00 - path-review again crds

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2 common chronic injury cell type changes: smoker:ciliated epithelium - stratified squamous. Cervix - glandular to squamous epithelium
4 systems in cell vulnerable to injury: membrane pump, genetic apparatus, aerobic respiration, structural-enzymatic proteins
4 mediators - cell death: 02 and 02 free radicals, intracellular Ca+, ATP depletion, membrane permeability defects
2 energy mechs affected in cell injury: aerobic respiration (oxydative phosphorylation), glycolysis (anaerobic respiration)
result when each energy mech. injured: aerobic - ATP production lost. glycolysis - depletion of glucogen, byproducts and acidity
byproducts - glycolysis: lactic acid, reduces intercellular pH
4 mechanisms free radical injury: peroxidation of membrane lipids, DNA breaks, X-linking of proteins destroys function, damage to mitochondria.
6 free radical injuries: reperfusion/hypoxia, aging, radiation, 02 toxicity, chemical injury, INFLAMMATION
2 mechanisms chemical injury: direct (chemotherapy), toxic reactive metabolite reaction (in liver)
2 methods necrotic cell removal: denaturation, enzymatic digestion
nuclear shrinkage: pyknosis
many cytoplasmic proteins denature - result?: cytoplasmic eosinophilia (incr. staining)
markers of infarct in brain: cyst, tissue debris, fluid, inflamm. cells, bacteria
normally seen in caseous necrosis: granulomatous inflammatory border with giant cells, epitheloid histiocytes
2 conditions assoc. w apoptosis: viral infections, radiation injury
fast necrosis dev. in organs with?: high met. rate (int. mucosa), cytolytic enzymes(pancreas), vital organs - high O2 (brain, heart, lungs)
physiologic hyperplasia 2 types, examples: compensatory (liver regen) hormonal (breast/uterus - pregnancy)
inflammation mediators: chemicals derived from host
inflammatory changes occur where: terminal vascular bed, blood, conn. tissue
main cells involved in inflammation: monocytes, neutrophils, macrophages
purpose of inflammation: eliminate injurious agent and initiate repair, restoring continuity if not function
characteristics acute inflam.: short duration, fluid exudate, plasma proteins (edema), neutrophil and leukocytes to tissue, then macrophages.
chronic inflam. char.: long duration, lymphocytes, plasma cells, macrophages, vascularization, fibroblasts.
following vascular chgs: blood tissue barrier chgs - widen endothelial gaps - histamine reaction - edema
swelling of inflammation bc of: capillary leakage - blood plasma and leukocytes to tissue
inflammatory exudate: cellular debris, plasma proteins, fluid
cellular events of inflamm: margination, pavementing w/in vessel wall, emigration from vessel to interstitium, chemotaxis-site, phagocytosis
inflamm cell types: Neutrophils first 24 hrs, then monocytes 24-48 hrs
5 host derived main mediators inflammation: vasoactive amines, plasma proteases, cytokines, adhesion molecules, arachiodonic acid metabolites
2 vasoactive amines: histamine, seratonin
purpose, origin vasoactive amines: vascular chgs inflammation
what produces vasoactive amines: mast cells, platelets
3 systems of plasma proteases: kinin, clotting, complement systems
cytokine, peptide source: macrophages
cytokine purposes: inflammatory mediators (IL1, TNF), activate polymorphs, macrophages to incr. killing, incr. vasc. permeability
ICAM1 def: cytokine - initiated production by endothelium
ICAM1 purpose: facilitates inflam cell binding to vessel endothelium
AA metabolites are?: arachiodonic acid - degraded phospholipids of cell membranes
AAâ€™s cause?: inflammation - vasodilation, chemotaxis, increase vasc. permeability
aspirin function: blocks prostaglandin synthesis
prostaglandin function: pathogenesis of pain and fever - hyperalgesic
steroid function: blocks prostaglandin, leukotrines
leukotrines: chemotactic, activate neutrophil aggregation, adhesion
chronic inflam cells: MNL, lymphocytes, plasma cells
main processes, chronic inflam: healing and repair and tissue destruction cycle
define granuloma: form of chronic inflam w/ lots of histiocytes, giant cells, LANGHANS cells
granuloma forms bc: bacterial or fungal infection, foreign materials
3 examples persistent infections causing chronic inflam: tuberculosis, syphilis, fungi
2 autoimmune disorders assoc w chronic nflamm: rheumatoid arthritis, thyroiditis
chronic inflammation: granuloma histology: activated macrophages, large squamous cell epitheloid appearance
pyogenic organism example: staphlococcus
3 systemic effects inflam: fever, elevated WBC count, neutrophylia, lymphocytosis
exudate with RBCs: hemorrhagic
inflammation is: response of VASCULARIZED tissue to injury
inflammation designed to: bring plasma proteins to site of injury in fastest poss.time
main chgs in inflammation: blood flow changes, formation of fluid and cellular exudates
3 functions fluid exudate: bring plasma proteins, dilute toxins, loosen conn. tissue to allow diffus-migration of cells to injury site
cell type assoc w/ parasitic infection: EOSINOPHILS
PMN: polymorphonuclear leukocytes: NEUTROPHILS
chemical attractants at injury site: host factors - plasma proteins, and infectious agents
protein expressed on infectious agent: OPSONIN - labels agent for phagocytic destruction
3 conditions lysosomal enzymes released inadvert. during inflamm.: during phagocytosis, trying to digest on flat surface (frustrated phagocytosis), cytotoxic release
system: removes AgAb complexes in spleen, liver, bone marrow: reticulo-endothelial system
tissue destruction from cytotoxic release: GOUT
4 agents of chronic inflammation: microorganisms, foreign bodies, toxins, auto-immune reactions
chronic inflam main events: cellular infiltrate, tissue destruction, repair by scar
granuloma: chronic infection, macrophages differentiate - epitheloid cells, cluster
4 disorders assoc w granulomatous inflam: tuberculosis, syphilis, leprosy, crohns
2 modes of destruction AbAg complex: direct lysis, complement activation
cells with FC receptors: macrophages, NK cells, eosinophils, neutrophils
direct lysis of AgAb complexes how: cell with FC receptor engages FC fragment, releases lysosomes - destroys complex
2 basics of complement system: hydrolytic enzymes directly lyse infectious agents or chemical mediators initiate acute inflammation, attract neutrophils to phagocytose
2 main classes Tlymphocytes: CD4s assist others, CD8s kill directly
3 types of antigen presenting cells: dendritic(skin), macrophages, langerhans
distinguish self from non-self: major histocompatibility protein (MHP)
two types of MHP & locations: Class I - all cells, Class II - ONLY antigen-pres. cells
MHC protein recognition: CD4s recognize class II, CD8s only class I
cytokine, source activates Bcells: interleukin produced by Type2 CD4s
cytokine source - activates macrophages: Interferon Gamma, produced by Type1 CD4s
macrophage activation results: increased size, lysosomal enzymes, ability to digest/kill, secretion of growth factors(endothelial cells, fibroblasts), hydrolytic enzymes
macrophages kill what and how: TB, parasites, fungi, tumour cells, organ trans. direct lysis or phagocytosis
CD8s kill antigens how: proteolytic enzymes -- osmotic lysis
CD8s mostly kill: virus infected cells, tumour cells, organ trans (non-self)
stimulates scar repair in chronic inflam: activated macrophages secrete growth factors
Type I hypersensitivity mediated by Ig?: IgE
2 cell types central to Type I hypersensitivity: mast cells and basophils
mast cells - what and where: from marrow, wide dist. in body, esp. around nerves, vessels, subepithelial where Type I reacts occur
Mast cells/basophils activated how?: crosslinking IgE receptors
diff btwn mast cells and basophils: basophils in blood, small numbers
type of helper cell assoc. w Type I hypersens: Type 2 CD4s
What is produced by Type 2 CD4s: Interleukins 4 and 5
genetic predisposition to type 1 hypersensitivity called: atopic disease (allergy) IgE diseases
other IgE mediated diseases: asthma, dermatitis, gastrointestinal food allergy
released upon exposure to allergen?: histamines, leukotrines
SRS-A: slow-reacting substance of anaphylaxis
ECF-A: eosinophil chemotactic factor of anaphylaxis
type 1 mediators act on what?: vessels, sm. musc, secretory glands
Type 1 mediators cause what?: edema, cellular infiltrate, clinical features of allergy
IL4 is what: IgE switch factor, produced by Th2, activates Bcells
HDN example of what type hypersensitivity: Type II
produced in mother in HDN following second child?: IgG antibodies, which cross placenta
problem with IgG crossing placenta?: attack fetal erythrocytes - hemolytic anemia
natural antibodies reactive with AB blood groups: IgM - canâ€™t cross placenta
2 examples of Type II hypersensitivity: organ rejection, myasthenia gravis
define RA (rheumatoid arthritis): chronic systemic inflamm.autoimmune disease - joints
what histocompatibility complex assoc. with rheum arth: HLA-D4, and HLA- DR4
what are rheumatoid factors: immunoglobulins specific for FC fragment of IgG - an antibody against ones own antibody Immunoglobulin
2 examples Type III hypersensitivity: serum sickness, arthus phenomenon
inflammatory factors associated with rheumatoid arthritis: histamine release, cytokine production (neutrophils, monocytes), white cells to synovial space
define pannus: vascular mass of lymphocytes around area of necrosis where bone and cartilage have degraded
cause of tuberculosis: mycobacterium tuberculosis (or mycobac.T.bovine)
TB inflammation type: focal granulomatous with central caseous necrosis
tuberculosis vaccine: BCG - bacille Camette Geurin
Test for TB: PPD purified protein derivative
endogenous infection: from interior - ones own flora attacking system
how well an organism can produce symptoms: pathogenicity
how severe symptoms are that are prod. by organism: virulence
poisons secreted by bacteria: exotoxins
examples of 3 exotoxins: diptheria, tetanus, enterotoxin
diptheria pathology: sore throat - death. destroys epithelium and mucous memb, leaving fibrous necrotic tissue, esp. in throat.
tetanus pathology: neurotoxin, interrupts motor nerve signals, causes spasm
enterotoxin: food poisoning - staphylococcus
endotoxins released when: when bacteria destroyed
3 bacterial metabolic examples - contrib. to disease: hyaluronidase, streptokinase, coagulase
metabolite - dissolves conn. tissue: hyaluronidase
metabolite - demineralizes tooth enamel: plaque acid
metabolite - breaks down fibrin: streptokinase
metabolite, breaks down DNA: streptoadornase
3 examples where foreign organisms multiply - prod. inflammation: shigellosis(dysentry), Salmonella Typhi (Typhoid Fever), Spirochete(necrotizing ulcerative gingivitis)
organism in bloodstream from infection called: bacteremia
another name for blood poisoning: sepsis
3 main factors - infection resistance: patient factors(immunity, nutrition, biochem, secretions), organism virulence, site of infection, level of blood supp.
atrophy caused by plasma protein deposition in tissue: amyloidosis
autoimmune disease where antibodies clog acetylcholine receptors: myasthenia gravis - causes generalized muscular weakness
chronic rheumatic fever can lead to risk of: infective endocarditis - heart valve deformity, incompetency
asthma: mast cell histamine release-mucous hypersecretion-more goblet cells - bsmt. memb. thickening-sm. vessel constriction
5 HIV related infections: fungus in meninges, cytomegalovirus - gigantic langhans cell, lung yeast infection, carposis sarcoma, lymphoma
proteins that regulate cell cycle: cyclins
continuously regenerating cells: labile, from stem cells, eg: marrow, epithelia
cells which can but donâ€™t normally divide: stable- divide if injured, eg: liver, fibroblasts, sm. musc
cycle stage cells at: G0 - resting(quiescent)
matrix btwn cells - origin, composition: interstitial matrix:fibroblasts-amorphous gel, collagen, elastin, proteoglycan, glycoproteins
bsmt membrane composition: platelike mesh, type IV collagen, glycoproteins
extracellular matrix active in tissue repair how: mech support, determine orientation, control regulate growth and differentiation, pres: regulatory molecules
collagen - describe: fibrous structure proteins from fibroblasts Xlink by VitC in triple helix
source of cell growth factors: activated macrophages
3 examples growth factors: epidermal, fibroblast, cytokines
basic substrate extracell. matrix forms on and timing: granulation tissue at abt. 3 days
char. of first intention healing: more epithelial regen than fibrosis
1st intention - process: neutrophils, mitosis; epithelial migration, new bsmt memb.; macrophages, granulation tissue, collagen fibres; epidermis - collagen fibre bridge
char. of 2nd intention healing: fibrosis rather than epithelial regen
example 2nd intention: ulcer (eg Diabetes)
process 2nd intention: big inflamm. reaction, lots of granulation tissue, wound CONTRACTS
3RD intention: delayed closure to allow some natural disinfection
exuberant collagen production in 1st intention wound: keloid
types of factors effecting healing: local(infection, foreign body, blood supp, temp.) Systemic(immunosup.,vasc.disease, nutrition, alcohol)
key characteristics neoplasia: autonomous cell division persisting post cessation of initiating stimuli
2 components of tumours: parenchyma (prolif. neoplastic cells) stroma (conn. tiss & vessels)
benign tumour of epithelial origin: papilloma (eg squamous or transitional)
malignant tumour of epithelium: carcinoma
benign tumour of glandular origin: adenoma
malignant tumour of glandular origin: adenocarcinoma
age effected carcinoma versus sarcoma: carcinoma 55+, sarcoma usually children
3 categories of hereditary cancers: mutant gene inheritance (autosomal dominant - eg:retinoblastoma), familial (uncommon CA type, prevolent in family), autosomal recessive (need both parental alleles)
well differentiated versus poorly differentiated: Grade I (less agress) - Grade III(v.aggress)
highly UNDIFFERENTIATED tumour cells called: ANAPLASIA
variation in size and shape of tumour cells called: pleomorphism
tumour cell nuclei with lots of DNA - dark staining: hyperchromasia
6 morphologic chgs in anaplasia: pleomorphism, hyperchromasia, lg nuclei, incr. mitosis, giant cells, disturbed orientation
disorderly growth type that doesnâ€™t nec. lead to CA: dysplasia
type of benign tumour not well defined: hemangioma (tum. of blood vessels)
spread through blood: hematogenous - usually sarcomas
tumour (benign or malig) effects depend on what 6?: location, impingement; functional activity; bleeding; 2ndary infections; ulcerations; initiation of acute symptoms: rupture or infarct
example of local effect of benign tumour: adenoma of pituitary destroying pit. function, causing endocrinopathy
hormonal effect example - benign tumour: pancreatic islet tumour, overproduction of insulin, causes deadly hypoglycemia
wasting syndrome associated with cancer: cachexia - usually a result of cytokines
example of substance imbalance assoc. w cancer: cushings syndrome - lung or pancreatic CA producing ACTH
histologic features, squam. cell CA: sheets or solid nests â€œmosaicâ€ pattern, intercellular bridges, sometimes keratinized
term: sm. muscle: leiomyo
examples of acquired pre-neoplastic disorders: chronic wound - cell regeneration, so potential for cancer; smokers - chronic bronchial dysplasia; chronic gastritis (pernicious enemia) - all can become malignant
risk factor for oral CA: leukoplakia - incr. risk squamous cell CA
risk for colorectal CA: villous adenoma (glandular)
basis of carcinogenesis: non-lethal genetic damage (chem, radiation, viral)
targets of genetic dmg in cells: genes: promote or inhibit growth, or apop.regulators
growth promoting gene: proto-oncogene
oncogene is what: a mutant allele of a proto-oncogene
oncogene does what: promotes autonomous cell growth
example tumour supressor gene: Rb gene - usually prevents cell cycle which otherwise causes retinoblastoma
Most common genetic disorder in cancer: TP53 gene - regulates apoptosis, senses DNA damage and initiates repair
HER2 gene does what: protooncogene - produces growth factor. commonly damaged in 20 - 30% of breast cancer cases.
Type I hypersensitivity: mast cells, basophiles release vasoactive amines, provoke an immediate (anaphylactic) response - eg food allergy, hay fever - IgE antibodies
Type II hypersensitivity: mediated by humoral antibodies which predispose cells to phagocytosis, lysis - complement mediated cytotoxicity - (hemolytic disease of newborn, transfusion reactions) - IgG antibodies
Type III hypersensitivity: Immune complex mediated (rheumatoid arthritis, serum sickness) --acute inflammatory response initiated, causing cell injury (in Rheum - fc fragment of IgG antibody)
type IV hypersensitivity: cell mediated (delayed hypersensitivity reaction) TCells rather than antibodies. eg tuberculosis.
what might accompany a type II transfusion reaction: hemolysis
what is the last stage in wound healing?: remodelling
what type of cancer is xeroderma pigmentosum: autosomal recessive CA-probs w genetic repair mechs
in what vessels does the exudate occur: post-capillary venules
what percentage of patients have paraneoplastic syndromes associated with cancer: 10%

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