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ANAPHYLAXIS

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Title: ANAPHYLAXIS


1
ANAPHYLAXIS
2
AnaphylaxisObjectives
  • Upon completion the student will be able to
  • Define anaphylaxis
  • Define antigen
  • List ways an antigen can be introduced into the
    body
  • Define antibody
  • Describe the pathophysiology of allergic
    reactions and anaphylaxis

3
AnaphylaxisObjectives
  • Discuss the effects of allergic reactions and
    anaphylaxis on the following body systems
  • Skin
  • Respiratory
  • Cardiovascular
  • Gastrointestinal
  • Nervous
  • Describe the clinical presentation of the patient
    suffering an allergic reaction and anaphylaxis

4
AnaphylaxisObjectives
  • Discuss the assessment of the patient suffering
    an allergic reaction and anaphylaxis
  • Describe the management of a patient with a
    severe allergic reaction
  • Describe the actions of the following
    medications, and relate their usage in the
    management of allergic reactions and anaphylaxis
  • Oxygen
  • Epinephrine
  • Antihistamines
  • Corticosteroids
  • Beta Agonists

5
Introduction
  • An acute, generalized, and violent
    antigen-antibody reaction - the most severe from
    of an allergic reaction - that may be rapidly
    fatal even with prompt and appropriate emergency
    medical care.
  • Develops in seconds to minutes after ingestion,
    injection, inhalation or absorption of an
    antigenic substance.

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Immune System
  • Plays a central role in allergies and
    anaphylaxis.
  • Components of the immune system can be found in
    the blood, the bone narrow, the connective
    tissues, and in the lymphatic system.

8
Immune System
  • The immune response is a series of complex events
    with the goal being the destruction or
    inactivation of pathogens, abnormal cells, or
    foreign molecules such as toxins.
  • This can be accomplished through two mechanisms
  • 1. Cellular Immunity
  • 2. Humoral Immunity

9
Cellular Immunity
  • Derived from special leukocytes called t
    lymphocytes.
  • Originate in the thymus and are primarily
    responsible for fighting infections of biological
    agents living certain body cells, including
    tuberculosis, many viral infections, and most
    fungal infections.
  • Involves the movement of WBC to attack and
    eliminate.

10
Humoral Immunity
  • More complicated.
  • Derived from B lymphocytes and results in the
    formation of antibodies. There are five classes
    of human antibodies (immunoglobulins)
  • They include
  • 1. IgM - antibody that responds immediately

11
Humoral Immunity
  • 2. IgG - antibody that has memory and
    recognizes a repeatedly invading infection
  • 3. IgA - antibody present in the mucous membranes
  • 4. IgE - antibody contributing to allergic and
    anaphylactic responses
  • 5. IgD - antibody present in the lowest
    concentration

12
Humoral Immunity
  • Begins with exposure of the body to an antigen.
    The antibodies seek out the invading antigen and
    combine, forming what is commonly called the
    antigen-antibody complex. This large complex is
    subsequently removed by scavenger cells such as
    macrophages.

13
Humoral Immunity
  • If the body has never been exposed to a
    particular antigen, the reaction is totally
    different.
  • Initial response to an antigen is called the
    primary response. It takes the cellular and
    humoral components several days to respond to a
    primary antigen exposure. But other antibodies
    assist and develop memories of the particular
    antigen.

14
Humoral Immunity
  • This way when the body is exposed to the same
    antigen again there is a secondary response which
    is much faster than the original.

15
Allergies
  • Initial exposure of an individual to an antigen
    is referred to as sensitization.
  • This results in an immune response. Subsequent
    exposure induces a much stronger secondary
    response
  • Hypersensitivity is an unexpected and exaggerated
    reaction to a particular antigen, resulting in
    some discomfort for the individual

16
Allergies
  • Hypersensitivity is often used synonymously with
    the term allergy.
  • Two types of hypersensitivity reactions
  • 1. Delayed
  • 2. Immediate

17
Delayed Hypersensitivity
  • Result of cellular immunity and does not involve
    antibodies.
  • Occurs in hours and days following exposure
  • Most commonly results in skin rash and is often
    due to exposure to certain drugs and chemicals
  • Common example rash from poison ivy

18
Immediate Hypersensitivity
  • Examples of immediate hypersensitivity include
    hay fever, drug allergies, food allergies and
    asthma.
  • Some individuals have an allergic tendency, known
    as atopy. This is usually genetic and
    characterized by the presence of IgE
  • An antigen that causes the release of IgE is
    referred to as an allergen

19
Immediate Hypersensitivity
  • After exposure to an allergen, large quantities
    of IgE are released.
  • IgE becomes attached to membranes of basophils
    and mast cells
  • Basophils and mast cells are specialized cells of
    the immune system which contain chemicals that
    assist in the immune response.

20
Immediate Hypersensitivity
  • When the allergen binds to IgE attached to the
    mast cells and basophils these cells release
    histamine, heparin.
  • Mast cells and basophils are referred to as
    granulocytes and histamine are stored in the
    granules of basophils and mast cells.
  • The release process of these substances is
    referred to as degranulation

21
Immediate Hypersensitivity
  • The reaction that takes place is referred to as
    an allergic reaction.
  • Histamine is the principal chemical mediator of
    an allergic reactions.
  • Histamine causes bronchoconstriction, increased
    intestinal motility, vasodilation, and increased
    vascular permeability.

22
Immediate Hypersensitivity
  • This increased permeability is what causes the
    leakage of fluid from the circulatory system into
    the surrounding tissue.
  • Two classes of histamine receptors
  • 1. H1 cause bronchoconstriction and contraction
    of the intestines
  • 2. H2 cause peripheral vasodilation and secretion
    of gastric acids

23
Immediate Hypersensitivity
  • The goal of histamine release is to limit the
    bodys exposure to the antigen
  • Bronchoconstriction decreases the possibility of
    the antigen entering through the respiratory
    tract
  • Increased gastric acid production helps destroy
    ingested antigen

24
Immediate Hypersensitivity
  • Increased intestinal motility serves to move the
    antigen quickly through the GI system with
    minimal absorption
  • Vasodilation and capillary permeability help
    remove the allergen from the circulation where it
    has the potential to do the most harm

25
Anaphylaxis
  • Usually occurs when a specific allergen is
    injected directly into the circulatory system.
  • The allergen is distributed widely throughout the
    body.
  • It then interacts with both basophils and mast
    cells, resulting in massive dumping of histamine.

26
Anaphylaxis
  • Principle body systems affected by anaphylaxis
    are the skin, respiratory system, cardiovascular
    system, GI system and the nervous system.
  • Histamine causes widespread peripheral
    vasodilation, as well as increased permeability
    of the capillaries.

27
Anaphylaxis
  • Because of this permeability and the resultant
    leakage people actually die from circulatory
    shock.
  • Another substance called slow-reacting substance
    of anaphylaxis is responsible for the spasms of
    the bronchioles

28
Clinical Features of Anaphylaxis
  • SS begin within 30-60 seconds following exposure
  • Severity of reaction is related to the speed of
    onset of symptoms
  • The faster the reaction the greater the severity
  • Itching and hives are the most common
    manifestations

29
Assessment
  • Initial assessment A-B-C
  • Then followed by a detailed assessment

30
Initial Assessment
  • Evaluate the airway, most airway problems are
    associated with laryngeal edema. Take the
    necessary steps to manage the airway, including
    intubation or a surgical airway.
  • Evaluate breathing. Rate and depth. Lung
    sounds. Effort
  • Evaluate circulation. Pulse rate and strength.
    Blood pressure.

31
Initial Assessment
  • Evaluate neurological status A-V-P-U

32
Detailed Assessment
  • Concentrate on the skin, the respiratory system,
    the cardiovascular system and the GI system.
  • Assess for abnormalities and treat as indicated.

33
Management
  • Airway Management
  • Shock position
  • Maintain body temperature

34
Fluid and Pharmacology
  • Fluid replacement is critical in preventing
    hypovolemia and hypotension, initiate at least 1
    IV of NSS.
  • Principle treatment is pharmacological, which
    include
  • 1. Epinephrine
  • 2. Antihistamines
  • 3. Corticosteroids

35
Epinephrine
  • Primary medication for anaphylaxis.
  • Reverses the effects of histamine
  • Dose .3-.5 mg (11,000) SQ
  • In severe cases .3-.5 mg (110,000) IV

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Antihistamines
  • Second-line agents in anaphylaxis.
  • Block additional histamine from binding with the
    receptor sites.
  • Dephenhydramine (Benadryl) is the most frequently
    used antihistamine
  • Dose 25-50 mg slow IV push, or deep IM

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Corticosteroids
  • Adjunct therapy, to help suppress the
    inflammatory response associated with
    anaphylaxis.
  • Most common Methylprednisolone (Solu-Medrol)
  • Dose 125-250 mg, IV or IM

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