drugs (polymyxin, morphine, x-ray dye, and others) may cause an "anaphylactoid" reaction (anaphylactic-like reaction) on the "first exposure".cite web |url=http://www.merck.com/mmhe/sec16/ch185/ch185e.html |title=Mastocytosis: Allergic Reactions: Merck Manual Home Edition |accessdate=2007-11-27 |format= |work=] This is usually due to a toxic reaction, rather than the immune system mechanism that occurs with "true" anaphylaxis. The symptoms, risk for complications without treatment, and treatment are the same, however, for both types of reactions. Some vaccinations are also known to cause "anaphylactoid" reactions. [ [http://www.phac-aspc.gc.ca/publicat/ccdr-rmtc/96vol22/dr2214ea.html National Advisory Committee on Immunization (NACI) - SUPPLEMENTARY STATEMENT MMR VACCINE AND ANAPHYLACTIC HYPERSENSITIVITY TO EGG OR EGG-RELATED ANTIGENS - CCDR Volume 22] ] Antitoxins and antivenins may cause similar reactions.

Anaphylaxis can occur in response to any allergen. Common causes include insect bites/stings, food allergies (peanuts and tree nuts are the most common, though not the only), and drug allergies. Pollens and other inhaled allergens rarely cause anaphylaxis. In opthamology, the dye fluorescein used in some eye exams is a well known trigger. Some people have an anaphylactic reaction with no identifiable cause.

Treatment

Emergency treatment

Anaphylaxis is a life-threatening medical emergency because of rapid constriction of the airway, often within minutes of onset, which can lead to respiratory failure and respiratory arrest. Brain and organ damage rapidly occurs if the patient cannot breathe. Due to the severe nature of the emergency, patients experiencing or about to experience anaphylaxis require the help of advanced medical personnel. First aid measures for anaphylaxis include rescue breathing (part of CPR). Rescue breathing may be hindered by the constricted airways, but if the victim stops breathing on his or her own, it is the only way to get oxygen to him or her until professional help is available.

The primary treatment for anaphylaxis is administration of epinephrine (adrenaline). Epinephrine prevents worsening of the airway constriction, stimulates the heart to continue beating, and may be life-saving. Epinephrine acts on Beta-2 adrenergic receptors in the lung as a powerful bronchodilator (i.e. it opens the airways), relieving allergic or histamine-induced acute asthmatic attack or anaphylaxis. If the patient has previously been diagnosed with anaphylaxis, he or she may be carrying an EpiPen or Twinject for immediate administration of epinephrine. However, use of an EpiPen or similar device only provides temporary and limited relief of symptoms.

Tachycardia (rapid heartbeat) results from stimulation of Beta-1 adrenergic receptors of the heart increasing contractility (positive inotropic effect) and frequency (chronotropic effect) and thus cardiac output.cite web |url=http://www.resus.org.uk/pages/reaction.pdf |title=Emergency treatment of anaphylactic reactions -- Guidelines for healthcare providers |date=January 2008 |accessdate=2008-04-22 |format=PDF |work= |publisher=Resuscitation Council (UK)] Repetitive administration of epinephrine can cause tachycardia and occasionally ventricular tachycardia with heart rates potentially reaching 240 beats per minute, which itself can be fatal. Extra doses of epinephrine can sometimes cause cardiac arrest. This is why some protocols advise "intramuscular" injection of only 0.3–0.5mL of a 1:1,000 dilution.

Some patients with severe allergies routinely carry preloaded syringes containing epinephrine, diphenhydramine (Benadryl), and dexamethasone (Decadron) whenever they go to an unknown or uncontrolled environment.

Clinical care

Paramedic treatment in the field includes administration of epinephrine IM; antihistamines IM (such as chlorphenamine or diphenhydramine); steroids, such as hydrocortisone or dexamethasone; IV Fluid administration and in severe cases, pressor agents (which cause the heart to increase its contraction strength) such as dopamine for hypotension, administration of oxygen, and intubation during transport to advanced medical care.

In severe situations with profuse laryngeal edema (swelling of the airway), cricothyrotomy or tracheotomy may be required to maintain oxygenation. In these procedures, an incision is made through the anterior portion of the neck, over the cricoid membrane, and an endotracheal tube is inserted to allow mechanical ventilation of the victim.

The clinical treatment of anaphylaxis by a doctor and in the hospital setting aims to treat the cellular hypersensitivity reaction as well as the symptoms. Antihistamine drugs such as diphenhydramine or chlorphenamine (which inhibit the effects of histamine at histamine receptors) are continued but are usually not sufficient in anaphylaxis, and high doses of intravenous corticosteroids such as dexamethasone or hydrocortisone are often required. Hypotension is treated with intravenous fluids and sometimes vasopressor drugs. For bronchospasm, bronchodilator drugs (e.g. salbutamol, known as Albuterol in the United States) are used. In severe cases, immediate treatment with epinephrine can be lifesaving. Supportive care with mechanical ventilation may be required.

It is also possible to undergo a second reaction prior to medical attention or using an Epipen. It is suggested to seek one to two days of medical care.

The possibility of biphasic reactions (recurrence of anaphylaxis) requires that patients be monitored for four hours after being transported to medical care for anaphylaxis.

Many anaphylactic patients will be sent home or released after the initial reaction is declared over. Yet, the possibility of a rebound reactions are almost always bound to happen. Most people with anaphylaxis have a rebound a few hours after the initial reaction, yet there are cases where a rebound would occur after as much time as a week

Planning for emergency treatment

The Asthma and Allergy Foundation of America advises patients prone to anaphylaxis to have an "allergy action plan" on file at school, home, or in their office to aid others in case of an anaphylactic emergency, and provides a free "plan" form.cite web |url=http://www.aafa.org/display.cfm?id=4&sub=81&cont=392 |title=Asthma and Allergy Foundation of America - Information About Asthma, Allergies, Food Allergies and More! |accessdate=2007-11-27 |format= |work=] Action plans are considered essential to quality emergency care. Many authorities advocate immunotherapy to prevent future episodes of anaphylaxis.cite web |url=http://www.acaai.org/public/patients/factSheet.htm |title=Fact Sheet - ACAAI |accessdate=2007-11-27 |format= |work=]

Beta-blockers may aggravate anaphylactic reactions and interfere with treatment.

Prevention

Immunotherapy with Hymenoptera venoms is especially effective and widely used throughout the world and is accepted as an effective treatment for most patients with allergy to bees, wasps, hornets, yellow jackets, white faced hornets, and fire ants.cite journal |author=Bousquet J, Müller UR, Dreborg S, "et al" |title=Immunotherapy with Hymenoptera venoms. Position paper of the Working Group on Immunotherapy of the European Academy of Allergy and Clinical Immunology |journal=Allergy |volume=42 |issue=6 |pages=401–13 |year=1987 |pmid=3310714 |doi=]

The greatest success with prevention of anaphylaxis has been the use of allergy injections to prevent recurrence of sting allergy. The risk to an individual from a particular species of insect depends on complex interactions between likelihood of human contact, insect aggression, efficiency of the venom delivery apparatus, and venom allergenicity. According to most authorities, venom immunotherapy has been demonstrated to reduce the risk of systemic reactions below 1% to 3%. One simple method of venom extraction has been electrical stimulation to obtain venom, instead of dissecting the venom sac. An allergist will then provide venom immunotherapy which is highly efficacious in preventing future episodes of anaphylaxis.

A vaccine has been in the works to prevent anaphylaxis from peanuts and tree nuts. Despite showing significant promise to prevent individuals with the allergy from developing anaphylaxis if eating a small amount of the food, the FDA has not yet approved the vaccine. [http://www.allergicchild.com/peanut_allergy.htm]

Pathophysiology

Anaphylactic shock or systemic anaphylaxis is an allergic reaction to systematically administered antigen that causes circulatory collapse and suffocation due to tracheal swelling. Classified as a Type I hypersensitivity, anaphylaxis is mediated through the binding of antigen to the IgE antibody on connective tissue mast cells throughout the body, which ultimately leads to the disseminated release of inflammatory mediators.Cite book |author=Murphy, Kenneth |authorlink= |coauthors= |title=Janeway's Immunobiology |date=November 27, 2007 |edition=7th edition |publisher=Garland Science |location=New York |isbn=0-8153-4123-7 |pages= |ISBN status=May be invalid - please double check ] IgE antibodies can become responsive to innocuous antigens or allergens. Once IgE have become sensitized to allergens, their local production may persist for long periods of time even in the absence of allergen. After which, mast cells become the major effector cells for immediate hypersensitivity and chronic allergic reactions.cite journal |author=Kitaura J, Kinoshita T, Matsumoto M, "et al" |title=IgE- and IgE+Ag-mediated mast cell migration in an autocrine/paracrine fashion |journal=Blood |volume=105 |issue=8 |pages=3222–9 |year=2005 |month=April |pmid=15637135 |doi=10.1182/blood-2004-11-4205 |url=http://bloodjournal.hematologylibrary.org/cgi/content/full/105/8/3222]

Mast cells are large cells found in particularly high concentrations in vascularized connective tissues just beneath epithelial surfaces, including the submucosal tissues of the gastrointestinal and respiratory tracts, and the dermis that lies just below the surface of the skin. They contain large granules that store a variety of mediator molecules including the vasoactive amine, histamine. Histamine causes dilation of local blood vessels and smooth-muscle contraction. Other molecules in the mast cell granules include lipid inflammatory mediators such as prostaglandin D2¬ and leukotriene C4 as well as tumor necrosis factor-α (TNF-α), a cytokine. The importance of TNF-α is most noted in the activation of the endothelium. TNF-α, the prototype of the TNF family cytokines, can induce endothelial cells to present E-selectin and ICAM-1, both of which are cell adhesion molecules (CAM) that mediate the “roll and stick” mechanism of leukocyte extravasation, termed diapedesis. While this process is essential for the recruit of leukocytes to a localized area during an inflammatory response, it can be catastrophic in cases of systemic infection. Point in case, the presence of said infection in the bloodstream, or sepsis, is accompanied by the release of TNF-α by macrophages in liver, spleen, and other systemic sites. The systemic release of TNF-α causes vasodilatation, which leads to a loss of blood pressure and increased vascular permeability, leading to a loss of plasma volume and eventually to shock.

TNF-α, along with the other aforementioned mast cell granule contents become exocytosed upon activation of the mast cell. Activation is achieved only when IgE, bound to the high-affinity Fcε receptors (FcεR1), are cross-linked by multivalent antigen. The FcεR1 is a tetrameric receptor composed of a single α chain, responsible for binding the IgE, associated with a single β chain and a disulfide linked homodimer of γ chains that initiate the cell signal pathway.cite journal |author=Paolini R, Jouvin MH, Kinet JP |title=Phosphorylation and dephosphorylation of the high-affinity receptor for immunoglobulin E immediately after receptor engagement and disengagement |journal=Nature |volume=353 |issue=6347 |pages=855–8 |year=1991 |month=October |pmid=1834946 |doi=10.1038/353855a0 |url=] Once the FcεR1 are aggregated by the cross-linking process, the immunoreceptor tryrosine-based activation motifs (ITAMs) in both the β and γ chains are phosphorylated by LYN, a protein tryrosine kinase (PTK) belonging to the Src family. The ITAM domain is simply conserved sequence motif generally composed of two YXXL/I sequences separated by about six to nine amino acids, where Y is tyrosine, L is leucine, I isoleucine and X any amino acid. Their phosphorylation in the β and γ chains provide high-affinity docking sites for the SH2 domains of additional LYN and the SYK (spleen tyrosine kinasse), respectively.cite journal |author=Gilfillan AM, Tkaczyk C |title=Integrated signalling pathways for mast-cell activation |journal=Nat. Rev. Immunol. |volume=6 |issue=3 |pages=218–30 |year=2006 |month=March |pmid=16470226 |doi=10.1038/nri1782 |url=] These SH2 domains (Src homology 2 domian) are found in a numerous cell-signaling proteins and bind to phosphotyrosine through a very specific sequence. As the signal continues to propagate through the pathway, the membrane bound molecule, named linker for activation of T cells (LAT), is phosphoyraleted by the LYN and SYK and acts as a scaffold protein, organizing other molecules that complete the degranulation of mast cells, as well as promote further cytokine production.cite journal |author=Parravicini V, Gadina M, Kovarova M, "et al" |title=Fyn kinase initiates complementary signals required for IgE-dependent mast cell degranulation |journal=Nat. Immunol. |volume=3 |issue=8 |pages=741–8 |year=2002 |month=August |pmid=12089510 |doi=10.1038/ni817 |url=] The most notable of these LAT affected molecules is Phospholipase C (PLC). As in many cell signaling pathways PLC hydrolyzes the phosphodiester bond in phosphoatidylinositol-4,5-bisphosphate [PI(4,5)P¬¬2] to yield diacylglycerol (DAG) and inositol-1,4,5-triphosphate (IP¬¬3)¬. A well-characterized second messenger, IP¬3¬, signals the release of calcium from the endoplasmic reticulum. The influx of cytosolic Ca2+ and phosphoatidylserine further active Phosphokinase C (PKC) bound to DAG. Together, it is the cytosolic Ca2+ and PKC signal the degranulation of the mast cell.4

Although less well mapped, similarly prevailing cell signaling molecules, such as Ras, a monomeric G protein, SOS (son of sevenless homologue) and MAPK (mitogen-activated protein kinase) lead to the upregulation of cytokines and the previously mentioned eicosanoids, prostaglandin D2¬ and leukotriene C4.

While this cell single pathway is sufficient to induce degraluation, it is not the only effective mechanism. Studies with LYK deficient mice have shown that degranulation is still inducible. Consequently, several alternative pathways leading to mast cell degranulation have been mapped. The first of which, dubbed the “complementary” pathway, determined that the crosstalk between LYK and another Src family PTK, called FYN, is an essential interaction to degranulation, along with the preferential activity of Phosphoatidylinositol 3-kinase (PI-3K) over PLC. Studies have also elucidated subsequent pathways that utilize the integration of G-protein-coupled receptors to mediate the degranulation and cytokine production mechanism of activated mast cells.9 IgE binding to FcεR1 in the absence of a specific antigen still induces the up-regulation of FcεR1 surface expression in mast cells through autocrine signaling of cytokines.cite journal |author=Kitaura J, Song J, Tsai M, "et al" |title=Evidence that IgE molecules mediate a spectrum of effects on mast cell survival and activation via aggregation of the FcepsilonRI |journal=Proc. Natl. Acad. Sci. U.S.A. |volume=100 |issue=22 |pages=12911–6 |year=2003 |month=October |pmid=14569021 |doi=10.1073/pnas.1735525100 |url=http://www.pnas.org/cgi/content/full/100/22/12911] However, not all IgE are equally capable of inducing such as secretion. Therefore, researchers have divided all invariant IgEs into two major categories: highly cytokinergic(HC), where the production and secretion of various cytokines and other activation events including degranulation is inducible, and poorly cytokinergic (PC) in which no autocrine signaling is observed. The former, HC IgE, brings forward a reaction in which cytokines are exocytosed and act as autocrine and paracrine signaling molecules. As such, mast cells with bound HC IgE attract other mast cells even in the absence of antigen crosslinking. While the exact structural features that account for the function differences between HC and PC IgE has yet to be determined their effects are thought to be the result of intracellular cell signaling. IgE binding to FcεR1 leads to a greater stability of the mast cell and increased production of surface receptors. The newly expressed FcεR1 then aggregate on the surface, independent of antigen binding. The cell signaling pathway then initiates and appears to involve components used in the alternative mechanisms. Mast cell migration is dependent on soluble factors such as adenosine, leukotriene B¬4 and other chemokines, whose secretion is dependent upon the activity of LYN and SYK. The degranulation of mast cells in the absence of antigen, can then be initiated by G-protein-couple receptors (GPCR) stimulated by soluble factors agonists and completed by downstream activity of PI3K.

References

External links

* [http://www.aaaai.org/patients/publicedmat/tips/whatisanaphylaxis.stm Information] from the American Academy of Allergy and Immunology
* [http://www.uptodate.com/patients/content/topic.do?topicKey=~u55pia.nJGQ/Gs UpToDate patient information: Anaphylaxis]
* [http://www.foodallergy.org The Food Allergy & Anaphylaxis Network]
* [http://www.alert4allergy.org alert4allergy.org] , a free service for people in Britain with food allergy
* http://www.anaphylaxis.org.uk - UK national registered charity for people at risk from anaphylaxis
* [http://www.aafa.org Asthma and Allergy Foundation of America] (US)
* [http://www.allergyfacts.org.au/] - Anaphylaxis Australia - Australian national registered charity for the support of those at risk of Anaphylaxis.
* [http://www.simmed.com/Content/Links.aspx Training videos from EpiPen and Twinject]


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Look at other dictionaries:

  • anaphylaxis — n. 1. [Gr. ana back, way from + fy laxis security, protection.] 1. (Med.) hypersensitivity (to a protein or drug) resulting from prior contact with a substance. [WordNet 1.5] 2. (Med.) an immediate but transient allergic reaction to an antigenic… …   The Collaborative International Dictionary of English

  • anaphylaxis — anaphylaxis. См. анафилаксия. (Источник: «Англо русский толковый словарь генетических терминов». Арефьев В.А., Лисовенко Л.А., Москва: Изд во ВНИРО, 1995 г.) …   Молекулярная биология и генетика. Толковый словарь.

  • anaphylaxis — (n.) see ANAPHYLACTIC (Cf. anaphylactic) …   Etymology dictionary

  • anaphylaxis — [an΄ə fə lak′sis] n. [ModL < Gr ana , intens. + phylaxis, a guarding < phylassein, to guard] a condition of hypersensitivity to proteins or other substances, requiring previous exposure to the allergenic substance and resulting in shock or… …   English World dictionary

  • anaphylaxis — anaphylactic /an euh feuh lak tik/, adj. anaphylactically, adv. /an euh feuh lak sis/, n. Pathol. exaggerated allergic reaction to a foreign protein resulting from previous exposure to it. [1905 10; ANA + (PRO)PHYLAXIS] * * * Severe, immediate,… …   Universalium

  • anaphylaxis — An induced systemic or generalized sensitivity; at times the term a. is used for anaphylactic shock. The term is commonly used to denote the immediate, transient kind of immunologic (allergic) reaction characterized by contraction of smooth …   Medical dictionary

  • anaphylaxis — anaphylactic shock anaphylactic shock n. (Med.) a severe form of physiological shock, often having a fatal outcome, caused by an extreme immunological reaction to antigens. It is a severe form of {anaphylaxis[2]}, and is characterized by smooth… …   The Collaborative International Dictionary of English

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  • anaphylaxis — n. [Gr. ana, again; phylax, guard] A state of excessive sensitivity to a serum or foreign protein that can result in a state of shock, that may develop with marked circulatory disturbances and possible death; anaphylactic adj …   Dictionary of invertebrate zoology


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