AUTOIMMUNITY

Question 1

is a problem of self/non-self discrimination

Answer 1

Autoimmunity

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Breakdown of the immune system’s ability to discriminate between self and nonself

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Autoimmunity

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• A varied group of chronic illnesses that involves almost every human organ system

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• Seen when demonstrable immunoglobulins of cytotoxic T cells display specificity for self antigen that contribute to pathogenesis of a cell disorder

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Autoimmune disorder

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• Characterized by persistent activation of immunologic effector mechanism

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Autoimmune disorder

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Antigens that do not normally circulate the blood

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Altered antigens that arise because of chemical, physical or biological processes.

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A foreign Antigen that is shared with self antigen and tissue component

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Mutation of immunocompetent cells

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Loss of immunoregulatory function of T lymphocyte subset

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• The autoimmune response are directed against antigens present only in a particular organ

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ORGAN SPECIFIC AUTOIMMUNE DISEASE

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• The autoantibodies bind to self antigen to the organ cells and lead to the destruction of cells

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ORGAN SPECIFIC AUTOIMMUNE DISEASE

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• the autoantibodies bind to self-antigens on cells and lead to either overstimulation of the cell or suppression of the normal functioning of the cells

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ORGAN SPECIFIC AUTOIMMUNE DISEASE

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• auto antibodies to self- RBCs are formed

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AUTOIMMUNE HEMOLYTIC ANEMIA

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• The autoantibodies bind to antigens on RBCs and lead to the lysis of RBCs (due to complement activation)

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AUTOIMMUNE HEMOLYTIC ANEMIA

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• Maybe be caused by drugs (cephalosporins, dapsone)

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AUTOIMMUNE HEMOLYTIC ANEMIA

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o Acts as haptens (incomplete antigen; needs a carrier RBC)

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cephalosporins, dapsone

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• The drug-RBC antigen complex induces the immune system to produce antibodies.

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AUTOIMMUNE HEMOLYTIC ANEMIA

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• Lead to the activation of complement

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Other causes of AIHA

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• Antibodies reactive to body temperature (37°C)

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Warm autoimmune hemolytic anemia

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• IgG and complement coats the RBC

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Warm autoimmune hemolytic anemia

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• Cold reactive IgM reacts with RBC

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Cold autoimmune hemolytic anemia

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• Room temperature (32°C)

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Cold autoimmune hemolytic anemia

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• IgG protein reacts with RBC in colder parts of the body producing complement component binding

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Paroxysmal cold hemoglobinuria

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• a chronic disease resulting from the non-absorption of vitamin B12 (essential for RBC development)

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PERNICIOUS ANEMIA

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• Results to inability to secrete intrinsic factor (IF)

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PERNICIOUS ANEMIA

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most common in late adult life

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PERNICIOUS ANEMIA

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• The basic abnormality of the disease is severe atrophic gastritis

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PERNICIOUS ANEMIA

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Presence of Intrinsic Factor-blocking antibody is diagnostic of PA

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PERNICIOUS ANEMIA

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• Autoantibodies to platelets bind to many of the major platelet membrane glycoproteins

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IDIOPATHIC THROMBOCYTOPENIC PURPURA

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are the major antigens with which the platelet autoantibodies bind

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• Platelet GpIIb /IIIa and GPIb/IX

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• The antibody coated platelets are destroyed

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IDIOPATHIC THROMBOCYTOPENIC PURPURA

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• The number of platelets drastically decrease

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IDIOPATHIC THROMBOCYTOPENIC PURPURA

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• Classic symptoms: petechiae, bruising and bleeding after minor trauma

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IDIOPATHIC THROMBOCYTOPENIC PURPURA

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• Autoantibodies to certain antigens on the membrane of kidney glomeruli and lung alveoli are formed

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GOODPASTEUR SYNDROME

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• Complement activation is evident after autoantibody bind membrane antigen

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GOODPASTEUR SYNDROME

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• This may result in an inflammatory reactions in lungs and kidney

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GOODPASTEUR SYNDROME

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• The kidneys may be damage or patients may suffer from pulmonary hemorrhage

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GOODPASTEUR SYNDROME

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• Bleeding in the lungs are seen

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GOODPASTEUR SYNDROME

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• Chronic autoimmune thyroiditis

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HASHIMOTO’S THYROIDITIS

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• Autoantibodies against many thyroid proteins and T cells are formed

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HASHIMOTO’S THYROIDITIS

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• Clinical picture:

o Goiter
o Hypothyroidism
o Thyroid autoantibodies
o Hyperplasia

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HASHIMOTO’S THYROIDITIS

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Symptoms of hypothyroiditis

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Dry skin, decrease sweating, puffy face, edematous eyelids, weight gain (decrease in T3 and T4 slows down metabolism) and brittle hair

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• Autoantibodies on thyroid stimulating hormone (TSH) receptors bind to TSH receptors on thyroid

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GRAVE’S DISEASE

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• Leads to overproduction of thyroid hormones

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GRAVE’S DISEASE

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• May produce Hyperthyroidism

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GRAVE’S DISEASE

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GRAVE’S DISEASE
• Causes

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Grave ophthalmopathy and Grave’s dermopathy

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• A condition caused by autoimmune response against the beta cells in pancreas resulting in destruction of beta cells

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INSULIN DEPENDENT DIABETES MELLITUS (IDDM)

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• Self-reactive cytotoxic T cells (CLTs) against the beta cells migrate to areas of beta cells in pancreas

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INSULIN DEPENDENT DIABETES MELLITUS (IDDM)

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• Autoantibodies to beta cells may activate the complement cascade and destroy beta cells.

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INSULIN DEPENDENT DIABETES MELLITUS (IDDM)

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INSULIN DEPENDENT DIABETES MELLITUS (IDDM) HLA

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• HLA DR3, DR4, DQ2, and DQ8

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• Occurs in the neuromuscular junctions (site where the muscle and the nerve connects)

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MYASTHENIA GRAVIS

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• Binding of autoantibodies to acetylcholine receptors on the muscle cells

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MYASTHENIA GRAVIS

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• Leads to breakdown in the normal communication between nerves and muscles

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MYASTHENIA GRAVIS

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• Causes breakdown and fatigue of any muscle

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MYASTHENIA GRAVIS

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• The autoimmune responses are directed against self antigens present in many organs and tissues of the body resulting in widespread tissue damage to the host.

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ORGAN NONSPECIFIC AUTOIMMUNE DISEASE

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• Most prevalent autoimmune disease in developed countries.

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SYSTEMATIC LUPUS ERYTHEMATOSUS

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• Patients develop autoantibodies to a number of self-antigens

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SYSTEMATIC LUPUS ERYTHEMATOSUS

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• The most common autoantibody found in the serum of SLE patients is the

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autoantibody to double stranded DNA (dsDNA)

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• Multiorgan system disease

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SYSTEMATIC LUPUS ERYTHEMATOSUS

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• Anilbodies may belong to lgG or IgM

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SYSTEMATIC LUPUS ERYTHEMATOSUS

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• Immune complex deposition and subsequent complement activation leads to the tissue destruction.

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SYSTEMATIC LUPUS ERYTHEMATOSUS

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• Serum level of C3 and C4 are reported/increased

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SYSTEMATIC LUPUS ERYTHEMATOSUS

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• Malar rash (butterfly rush)

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SYSTEMATIC LUPUS ERYTHEMATOSUS

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• Seen in 46-65 of SLE patients

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Malar rash (butterfly rush)

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• Red or purplish and mild and scaly

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SYSTEMATIC LUPUS ERYTHEMATOSUS

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SYSTEMATIC LUPUS ERYTHEMATOSUS HLA

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• HLA-DR3

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INTERACTION OF AUTOANTIBODIES WITH SPECIFIC SELF-ANTIGEN

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• A chronic systematic inflammatory disease primarily involving the joints

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RHEUMATOID ARTHRITIS

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• The serum and synovial fluid contain

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rheumatoid factor

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• Rheumatoid factors are synthesized within

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lymphoid infiltrates

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activates the complement

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• Rheumatoid factor-immunoglobulin complex

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• Pain occurs in small joint and later in large joints

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RHEUMATOID ARTHRITIS

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• Advance cases –

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joint deformities

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• Invasive pannus (inflammation) consists of macrophages, mast cells and fibroblasts

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RHEUMATOID ARTHRITIS

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• Synovial fluid contains organized lymphoid tissues (CD4+ T Cell, B cells and macrophages) – same w/ formation of tumor

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RHEUMATOID ARTHRITIS

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• Increase neutrophil count in synovial fluid - Differential count

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RHEUMATOID ARTHRITIS

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• An autoimmune disease of central nervous system

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MULTIPLE SCLEROSIS

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• involves auto reactive T cells

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MULTIPLE SCLEROSIS

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• Self-reactive T cells are present in the periphery of the host

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MULTIPLE SCLEROSIS

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• Injuries may lead the brain exposed to self-reactive T cells

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MULTIPLE SCLEROSIS

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• Self reactive T cells become activated and attack the brain tissues

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MULTIPLE SCLEROSIS

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• Infiltrates of T cells may cause destruction of myelin sheath

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MULTIPLE SCLEROSIS

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• Destruction of myelin sheath leads to numerous neurological dysfunctions

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MULTIPLE SCLEROSIS

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• a chronic, progressive, inflammatory disease of unknown etiology.

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ANKYLOSING SPONDYLITIS

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• The disease primarily affects the sacroiliac joints, vertebral joints, and large peripheral

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ANKYLOSING SPONDYLITIS

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• Can cause some of the vertebrae in the spine to fuse

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ANKYLOSING SPONDYLITIS

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• Affects men more often than women

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ANKYLOSING SPONDYLITIS

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ANKYLOSING SPONDYLITIS
• Early signs and symptoms

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o stiffness in vour lower back and hips
o neck pain and fatigue

Question 91

ANKYLOSING SPONDYLITIS
• The areas most commonly affected are:

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o Sacroiliac joint
o The vertebrae in your lower back
o Entheses
o The cartilage
o between your breastbone and ribs

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ANKYLOSING SPONDYLITIS HLA

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• HLA-B27

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HLA DR3, DR4, DQ2, and DQ8

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IDDM

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HLA-DR3

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SLE

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HLA-B27

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ANKYLOSING SPONDYLITIS

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• vertebral joints

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ANKYLOSING SPONDYLITIS

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• neuromuscular junctions

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MYASTHENIA GRAVIS

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• Brain tissue • Myelin sheath

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MULTIPLE SCLEROSIS

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refers to undesirable immune reactions produced by the normal immune system.

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• Hypersensitivity (Immunological reaction)

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: four types; based on the mechanisms involved and time taken for the reaction

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• Hypersensitivity reactions

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Classification or Immumologic Reactions (Gell and Coombs)

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IgE (Rarely IgG4)

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I

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Immediate

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I

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IgG, IgM (Cell-Ag)

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II

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Cytotoxic

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II

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Ag-Ab complexes

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III

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Immune complex

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III

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T cells

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IV

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Cell-mediated

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IV

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Commonly called Allergy

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TYPE 1 (IMMEDIATE) HYPERSENSITIVITY

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Mediated by IgE antibodies produced by plasma cells in response to stimulation of Th2 cells by an Antigens

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TYPE 1 (IMMEDIATE) HYPERSENSITIVITY

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Exposure maybe ingested, inhalation, injection, or direct contact

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TYPE 1 (IMMEDIATE) HYPERSENSITIVITY

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Can be systemic or localized to a specific target tissue or organ

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TYPE 1 (IMMEDIATE) HYPERSENSITIVITY