granulomatous inflammation
inflammation
[in″flah-ma´shun]The response" >inflammatory response can be provoked by physical, chemical, and biologic agents, including mechanical trauma, exposure to excessive amounts of sunlight, x-rays and radioactive materials, corrosive chemicals, extremes of heat and cold, or by infectious agents such as bacteria, viruses, and other pathogenic microorganisms. Although these infectious agents can produce inflammation, infection and inflammation are not synonymous.
The classic signs of inflammation are heat, redness, swelling, pain, and loss of function. These are manifestations of the physiologic changes that occur during the inflammatory process. The three major components of this process are (1) changes in the caliber of blood vessels and the rate of blood flow through them (hemodynamic changes); (2) increased capillary permeability; and (3) leukocytic exudation.
Hemodynamic changes begin soon after injury and progress at varying rates, according to the extent of injury. They start with dilation of the arterioles and the opening of new capillaries and venular beds in the area. This causes an accelerated flow of blood, accounting for the signs of heat and redness. Next follows increased permeability of the microcirculation, which permits leakage of protein-rich fluid out of small blood vessels and into the extravascular fluid compartment, accounting for the inflammatory edema.
Leukocytic exudation occurs in the following sequence. First, the leukocytes move to the endothelial lining of the small blood vessels (margination) and line the endothelium in a tightly packed formation (pavementing). Eventually, these leukocytes move through the endothelial spaces and escape into the extravascular space (emigration). Once they are outside the blood vessels they are free to move and, by chemotaxis, are drawn to the site of injury. Accumulations of neutrophils and macrophages at the area of inflammation act to neutralize foreign particles by phagocytosis.
Chemical mediators of the inflammatory process include a variety of substances originating in the plasma and the cells of uninjured tissue, and possibly from the damaged tissue. The major kinds of mediators are (1) vasoactive amines, such as histamine and serotonin; (2) plasma endopeptidases that comprise three interrelated systems, the kinin system that produces bradykinin, the complement system that produces proteins that interact with antigen--antibody complexes and mediate immunologic injury and inflammation, and the clotting system that increases vascular permeability and chemotactic activity for the leukocytes; (3) prostaglandins, which can reproduce several aspects of the inflammatory process; (4) neutrophil products; (5) lymphocyte factors; and (6) other mediators, such as substance of anaphylaxis" >slow-reacting substance of anaphylaxis and pyrogen" >endogenous pyrogen.
Hormonal Response. Some hormones, such as cortisol, have an antiinflammatory action that limits inflammation to a local reaction while others are proinflammatory. Thus, the endocrine system has a regulatory effect on the process of inflammation so that it can be balanced and beneficial in the body's attempts to recover from injury.
gran·u·lom·a·tous in·flam·ma·tion
See also: granuloma.
gran·u·lom·a·tous in·flam·ma·tion
(gran'yū-lom'ă-tŭs in'flă-mā'shŭn)See also: granuloma