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A comprehensive overview of hypersensitivity reactions, covering their types, mechanisms, and clinical examples. It delves into the four distinct types of hypersensitivity reactions: type i (ige-mediated), type ii (cytotoxic), type iii (immune complex-mediated), and type iv (cell-mediated). The underlying mechanisms of each type, including the role of ige, antibodies, and t-lymphocytes. It also provides numerous clinical examples of each type, such as anaphylaxis, allergic asthma, hemolytic anemia, and contact dermatitis. Valuable for students of immunology, medicine, and related fields.
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Endotoxins released by blood-borne bacteria cause the release of vasoactive enzymes that increase the permeability of blood vessels. Bacteria injure cells by producing exotoxins or endotoxins. Exotoxins are enzymes that can damage the plasma membranes of host cells or can inactivate enzymes critical to protein synthesis, and endotoxins activate the inflammatory response and produce fever. Gram-negative microbes produce an endotoxin (lipopolysaccharide [LPS]) that is a structural portion of the cell wall and is released during growth, lysis, or destruction of the bacteria or during treatment with antibiotics. Therefore, antibiotics cannot prevent the toxic effects of endotoxin. Bacteria that produce endotoxins are called pyrogenic bacteria because they activate the inflammatory process and produce fever. Septicemia is the proliferation of bacteria in the blood. Endotoxins released by blood- borne bacteria cause the release of vasoactive enzymes that increase the permeability of blood vessels. Leakage from vessels causes hypotension that can result in septic shock. Bacteremia occurs when bacteria are present in the blood. Gram-negative sepsis (sepsis or septicemia) occurs when bacteria are growing in the blood and release large amounts of endotoxin, when can cause endotoxic shock with up to 50% mortality. Released endotoxin, as well as other bacterial products, reacts with pattern recognition receptors (PRRs) and induces the overproduction of proinflammatory cytokines, particularly tumor necrosis factor- alpha (TNF-a), interleukin-1 (IL-1) and interleukin -6 (IL-6) which may secondarily be immunosuppressive. Endotoxin also is a potent activator of the complement and clotting system, leading to a degree of capillary permeability sufficient to permit escape of large volumes of plasma into surrounding tissue, contributing to hypotension and in severe cases, cardiovascular shock. Activation of the coagulation cascade leads to the syndrome of dissemination (or diffuse0 intravascular coagulation. Virulence : Capacity of a pathogen to cause severe disease (e.g., measles virus is a low virulence; rabies and Ebola viruses are highly virulent). https://www.youtube.com/watch?v= 9 G1OELPrivU
Attenuated vaccines: alive, but less infectious. Live attenuated vaccines are created by weakening infectious organisms that can still replicate and induce protective immune responses without causing disease in the host. Vaccination with the live but attenuated organism generates an immune response that protects the vaccinated person against severe disease or even infection. Available since the 1950s, live attenuated vaccines (LAV)
and literally attack normal body tissues. This type of reaction is known as an autoimmune response. Both hypersensitivity and autoimmune responses can damage cells, tissues, or organs and have serious consequences.
Hypersensitivity is an immune response misdirected against the host’s own tissues ( autoimmunity) or directed against beneficial foreign tissues, such as transfusions or transplants (alloimmunity); or it can be exaggerated responses against environmental antigens (allergy). NEED TO figure this out and break it down more Allergy means a hypersensitivity to environmental antigens. Immunity is the protective response to antigens. The four distinct types of hypersensitivity reactions:
- Type 1 IgE allergic reactions o Type I (IgE-mediated) reactions occur after antigen reacts with IgE on mast cells, leading to mast cell degranulation and the release of histamine and other inflammatory substances. o Allergens are antigens that cause allergic responses, usually a type I hypersensitivity response. Some reactions are confined to the areas exposed to the antigen, such as the mucous membranes of the nose and eyes, causing symptoms of rhinorrhea, sneezing, and itchy, red, and watery eyes. Other reactions may involve all blood vessels and bronchiolar smooth muscle, causing widespread vasodi-lation, decreased cardiac output, and severe bronchoconstric-tion; this condition is known as **anaphylaxis.
Type I (rapid) hypersensitivity, sometimes called atopic allergy, is the most common type of hypersensitivity. This type results from increased production of the immunoglobulin E (IgE) antibody class. An acute inflammatory reaction occurs when IgE responds to an otherwise harmless antigen (e.g., pollen) and causes the release of histamine and other vasoactive amines from basophils, eosinophils and mast cells. ******Clinical examples of type I reactions include systemic anaphylaxis, allergic asthma, and atopic (genetic tendency) allergies such as hay fever, allergic rhinitis, and allergies to specific allergens such as latex, bee venom, peanuts, iodine, shellfish, drugs, and thousands of other environmental antigens. TYPE II: CYTOTOXIC REACTIONS OVERVIEW In a type II (cytotoxic) reaction, the body makes special au-toantibodies directed against self-cells or tissues that have some form of foreign protein attached to them Clinical examples of type II reactions include Coombs'-positive hemolytic anemias, thrombocy-topenic purpura, hemolytic transfusion reactions (when an individual receives the wrong blood type during a transfu- sion), hemolytic disease of the newborn, Goodpasture's syndrome, and drug-induced hemolytic anemia
- Type IV cell-mediated reactions Type IV ( cell-mediated) reactions are caused by specifically sensitized T – lymphocytes cells, which either kill target cells directly or release lymphokines that activate other cells, such as macrophages. Anemia Lymphoede ma SLE Antigen s Cell mediated Unlike with a type I hypersensitivity reaction, which occurs immediately, a type IV response typically occurs hours to days after exposure. Other clinical examples of type IV hypersensitivity reactions include contact dermatitis, poison ivy skin rashes, a local response to insect stings, allograft (tissue transplant) rejections, and granulomatous diseases in which the antigen is unknown (e.g., sarcoidosis).
Types of Immunity and associated labs, IgE, Cell-mediated The most common infections in individuals with defects of cell-mediated immune response are fungal and viral, whereas infections in individuals with defects of the humoral immune response or complement function are primarily bacterial. Most type I reactions are allergic. They are mediated by IgE. Most occur against environmental antigens and do contribute to some autoimmune diseases. The most Potent mediator of IgE is Histamine. Histamine contracts bronchial smooth muscle, and this causes bronchoconstriction. There is also increased vascular permeability, edema, and vasodilation.
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number of CD4+T cells.
Melanoma – can that is formed in the skin pigment cell Ultraviolet radiation from sunlight causes basal cell and squamous cell carcinomas and increases the risk for malignant melanoma Adenocarcinoma – small intestine The disease may develop in
Tumors that arise from or form ductal or glandular structures Granular tissue adenocarcinoma uncommon Sex men than in women. Age most often found in people in their 60s and 70s. Race/ethnicity African Americans are affected more often by these cancers than people of other races/ethnicities. Smoking and alcohol use Diet diets high in red meat and salted or smoked foods Celiac disease Colon cancer Crohn's disease Inherited syndromes Familial adenomatous polyposis (FAP) In this condition, many (often hundreds) of polyps develop in the colon and rectum. Cystic fibrosis (CF) many different places, but it is most prevalent in the following cancer types: Lung cancer: Non- small cell lung cancer accounts for 80 percent of lung cancers, and adenocarcinoma is the most common type. Prostate cancer: Cancer that forms in the prostate gland is typically an adenocarcinoma, which accounts for 99 percent of all prostate cancers. Pancreatic cancer: Exocrine pancreatic cancer tumors are called adenocarcinomas. They form in the pancreas ducts. Esophageal cancer: Cancer that forms in the glandular cells of the esophagus is known as adenocarcinoma. This is the most common type of esophageal cancer. Colorectal cancer: Cancer that develops in the intestinal gland cells that line the inside of the colon and/or rectum is an adenocarcinoma. It makes up 95 percent of colon and rectal cancers. squamous cell – Ultraviolet light Tobacco smoking is responsible for small cell and squamous cell carcinoma of the lungs. It also causes damage to blood vessels and a number of other diseases. It causes 4- million deaths a year worldwide. It is responsible for 30% of cancer deaths. Neoplasm – abnormal and excessive growth, called neoplasia, of tissue. The growth of a neoplasm is uncoordinated with that of the normal surrounding tissue, and it persists growing abnormally, even if the original trigger is removed. This abnormal growth usually (but not always) forms a mass. The terms benign and malignant correlate to the course of the neoplasm.
Leukemia is a cancer of blood- forming cells. Smoking, xrays, radiation, benzene, genetics Most common in Children Human papillomavirus (HPV) has been linked to cervical, anogenital, and penile cancers. Most common Sexually transmitted disease Direct skin contact Causes warts that may lead to cancer Cervical Cancer Human papillomavirus type 16 & 18