Flashcards - Cell Adaptation and Injury - Final Format PDF
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These flashcards provide a concise overview of various aspects of cell biology, focusing on cell adaptation, apoptosis, necrosis, and types of necrosis. Key topics include cell alterations, mechanisms of cell death, and the outcomes of various pathological processes. The content likely originated from educational materials or class notes, and not from a formal past paper.
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Cell Adaptation – Low yield Apoptosis Definition – Reversible changes in Number, Size, Phenotype, Metabolism, Function of cells in Definition – ATP-dependent programed cell death response to changes in environment...
Cell Adaptation – Low yield Apoptosis Definition – Reversible changes in Number, Size, Phenotype, Metabolism, Function of cells in Definition – ATP-dependent programed cell death response to changes in environment o No loss of membrane integrity, cellular contents do not leak out, no inflammatory reaction o Defective apoptosis seen in cancer o Increase/Decrease in cellular activity Phases – Priming, Execution, Degradation, Phagocytosis o Altered morphology Mechanism – Activation of Caspases pathway Physiologic – Response to normal hormonal stimulation o Intrinsic (mitochondrial)– internal stimulation. Major pathway DNA damage/ Misfolded proteins accumulation - ↑ p53 and mitochondrial Ca2+ leakage Pathologic – Response to stress ↓ hormonal stimulation – as seen in embryogenesis, menopause Mechanisms o Extrinsic – external stimulation o Hypertrophy TNF Receptor Family (TNF-R and FAS) o Hyperplasia Immune cells - Cytotoxic T Cells Morphologic appearance o Atrophy o Cell shrinkage, Eosinophilic cytoplasm o Metaplasia o Chromatin condensation followed by fragmentation o Anaplasia o Membrane blebing and phagocytosis of apoptotic bodies by macrophages o Aplasia Physiologic examples o Hormonal stimulation- menstrual cycle, thymus in adults. Intrinsic o Inflammatory cells that accomplished their purpose (after recovering). Extrinsic Pathologic examples o DNA damage (radiation, cytotoxic drugs, temperature, hypoxia). Intrinsic o Cell injury due to viral infection. Extrinsic Cell Injury – Low yield Cell injury- reversible and irreversible – Low yield Definition – Stressful stimuli exceeds ability to adapt Reversible – Early stages / Mild injuries – Morphology is reversible if injurious stimuli removed Outcome – Depends on type of injury, duration, pattern, intensity, severity, type of cell o ↓ATP and cell swelling – Inability to maintain ionic and fluid homeostasis affected and cell’s ability to adapt First evidence of injury Mechanisms o Detachment of ribosomes and ↓ protein synthesis o ATP depletion o Mitochondrial swelling o Mitochondrial damage o Switch go glycolysis →↓ pH o Membrane damage (inability to maintain ion and fluid homeostasis) o Specializations loss (microvilli, cilia) o ROS o Fatty change (Steatosis) [seen in cells participating in fat metabolism- e.g. liver] Causes o Hypoxia/ischemia Irreversible – Severe / Persistent injuries, will cause cell death o Physical agents o Cellular membrane damage→ ↑ Intracellular Ca2+ Apoptosis o Chemical agents Mitochondrial dysfunction → cytochrome C leakage Apoptosis o Infectious agents/ Immune reactions o Rupture of lysosomes- Autodigestion o Genetic derangements o Nuclear degradation - Hallmark of cell death o Nutritional imbalances Types – reversible vs irreversible Necrosis Apoptosis vs Necrosis Definition – Unregulated death of large cell population, resulting from severe damage to cell membranes and loss of ion homeostasis Apoptosis Necrosis Mechanism Cause Programmed Damage/trauma o Plasma membrane damage cell undergoes enzymatic degradation and protein Cell size Shrinkage Swelling denaturation, intracellular components leak local inflammatory reaction Intrinsic/extrinsic Both Extrinsic only o Cell swelling due to inability to maintain ion and fluid homeostasis Physiologic/pathologi Both Pathological only o Nuclear Changes (Pyknosis, Karyorrhexis, Karyolysis) [shrinkage, fragmentation, fading] c Causes – Always pathological, caused by exogenous injury Cellular content Packed into vesicles Leak out of the cell o Ischemia Nucleus Fragmentation, packed Breakage o Physical trauma Inflammation No Yes o Radiation Requires ATP Yes No o Biological – Infections o Chemical injuries/ toxins Types – Coagulative, liquefactive, caseous, fat, fibrinoid, gangrenous Coagulative (Denaturative) necrosis Liquefactive necrosis Definition – The most common form of necrosis Definition – Characterized by digestion of the dead cells due to ischemia tissue o Usually results from ischemic injury (infarction) in most tissues (except brain, which is transformed into liquid viscous mass liquefactive) o Results from cellular destruction by hydrolytic enzymes o Common organs are heart, liver, kidney o Neutrophils release lysosomal enzymes that digest the tissue Pathogenesis – Ischemia → denaturation of cytoplasmic proteins Morphology – Material is creamy yellow - presence of dead leukocytes (pus) o Architecture of dead tissues is preserved for a span of at least some days Outcome o Loss of nucleus is observed o Early – cellular debris and macrophages Outcome – Ultimately, necrotic cells are removed by phagocytosis of cellular debris by o Later – cystic spaces and cavitation (brain). Neutrophils and cell debris seen with leukocytes and their enzymes → replaced by scar tissue bacterial infection Examples o Brain infarcts – Ischemic death of cells within the CNS o Bacterial abscess – Accumulation of leukocytes and liberation of enzymes o Pancreatic necrosis – Proteolytic enzymes liquefy pancreatic parenchyma Treatment – Surgically hard, washing and antibiotics Coagulative (Denaturative) and Liquefactive Necrosis Coagulative Necrosis Definition – The most common form of necrosis o Usually results from ischemic injury (infarction) in most tissues (except brain, which is liquefactive) o Common organs are heart, liver, kidney Pathogenesis – Ischemia → denaturation of cytoplasmic proteins o Architecture of dead tissues is preserved for a span of at least some days Outcome – Necrotic cells are removed by phagocytosis and replaced by scar tissue Liquefactive necrosis Definition – Characterized by digestion of the dead cells due to ischemia tissue transformed into liquid viscous mass o Results from cellular destruction by hydrolytic enzymes Morphology – Material is creamy yellow - presence of dead leukocytes (pus) Outcome - Cystic spaces and cavitation (brain). o Neutrophils and cell debris seen with bacterial infection Examples o Brain infarcts – Ischemic death of cells within the CNS o Bacterial abscess – Accumulation of leukocytes and liberation of enzymes Caseous necrosis Fat Necrosis Definition – Combination of liquefactive and coagulative necrosis Definition – Death of fat tissues, caused by action of lipases on adipocytes o Macrophages wall off the infecting microorganism → granular debris Types - Enzymatic vs. non-enzymatic o Characteristic of o Enzymatic - Acute pancreatitis → liquefy the membrane of fat cells in the peritoneum Granulomatous infection (Tuberculosis/Fungal) Causes – Alcohol, Drugs, diet Atheroma It is a life threatening situation Malignant tumors o Non-enzymatic - traumatic (e.g., injury to breast tissue), or ↓ Perfusion Macroscopically – Soft friable white cheese-like appearance Macroscopically – Saponification- fat + calcium – Chalky Yellow-White deposits Fibrinoid necrosis – Low yield Gangrenous necrosis – Low yield Definition – Form of necrotic connective tissue, histologically resembles fibrin Definition – Not a specific pattern of cell death, usually applied to prolonged ischemia of the Causes lower limb involving multiple tissue planes o Vascular hypertensive damaged → leakage of plasma protein (e.g., fibrin) → Necrotic o Other common sites – gallbladder, GIT, testis damage o Common in war zones o Acute immunologic injury - Immune complex deposition (Hypersensitivity reactions II, III) Types Example – Malignant hypertension causing vasculitis o Dry Gangrene – coagulative necrosis dues to ischemia. o Immune vascular reactions (e.g., Polyarthritis Nodosa) Most common in limbs o Nonimmune vascular reactions (e.g., hypertensive emergency, preeclampsia) Grey-black color o Wet Gangrene – Bacterial superinfection - liquefactive necrosis Most common in bowel Green color, smelly Treatment – Resection within healthy margins Acute Myocardial Infarction Acute pancreatitis Definition - Heart muscle necrosis resulting from ischemia due to obstructed artery (infarction) Definition – Reversible pancreatic parenchymal injury associated with inflammation o Severe ischemia lasting 20-40 minutes → irreversible damage cardiomyocytes death coagulative necrosis o varies in severity Types Risk Factors – 80% either Biliary tract disease (stones) or excessive alcohol intake o Transmural (regional) Myocardial Infarction (90%) Thrombus occlusion of atherosclerotic artery Causes STEMI (ST-elevation MI) o Pancreatic duct obstruction Single anatomic area corresponding to a specific coronary artery o Primary acinar cell injury o Subendocardial Infarction (10%) Severe hypoperfusion of the main coronary arteries due to high grade atherosclerotic stenosis o Defective intracellular transport of pro-enzymes Non-STEMI. ST depression, non-Q wave Pathogenesis Multiple foci. May be circumferential o Inappropriate release and activation of pancreatic enzymes → Destruction of pancreatic Complications and peritoneal substance → Acute inflammatory reaction o Reinfarction/ Death o 0-24 hours [CCCP] o Accompanied fat necrosis and deposition of calcium soaps (hypocalcemia) Cardiac Arrhythmia- the most common cause of death Clinical manifestation – Epigastric pain radiating to the back, ↑ serum amylase, ARDS Congestive Heart Failure (especially left) Morphology Cardiogenic Shock o Focal hemorrhage Pulmonary Edema o Pancreas - Semi-liquid parenchymal destruction o 1day-7day Transmural MI (Pericarditis) 1-3 days o Fat Saponification- chalky, white-yellow appearance- fat necrosis with inflammation Myocardial rupture, may results in cardiac tamponade. 4-7d Complication – Rupture → enzymatic fat necrosis Ruptured papillary muscles Mural thrombosis → left-sided embolism Ventricular aneurysm - Day 5 o Weeks-Months- Thromboembolic events, Dressler syndrome (secondary pericarditis) Encephalomalacia – Low yield Autophagy – Low yield Definition – The end result of liquefactive necrosis of brain parenchyma following insult, Definition – Natural, regulated mechanism of the cell that removes unnecessary or usually occurring after cerebral ischemia, infection, hemorrhage, or traumatic brain injury dysfunctional components Types- Thrombotic, embolic, hemorrhagic o Starved cell can eat its own components to reduce nutrient demand Location - Can occur anywhere, however has characteristic locations are anteroinferior Mechanism – lysosomal digestion of cellular components frontal and temporal lobes o Impaired mechanism is the basis of lysosomal storage diseases Progression Outcome o 6-48 hours (Early changes) – swollen tissue (edema), pale and soft o Residual bodies – Cell debris within vacuoles that resist digestion and persist in the o 2-10 days (Subacute changes)– Beginning of liquefactive necrosis, gel-like tissue cytoplasm as membrane-bound residual bodies o After 2 weeks (repair)– Tissue liquefied by lysosomal enzymes, Debris removed – leaving Example – Lipofuscin granules – In sufficient amounts, impart brown discoloration CSF-filled cavity. Dark-grey tissue. to the tissue (brown atrophy) Outcomes o Neurologic deficits o Hemosiderin deposition o Cystic space- Enlarged spaces in the brain Atrophy – Low yield Brown Atrophy – Low yield Definition – Decrease in a cell/organ size and functional ability Definition – Symptom, not disease. Accumulation of lipofuscin granules in shrunken cells of o Reduce metabolic needs and permits survival by achieving new equilibrium atrophic tissue o Early – Cells have diminished function, but cell death is minimal o Associated with elderly and Long/end stage diseases o Later – Irreversible injury causes death by apoptosis o Occurs due to indigestible material within lysosomes, usually in the heart and liver Mechanism – ↓protein synthesis and ↑degradation because of reduced metabolic activity Locations 1) Autophagy – cell consumption of own components 2) Degradation by ubiquitin-proteasomes pathway o Heart 3) Apoptosis -programed cell death o Liver Causes o Kidney o ↓ Workload - Muscle atrophy due to cast after fracture o Colon o ↓ Innervation - Muscle fiber atrophy due to denervation o Eye o ↓ Blood Supply (ischemia/hypoxia)- Brain and heart due to atherosclerosis Morphology – Yellow-brown “wear and tear” pigment o ↓ Nutrition- Chronic Inflammation, Cancer o ↓ Endocrine Stimulation- Uterus shrinks in menopause, Thymus in adults o Pressure (compression)- Tumor → Pressure on vessels ischemia atrophy o Aging- Brain in Alzheimer Calcification – Dystrophic and Metastatic o Dystrophic Calcification Definition – Abnormal deposition of crystalline calcium phosphate, in dying or necrotic tissues o Localized – normal serum levels of calcium o For life o Together with smaller amounts of iron, magnesium and other minerals Mechanisms o Intracellular initiation is in the mitochondria of dead or dying cells o Extracellular initiation is in membrane bound vesicles derived from degenerative or ageing cells Examples o Fat necrosis – saponification o TB (lungs and pericardium) and other granulomatous infections o Aging/Damaged heart valves o Atheroma's of advanced atherosclerosis o Microcalcification in the breast → carcinoma Metastatic Calcification Definition – Precipitation of calcium phosphate in normal tissue due to hypercalcemia o Systemic hypercalcemia secondary to some disturbance in calcium metabolism o Mainly interstitial tissues in stomach, Kidneys, Lungs, blood vessels Causes of hypercalcemia o Hyperparathyroidism - ↑ PTH (Parathyroid Adenoma) o Bone destruction (Leukemia, Metastasis, Sarcoma) o Vit D disorders (Intoxication, Sarcoidosis) o Chronic kidney disease / renal failure (Phosphate retention) Fatty Change (steatosis) – Low yield Anthracosilicosis – Low yield Definition – Accumulation of intracellular parenchymal triglycerides Definition – Massive fibrosis of the lungs caused by inhalation of carbon and silica particles o Damaged cells unable to metabolize fat→ vacuoles of fat accumulate in cytoplasm and their accumulation in the lungs (steatosis) squeezing nucleus. Pathogenesis – Ingestion of free silica dust and carbon by alveolar macrophages o Mostly in cells participating in fat metabolism (liver, kidney, heart, skeletal muscles) macrophages unable to digest Dust Cells formation Cytokine secretion Inflammation Causes – Imbalance among the uptake, utilization, and secretion of fat and Fibrosis Mechanism Outcome – Can lead to nodules which can obstruct airways and blood vessels o ↑ transport of triglycerides or fatty acids to affected cells Complication – Increased susceptibility to tuberculosis and neoplasia o ↓ mobilization of fat from cells o ↓ use of fat by cells o Overproduction of fat in cells Examples o Hepatocytes- acute hepatic congestion o Myocardium- cardiac steatosis o Kidney- fatty kidney disease Hemosiderosis Hemochromatosis Definition – Symptom, not a disease. Local or systemic excess of iron causes ferritin to form Definition – Hereditary disease, ↑ serum Iron levels and hemosiderin deposition in hemosiderin granules which are deposited inside the cell parenchymal organs (Liver, Heart, Pancreas), can lead to organ damage o Hemosiderin – Hemoglobin-derived, yellow-brown granular or crystalline pigment Etiology – Genetic mutation in HFE gene causing increased absorption of iron in GI Local excess – hemorrhage or breakdown of hemoglobin o Secondary hemochromatosis is most often caused by multiple blood transfusions or in Systemic excess - Generalized hemosiderin deposition without tissue or organ damage chronic viral hepatitis C. o Mainly from hemorrhage, multiple blood transfusions, hemolysis, and excessive dietary Outcome – Bronze diabetes. A triad of: intake of iron o Cirrhosis Examples o Diabetes Mellitus o ↑ Absorption dietary iron due to an inborn error of metabolism o Skin pigmentation o Blood transfusions→ iron overload o May also lead to cardiac Arrhythmias o Hemolytic anemia Diagnosis – Serum ferritin, genetic tests, liver biopsy Anaplasia, dysplasia, neoplasia Hyperplasia, hypertrophy, and metaplasia Anaplasia – Loss of structural and functional differentiation within cell or group of cells. Hyperplasia When anaplasia occurs in neoplastic cells they are far distinct from original cells. Complete change=malignant Definition – ↑# of cells in tissue/organ, only in cells capable of division Morphology – Pleomorphism, Hyperchromatism, Nuclear enlargement, Mitosis abnormality o Frequently together with hypertrophy Mechanisms – Controlled proliferation of stem cells and differentiated cells by growth factors Dysplasia - Disordered, precancerous epithelial cell growth, potentially reversible Physiologic - Controlled, hormonal stimulation. ↓signal→↓ hyperplasia. Uterus during pregnancy Cause – Occurs after prolonged pathologic stimuli causing hyperplasia/metaplasia Pathologic (excessive/inappropriate trophic action). Endometrial hyperplasia, Benign Prostate Hyperplasia Characterized by: o Disorderly maturation and spatial arrangement of cells Hypertrophy o Marked variability in nuclear size and shape (pleomorphism) Definition – ↑cell size and functional capacity due to synthesis of intracellular structural proteins and organelles o Increased, often abnormal mitosis → mitotic figures o Occurs in cells that are not capable of division (cardiac, skeletal muscle, neurons) Examples – Cervical dysplasia, Actinic (solar) keratosis Mechanism – Mediated by growth factors, cytokines, and hormones Genes expression Physiologic - Striated muscles in increased workload (Functional demand). Hormonal – Lactating Breast, Neoplasia – Uncontrolled, disorderly proliferation of cells, grow more rapidly than normal cells or tissue. Pathologic - Hypertrophic cardiomyopathy, Thyroid gland goiter Caused by failure of regulation mechanism (proliferation and maturation) of cells. Resulting in a benign or malignant growth known as a neoplasm. Metaplasia Sporadic, Familial >3 cases in family, no specific gene. Genetic–specific gene, high possibility for malignancy Definition – Change in cell type (epithelial or mesenchymal) usually due to stress. Can be adaptive or pathological Common locations – Breast (woman)/prostate (men), skin, lungs o Cell is replaced by another cell which can withstand the adverse environment Classification – Classified as either malignant or benign, based on their behavior o Not a change in already differentiated cell phenotype o Benign – Tissue name+"-oma”. Slow growth, well demarcated, no metastasis. Tend to be encapsulated o Can be reversible, usually is not Papilloma, Lipoma Epithelial- Columnar Squamous (most common): Trachea in cigarette smokers, Cervix junction o Malignant – "-sarcoma", "-carcinoma". Fast growth, less differentiated, metastasizes Squamous Columnar – Barret's esophagus, If stimuli continues Adenocarcinoma Colonic adenocarcinoma – epithelial origin. Osteosarcoma – Bones Mesenchymal – pathologic and not adaptive. Myositis ossification - Calcification of muscles Astrocytoma – Glial (CNS). Melanoma – Skin Complication – Can progress to dysplasia or neoplasia (squamous cell carcinoma) Hypertrophy Hyperplasia Definition – Increase in cell size and functional capacity due to synthesis of intracellular Definition – Increase in number of cells in tissue/organ, only in cells capable of division structural proteins and organelles Resulting in increase of tissue/organ size o Frequently together with hypertrophy o Occurs in cells that are not capable of division (cardiac, skeletal muscle, neurons) Mechanisms – Controlled proliferation of stem cells and differentiated cells by growth factors o Frequently together with hyperplasia Physiologic (due to hormones or growth factors) Mechanism – Mediated by growth factors, cytokines, and hormones Genes expression o Controlled, hormonal stimulation. When signals diminish, hyperplasia decrease Physiologic o Examples o Functional (mechanical) Demand – Striated muscles in increased workload (Functional), Liver regeneration after partial hepatectomy Thyroid gland in pregnancy Uterus during pregnancy o Hormonal – Lactating Breast, Uterus during pregnancy (↑Estrogen) Breast development in puberty Pathologic Pathologic (excessive/inappropriate trophic action) o Hypertrophic cardiomyopathy o Endometrial hyperplasia o Thyroid gland goiter o Benign Prostate Hyperplasia Metaplasia Dysplasia Definition – Change in cell type (epithelial or mesenchymal) usually due to stress Definition – Disordered, precancerous epithelial cell growth, potentially reversible o Cell is replaced by another cell which can withstand the adverse environment Cause – Proliferation of pre-cancer cells after prolonged pathologic stimuli causing o Not a change in already differentiated cell phenotype hyperplasia/metaplasia o Can be reversible, usually is not Characterized by: Mechanism - Reprogramming of stem cells or Undifferentiated mesenchymal cells Types o Disorderly maturation and spatial arrangement of cells o Epithelial o Marked variability in nuclear size and shape (pleomorphism) Columnar Squamous (most common) o Increased, often abnormal, mitosis → mitotic figures Trachea in cigarette smokers (→ loss of cilia, not specialized) Outcomes Cervix junction o Mild / moderate dysplasia (i.e., do not involve entire thickness of epithelium) may regress Squamous Columnar – Barret's esophagus, mucus secreting to withstand acid with alleviation of inciting cause. If stimuli continues Adenocarcinoma o Severe dysplasia often becomes irreversible and progresses to carcinoma in situ. o Mesenchymal – pathologic and not adaptive Myositis ossification - Calcification of muscles Examples Myeloid metaplasia – Proliferation of hematopoietic tissue in liver and spleen o Cervical dysplasia Complication – Can progress to dysplasia or neoplasia (squamous cell carcinoma) o Actinic (solar) keratosis o Oral leukoplakia Myocardial Hypertrophy – Low yield Endometrial Hyperplasia Definition – Hypertrophy of the myocardium causing the wall to thicken and reduction in Definition – Abnormal endometrial gland proliferation usually caused by excess estrogen ventricle lumen size stimulation. Causes – ↑Estrogen, ↓Progesterone → ↑Gland/Stroma ratio Cause – Most cases are due to genetic mutations in genes encoding sarcomeric proteins Risk Factors (↑Estrogen) [PROMO] o Hypertension (atherosclerosis) or aortic valve disease o PCOS/ Ovarian tumor o Connective tissue disorder, such as Friedreich ataxia o Replacement therapy Outcomes o Obesity o Reduced diastolic function o Menopause o Usually normal systolic function Classification o Causes syncope during exercise and may lead to sudden death o Simple - Gland Pleomorphism, cystic/mild hyperplasia. Rarely progress to CA (1-3%) o Complex - Irregular gland shape, Gland crowding, ↑Stratification. o S4, systolic murmurs o Atypical (Simple/Complex) – Irregular epithelial lining (Stratification, Tufting) Complications ↑mitotic activity, enlarged nuclei and loss of nuclear polarity o Prolonged left hypertrophy will lead to congestion ↑ risk for endometrial carcinoma o Left Right Hypertrophy = Cor Bovinum Signs and Symptoms – Presents as postmenopausal vaginal bleeding Treatment o Atypical – Hysterectomy o Non-Atypical – Progestin, Dilation & Curettage Gastritis – Low yield Acute Gastritis – Low yield Definition – Inflammation, irritation, or erosion of the lining of the stomach (mucosa and Definition – Superficial acute inflammation of the gastric mucosa submucosa) Pathogenesis – Due to imbalance between mucosal defences and acidic environment o It can occur suddenly (acute) or gradually (chronic). Causes o NSAIDs Diagnosis – Assessed by endoscopic examination of the mucosa, confirmed by biopsy o Acute heavy alcohol ingestion Types of gastritis o Stress-induced injury (burn, shock, ↑ICP) o Acute (e.g. excessive alcohol use, NSAIDs, Chemicals) o Chemicals (acid/alkali) o Chronic (chronic vomiting, stress, or the use of NSAIDs) o Radiation + chemotherapy Helicobacter associated Autoimmune chronic Symptoms – Can be asymptomatic, or: o Epigastric pain, nausea, vomiting Reactive o In severe cases: erosion, ulceration, hemorrhage, hematemesis, melena (dark feces) Complication – If left untreated, it can lead to a severe blood loss and may increase the risk of developing stomach cancer Chronic Gastritis – Low yield Gastritis- Acute vs. Chronic – Low yield Definition – Presence of chronic mucosal inflammatory changes o Sometimes mucosal atrophy and epithelial metaplasia Acute Chronic Causes Onset Abrupt Gradual o #1- H. pylori 90% of cases Urea breath test. Triple therapy Duration Up to 6 moths More than 6 months o #2- Autoimmune associated (Antibodies against parietal cell and intrinsic factor) →↓HCL, megaloblastic anemia Intensity Mild, moderate, severe Mild, moderate, severe o NSAIDs o Chronic alcohol consumption Etiology Acute heavy alcohol ingestion H. pylori o Bile reflux Chemicals (acid/alkali) Autoimmune associated o Smoked sea-food burn, shock, ↑ICP NSAIDs Symptoms Chronic alcohol consumption o Dyspepsia (impaired digestion) o Upper abdominal discomfort Physical response Increase BP, HR, dilated pupils, No ANS response. o Vomiting nausea and vomiting nausea and vomiting Complication Gastric hemorrhage Pernicious anemia o Peptic ulcer disease Dyspepsia, anorexia Anorexia o Malignancy- adenocarcimoma of stomach (2-4%) Helicobacter Associated Gastritis – Low yield Autoimmune Chronic Gastritis – Low yield Definition – Most common form of chronic gastritis, caused by H. Pylori infection Definition – Autoimmune associated gastritis affects the body of the stomach Pathogenesis Mechanism o Colonize epithelium beneath mucus o Antibodies against gastric parietal cells (90%) o Pyloric antrum is most severely affected area o Antibodies against intrinsic factor (60%) o Epithelial damage, mixed acute and chronic inflammatory reaction Outcomes Diagnosis – Breath test, blood tests o ↓ HCL (Hypo/A-Chlorhydria) Treatment – Only if clinical signs plus positive breath test o Failure of absorption of dietary vitamin B12 Megaloblastic anemia o Triple therapy- 2 antibiotics + PPIs (proton pump inhibitors) Complication – Severe atrophy of the mucosa in elderly patients Complication o Intestinal metaplasia - Gastric epithelium replaced by small intestine epithelium Placental Villi – Low yield – Low yield Stomach Intestinal Metaplasia – Low yield Definition – Placenta is pregnancy-specific organ. During pregnancy, it will go hyperplasia and Definition – Replacement of gastric epithelium with intestinal epithelium hypertrophy to support the fetus. o More common in people who have chronic acid reflux / GERD o Placental villi contain: Causes – Chronic Atrophic gastritis/ H. pylori gastritis Loose connective tissue Classification by type Capillary blood vessel o Small bowel metaplasia – Sialomucin production (aqua blue staining) Layer of cytotrophoblast o Large bowel metaplasia – Sialomucin and Sulfomucin (brown-black staining) Layer of syncytiotrophoblast Classification by level (both types) Complication o Incomplete – ↓Columnar cells, ↓Mucin content → acidic mucus o Incomplete placental birth or intrauterine death of embryo can cause placental remains o Complete – Total loss of columnar mucus-secreting cells → replacement by goblet cells in uterus and absorptive cells o Placental abruption is when the placenta separates before childbirth Complications Treatment – Preterm delivery / removal of remnants by abrasion o ↑ gastric adenocarcinoma o MALT lymphoma Peripheral Edema – Low yield Pulmonary Edema Definition – Presence of excess fluid in interstitium Definition – Leakage of excessive interstitial fluid which accumulates in alveolar spaces Causes Causes – Disruption of Starling forces or endothelial injury o ↑ Hydrostatic pressure in blood vessels - Congestive heart failure, portal HTN/cirrhosis, renal salt and water retention, venous thrombosis o ↑ hydrostatic pressure - seen in left-sided heart failure, mitral valve stenosis, and fluid o ↓ Oncotic pressure - liver disease, nephrotic syndrome, and protein deficiency overload. o Microvasculature o ↓ oncotic pressure - seen in nephrotic syndrome and liver diseases Lymphatic obstruction - Inflammatory, Neoplastic, Postsurgical o ↑ capillary permeability - due to infections, narcotics, shock, and radiation. Increase endothelial permeability - inflammation, hypersensitivity reaction, some drugs Sodium retention - ↑intake, primary aldosteronism, renal failure Clinical manifestation Decompression disease - High mountain climbers o Left Heart Failure Poor systemic perfusion, congestion of pulmonary circulation Chemicals (weapons, industry) Wet and heavy lungs Classification o Local – seen in inflammation o Presence of hemosiderin-laden macrophages (“heart failure” cells) in lungs o Generalized – seen in heart Failure o Fibrosis in interstitium – Brown induration o Anasarca – severe generalized edema o Effusion- fluids within the body cavity. (e.g. pleural effusion) Types of edema fluid o Transudate - low protein content o Exudate - high protein content and cells o Lymphedema - related to lymphatic obstruction o Glycosaminoglycan-rich - ↑ hyaluronic acid and chondroitin sulfate → myxedema edema Left Failure – Low yield Right Failure – Low yield Left Failure - Pulmonary edema (blood flows from lungs →left heart →systemic circulation) Right Failure – Usually outcome of left Heart Failure Causes Causes o Ischemic heart disease, especially myocardial infarction o Left-sided lesions, such as mitral stenosis o Hypertension o Pulmonary hypertension often caused by chronic lung disease (cor pulmonale) o Aortic and mitral valvular disease (e.g. calcification/stenosis) o Various types of cardiomyopathy and diffuse myocarditis o Myocardial diseases o Tricuspid or pulmonary valvular disease Mechanism – left ventricular hypertrophy and dilatation Mechanism – right ventricular hypertrophy and dilatation o Stasis of blood in left chambers of the heart o Increased pressure in systemic venous system o Passive congestion of pulmonary circulation→ pulmonary edema o Poor pulmonary perfusion o Poor systemic perfusion→ organ dysfunction o Transudation of fluid in peripheral tissues (lower limbs) Clinical manifestations o Transudation of fluid in the abdominal cavity o Dyspnea and orthopnea caused by pulmonary congestion and edema Symptoms o Pleural effusion - often results with hydrothorax o Jugular vein distension o Reduction in renal perfusion o Liver and spleen congestion → hepatosplenomegaly o Cerebral anoxia - less frequent o Peripheral edema, ascites, pleural/pericardial effusion Outcomes o Renal hypoxia o Hemosiderin accumulates in heart Failure Cells Complications - Chronic passive liver congestion → Cardiac cirrhosis o Fibrosis of interstitium – Brown induration Thrombosis – Low yield Embolism – Low yield Definition – Intravascular coagulation of blood, often causing significant interruption of blood flow. Definition – Intravascular solid / liquid / gaseous mass that has been carried down the Physiological– Occurs normally to plug small defects in blood vessel walls, removed after vessel is repaired bloodstream from its site of origin, resulting in the occlusion of a vessel Pathological - Causes of thrombosis - Virchow's Triad: o Endothelial damage - atherosclerosis, vasculitis, etc. Types o Abnormal blood flow - Alterations in laminar blood flow or turbulence (e.g., aneurysms), and hyperviscosity o Pulmonary embolism – An important cause of sudden death, usually occurring in of blood immobilized postoperative patients and in those with congestive heart failure o Hypercoagulability- primary (genetics)/secondary (acquired) Types Thromboembolism -95%. Immobilization → DVT (lower extremities) o By location Fat embolism (car crash → bone marrow embolism) Arterial thrombi – usually occlusive (coronary, cerebral, femoral), lines of Zahn Amniotic fluid embolism - occurs during labor or postpartum Venous thrombosis (phlebothrombosis) is almost invariably occlusive Air embolism (trauma – Jugular vein, injection >40mL of air, decompression) Mural thrombosis- Vessel wall/heart chambers. No occlusion o Systemic embolism – Ischemic necrosis of downstream tissues Heart valves – Vegetations (Polypoid Masses) o By color/ composition Abdominal Aorta Kidneys Fast-moving blood – Contains platelet + Fibrin content. Firm, Pale Heart brain, kidneys, GI, lower limbs Slow-moving blood – More RBCs relative to Platelets + Fibrin. Red, Soft, Gelatinous Common Carotid artery Cerebral arterial circulation (stroke) Outcomes Outcomes o Re-canalization o Thromboembolism o Silent- no sequelae o Propagation- vascular occlusion and Infraction o Infarction o Organization o Sudden death o Secondary pulmonary HTN Pulmonary Embolism – Low yield Disseminated Intravascular Coagulation (DIC) – Low yield Definition – Occlusion of pulmonary circulation due to embolism Definition – An acquired coagulopathy caused by deposition of fibrin in small blood vessels, o The most common preventable cause of death in hospital patients leading to thrombosis and end-organ damage. o If 60% of pulmonary vasculature is suddenly blocked, the heart cannot pump blood o Associated with many severe illnesses and is often seen in hospitalized patients. through the lungs Causes- DIC is always secondary to another disorder: o Severe infections/ sepsis Cause – Vast majority from DVT (thrombus), but also: o Trauma- surgery/ burn o Fat embolism (car crash → bone marrow embolism) o Obstetric complications o Amniotic fluid embolism- occurs during labor or postpartum o Hemolysis/ vascular disorders (aortic aneurysm) o Air embolism (trauma – Jugular vein, injection >40mL of air, decompression sickness) o Malignancy Outcomes Outcomes - Depletion of clotting factors and platelets leads to: o Small – Silent, rapidly removed. Can lead to pulmonary HTN o Bleeding diathesis (unusual susceptibility to bleed) o Thrombosis and end-organ damage o Medium – Haemorrhagic pulmonary infarction. Dyspnea, shallow breath. Diagnosis – Thrombocytopenia (↓platelets), ↑D-dimer o Large – Death. Cyanosis, JVD, pulse is rapid and weak, BP is low. o DIC may be confused with liver disease, (unlike liver disease, factor VIII is depressed) Complications- Secondary pulmonary HTN → right sided heart failure Treatment o Reverse the underlying cause o Transfusion of blood (RBCs) and platelets o Manage shock as necessary Hemorrhage Cerebral hemorrhage Definition – Extravasation of whole blood from its vessels Definition - Ruptured blood vessels in the brain, causing localized bleeding and death of brain cells o Most often caused by trauma Causes Stroke, Trauma, Aneurysm Classifications Tumor, Amyloid angiopathy o Internal, External, Semi-external (bleeding in urinary bladder) Types o Arterial (red, fast), Venous (purple, slow), Parenchymal (capillaries, small red dots on the Epidural - Arterial bleeding, between the skull and the dura mater. skin) o Almost always traumatic, usually associated with skull fracture Types o Clinical- Trauma→ ↑ ICP → herniation → death. Lucid interval before loss of consciousness o Hematoma – Hemorrhage into a soft tissue/ organ → Hemosiderosis o Petechiae – Pinpoint haemorrhages 1-2mm in diameter. Subdural - Venous bleeding between dura + arachnoid mater. The most common type. o Can be due head trauma, brain atrophy, aging, or alcoholism Bleeding from small vessels into Skin, Mucosa, Serosa o Clinical- Headache, confusion, slowly progression of neurological deficits Causes – Coagulopathy (↓platelet/ defective function), ruptured vasculature o Purpura – Diffuse superficial (skin), up to 1cm Subarachnoid - Bleeding into subarachnoid space Causes – As above and trauma, vasculitis, increased vascular fragility o Usually due ruptured “Berry’s aneurysm”, trauma, or arteriovenous malformation o Ecchymoses – Diffuse, Larger (1-2cm). skin and subcutaneous tissues o Clinical- Neck rigidity, sudden excruciating headache, rapidly loss of consciousness Discoloration of the skin due to hemoglobin metabolism (Red-Blue) o Increased risk for developing hydrocephalus (obstructive/communicating) and ischemic infarcts Biliverdin/Bilirubin(Blue-Green) Hemosiderin (Golden-Brown). May appear with coagulation disorders (Cushing syndrome) Intracerebral - Bleeding into brain parenchyma, usually basal ganglia o Usually due to systemic hypertension. Also due to amyloid angiopathy, vasculitis, neoplasm o Clinical- Compression of adjacent parenchyma → Liquefactive necrosis, Hemosiderosis, death Hyperemia vs. Congestion (passive hyperemia) – Low yield Shock – Low yield Definition – Disproportion between volume of circulating blood and its blood vessels Hyperemia Congestion o Characterized by vascular collapse and systemic hypoperfusion Type Active Passive o Cellular injury is initially reversible, if hypoperfusion persists → hypoxia → irreversible cell damage Types Etiology Physiological/pathological Always pathological o Cardiogenic shock – Pump Failure MI, Arrhythmias, Pulmonary embolism, Cardiac tamponade Mechanism Vasodilatation mediated by: Decreased venous outflow → o Hypovolemic shock – Reduced blood volume Vasoactive mediators stasis of blood inside the organ Haemorrhage, Burns, Dehydration Hormones o Septic Shock – Bacterial infection (gram negative bacteria) Neurogenic reflexes o Neurogenic shock – Distributive shock (generalized vasodilation) Anaesthesia, Toxins, CNS Injury Tissue color Redder than normal Blueish (cyanotic) o Anaphylactic shock – Distributive shock (generalized vasodilation) Allergy (type I hypersensitivity response) Examples Inflammation Congestive heart failure Stages Exercise Deep venous thrombosis o Compensated – Vital organ perfusion is maintained by reflex. ↑ sympathetic tone, hormones Blushing Budd-Chiari syndrome o Decompensated – Progressive ↓in tissue perfusion → metabolic acidosis, renal insufficiency o Irreversible – Organ failure and death Hyperemia – Low yield Congestion (passive hyperemia) – Low yield Definition – Localized increase in blood volume within a tissue Definition – Stasis of venous blood within a tissue Mechanism – Active process resulting from arteriolar dilation and increased blood flow o Passive process resulting from impaired outflow of venous blood from a tissue o Vasoactive mediators o Always pathological o Hormones o Congested tissues are cyanotic o Neurogenic reflexes Types Clinical manifestation – Hyperaemic tissues are redder than normal o Acute – Occurs in shock, acute inflammation, right heart failure Examples Also seen in: Venous obstruction, Immobility (long flights), and dehydration o Inflammation (alcohol/caffeine consumption, sweating, ↓humidity) o Exercise o Chronic o Erection Pulmonary congestion – due to left heart failure or mitral stenosis Liver congestion - due to right heart failure Complications – Chronic congestion may lead to parenchymal cell death and secondary tissue fibrosis Treatment – Anticoagulants (e.g. aspirin)/Antiplatelets Infarction Liver congestion Definition – Localized area of necrosis secondary to ischemia Definition – Liver dysfunction due to long-term venous congestion within the liver results from Causes right-sided heart failure o 99% are due to thrombotic or embolic occlusion of blood vessels o Usually due to a cardiomyopathy, tricuspid regurgitation, mitral insufficiency, cor o Less common- vasospasm or torsion pulmonale, or constrictive pericarditis. Classification Mechanism – Right heart failure Impaired hepatic venous drainage Massive hepatic o Anemic infarcts – Pale or white color. Caused by thromboembolic events in solid organs congestion Liver dysfunction with single blood supply- heart, kidney, spleen o Prolonged stage → nutmeg liver, (cardiac) cirrhosis, necrosis o Haemorrhage infarcts – Red color. Occurs in: Symptoms Venous occlusion – testicular/ovarian torsion o Hepatomegaly Loose tissues – lung o Jaundice Tissues with dual circulations - lung and small intestine, liver, thyroid, uterus, o Ascites testis, tongue, urinary Bladder o Varices Also occurs after reperfusion (after angioplasty) o Abdominal pain Complications – Coagulative necrosis (most organs) or liquefactive necrosis (brain) →inflammation and scarring Treatment – If necrosis → resection with healthy margins Hemorrhagic Lung Infarction – Low yield Inflammation Definition – Ischemic necrosis in the lung within area of hemorrhage Definition – Response to eliminate initial cause of cell injury, to remove necrotic cells resulting from the o Appears only in patients with inadequate circulation – with heart or lung disease original insult, and to initiate tissue repair. Consequence – Can cause considerable harm if prolonged, severe or inappropriate. Cause – Trauma/ reperfusion (after angioplasty) Cardinal signs – Rubor (redness), Calor (heat), Dolor (pain), Tumor (swelling), Loss of function Location Causes – Infection, Trauma (Physical/ Chemical), Immunological injury, Tissue death (necrotic areas) o Usually develops in sub-pleural region of lower lobes Classifications o Affecting the alveolar walls, bronchioles and vessels Basic o Acute- Neutrophils. o Single/Multiple lesions Serous - protein poor. Transudation into body cavities. Seen in burns and viral infection. Outcomes Purulent (suppurative)- edema, Pus – Exudate containing neutrophils→ abscess formation o Early stages – Raised, red-blue area Fibrinous- ↑increase vascular permeability, ↑fibrin. Ulcer - Local defect / excavation of organ/tissue surface o Within 48 hours - Red blood cells begin to lyse o Subacute – Relatively rapid onset Necrotic area is paler or red-brown (Hemosiderosis) o Chronic- Lymphocytes, Plasma cells. Simultaneous tissue destruction and repair Lung fibrosis and scarring Non-specific/granulomatous (Caseating- fungal. Non-Caseating- sarcoidosis, foreign Complications – Sudden death (if occurs in main pulmonary arteries) material) o Mixed Exudate - Serous, Purulent, Hemorrhagic (Ebola), or Fibrinous Superficial / Deep (Abscess – Deep) Limited / Diffused (Abscess – Limited) Specific (Crohn’s disease, ulcerative colitis) Acute Inflammation Chronic Inflammation Definition – Immediate response with limited specificity (innate immunity) Definition – Prolonged inflammation characterized by mononuclear infiltration, which leads o Rapid onset (seconds to minutes) to simultaneous tissue destruction and repair (including angiogenesis and fibrosis). o Short duration (minutes to days) Causes - Infection, trauma, necrosis, foreign body Causes Mechanism o May be preceded by acute inflammation o Vascular- vasodilation, ↑blood flow and endothelial permeability o Persistent infections – TB, syphilis (Treponema Pallidum) o Cellular – Migration and extravasation of leukocytes and neutrophils o Immune-mediated – Hypersensitivity or autoimmune Types o Serous– Protein-poor fluid (transudation into body cavities e.g. peritoneum, pleura, pericardium). o Toxins – Prolonged exposure to toxic agents (e.g. Silica) and foreign materials Seen in Burns, Viral Infection Mechanism o Fibrinous – ↑ Vascular Permeability, ↑Fibrin o Nonspecific inflammation – Mediated by macrophages and lymphocytes o Suppurative (Purulent) – Edema, Pus – Exudate containing neutrophils→ abscess formation o Ulcer – Local defect / excavation of organ/tissue surface o Granulomatous inflammation - Seen in fungal/ some bacterial infections Outcomes Outcomes o Resolution and healing (regeneration) o Scarring o Scarring – Substantial tissue destruction o Amyloidosis o Abscess formation–pus (cavity filled with neutrophils and cellular debris walled by fibrous tissue) o Chronic inflammation – Cause not removed o Neoplastic transformation Acute vs chronic inflammation Granulomatous inflammation Acute inflammation Chronic inflammation Definition – A pattern of chronic inflammation Onset Fast: minutes to hours Slow: days o Granulomas “wall off” a resistant stimulus without completely eradicating or degrading Innate immune system Adaptive immune system Duration Hours to days Weeks to months it → persistent inflammation→ fibrosis, organ damage Types Causative agent Pathogens, injured tissue Persistent acute inflammation o Caseating - Associated with central necrosis. Caused by infectious agents: /foreign body, Bacterial: TB, listeria, T. pallidum autoimmune reaction Fungal Cellular infiltrate Mainly neutrophils Monocytes/macrophages and Parasitic lymphocytes o Non-caseating - No central necrosis. Seen in non-infectious disorders: Vascular changes Prominent (vasodilation Not prominent; angiogenesis increase permeability) Autoimmune diseases: Sarcoidosis, Crohn, thyroiditis Vasculitis: Wegener granulomatosis, giant cell arteritis Tissue injury, fibrosis Usually mild and self-limited Often severe and progressive Foreign material: berylliosis, talcosis, hypersensitivity pneumonitis Chronic granulomatous disease Local and systemic signs Prominent Less prominent; may be subtle Outcome Resolution, abscess formation, Tissue destruction, scarring, fibrosis chronic inflammation Immune granuloma – Low yield Foreign Body Reaction – Low yield Definition – A characteristic form of inflammation associated with Infectious agents Definition – Foreign material in tissue Macrophage reaction o Bacterial: Mechanism – Non-Caseating granulomatous inflammation Mycobacteria (tuberculosis, leprosy) o Aggregation of macrophages Giant cells with multiple nuclei in the periphery Bartonella henselae (cat scratch disease; stellate necrotizing granulomas), Initiation Listeria monocytogenes (granulomatosis infantiseptica) o Endogenous – Keratin, Urate, Crystals, degenerate and altered collagen and elastin Treponema pallidum (3° syphilis) o Exogenous – Non-lysable Suture, Talcum, Thorns o Fungal: endemic mycoses (e.g., histoplasmosis) o Response to fungi – Suppurating granuloma o Parasitic: schistosomiasis Fungi found within purulent neutrophilic material Granulation tissue – Low yield Healing Definition – Tissue repair. Organization and repair of acute inflammation leads to healing by Definition – A complex process in which the skin, and the tissues under it, repair themselves after injury collagenous scar Stages o Begins within 24h of injury by migration of fibroblasts and endothelial cell 1.Inflammatory phase (up to 3d after injury) - Clot formation, ↑ vessel permeability, neutrophil migration 2.Proliferative (day 3–weeks after injury) - Deposition of granulation tissue and type III collagen, proliferation angiogenesis, epithelial cell proliferation Sequence 3.Remodeling (1 week–6+ months after injury) of collagen to ↑ tensile strength of tissue 1. Removal of debris Intentions 2. Formation of granulation tissue Regeneration (Primary healing) – Replacement of dead cells by proliferation of cells of same type – Angiogenesis – Formation of new capillaries from pre-existing capillaries involves cell growth & differentiation and cell-matrix reactions – requires intact basement membrane. Fibroblast proliferation– beginning of scar formation by collagen synthesis Occurs with clean wounds with little tissue damage and adjacent surfaces closely together. 3. Scarring Examples - Surgical suture, muscle fiber damage. Maturation and organization of fibrous tissues Repair (Secondary healing) – Replacement of injured tissue w/fibrous scar, NOT w/parenchymatous Dense Collagenous Scar and progressive contraction of the wound tissue of same kind. Occurs in large tissue defect /Suture impossible / Intense inflammatory response Longer healing. Interruptions Examples - Large surface ulcers and open wounds o Retention of debris Interruptions o Impaired circulation Foreign body/material, Infection – continued tissue damage o Persistent infection Ischemia, Diabetes, Obesity, Old age o Metabolic disorders, e.g. diabetes, alcohol abuse Malnutrition (Vit. C- scurvy, Zinc, water) o Dietary deficiency of ascorbic acid or protein (required for collagen formation) Keloids – Low yield Abscess – Low yield Definition – A tumor-like scar resulting from abnormal proliferation of connective tissue with Definition – A cavity filled with pus (neutrophils, monocytes, and liquefied cellular debris). deranged arrangement of collagen fibers o Usually caused by a bacterial infection Prevalence – Genetic predisposition that is more common in ethnic groups with dark skin (e.g. Classification – Purulent, Deep, Limited inflammation Afro-Americans) Types o Skin abscess- usually subcutis Location – Ears, Face, Upper extremities o Internal abscess- inside the body: in an organ or in the spaces between organs Causes - Often follows trauma to the skin, such as ear-piercing or surgical wounds Seen in immune deficiency (Chemotherapy, Transplantation, Autoimmune Outcomes - Resection is not recommended disease, AIDS) o Keloids have a marked tendency to recur after resection o Acute abscess – Pus surrounded by a layer of acute inflammatory exudate Treatments o Chronic abscess – Exudate forming abscess wall replaced by scar tissue Treatment – Can be removed only when mature (capsule is fully formed – roundish structure) o Compression dressing Examples o Steroids o Ignored appendicitis Liver abscess o Laser o Perianal abscess in truck drivers o Cicatrix in the Treatment of Hypertrophic Scars and Keloids Scars Complication o Sepsis (bacteremia)- failure to contain the cause o Hospital viral infection o Cellulitis- If removed before capsule is formed / ruptured capsule Wart – Low yield Amyloidosis – Low yield Definition – Squamo-Proliferative disorders of skin caused by HPV Definition – A group of disorders characterized by abnormal aggregation of proteins (amyloid), which lead to o Common lesion in children and adolescents cellular damage and apoptosis. o Self-limited, regressing spontaneously within 6 months to 2 years Consequence – Cellular Dysfunction - Prevents diffusion or Physical compression of parenchyma o They are not cancerous Mechanisms – Can be abnormal amounts protein or abnormal AA sequence o They typically do not result in other symptoms Types Types (Morphology, Location) Systemic (Generalized) o Verruca Vulgaris – Most common (Everywhere, most frequently - Hands) o Primary – Idiopathic. AL protein (amyloid light chain). Associated with plasma cell disorders. Rough – Pebble-like Deposition in tissues of mesodermal origin, such as heart, muscle, and tongue. o Verruca Plana (Flat wart) – Face and Dorsal surface of Hands The kidney is the most involved organ. Smaller o Reactive (Secondary) – Idiopathic. Serum amyloid A (AA). Smooth Seen in chronic inflammatory diseases (IBD, Rheumatoid Arthritis, Chronic Osteomyelitis) o Verruca Palmaris/Plantaris – Soles and Palms. may be painful o Dialysis-associated– β2 microglogulin. Seen in end-stage renal disease and long-term dialysis 1-2cm diameter o Hereditary (Familial Mediterranean Fever, etc.) Rough Localized – Confined to a single organ / tissue o Condyloma Acuminatum (Venereal wart) – External genitalia, urethra, rectum o Alzheimer disease- β-amyloid precursor protein (abnormal clevegae)- APP gene on Chr21 Sexually transmitted infection, HPV type 6 or 11 o Diabetes mellitus- Deposits of amyloid in islet cells Cauliflower-like masses o Medullary carcinoma of the thyroid- Deposits within the tumor Soft o Age-related amyloidosis- Heart, brain, and other organs of elderly people Appendicitis Phlegmonous appendicitis – Low yield Definition – Acute inflammation of the appendix – the most common surgical emergency Definition – Appendicitis that is spreading through full thickness of wall to serosa, causing an Cause – Associated with obstruction (Fecalith, Gallstone, Tumor, Worms) acute localized peritonitis and walled off by the adjacent greater omentum or small-bowel Stages o Acute appendicitis – Obstruction ↑Intraluminal pressure Ischemia Bacterial proliferation loops, resulting in focal abscess inflammation and edema o Abscess - cavity filled with pus (neutrophils, monocytes, and liquefied cellular debris) o Phlegmonous appendicitis – Spreading through full thickness of wall to Serosa Acute localized Gross Peritonitis o Rough o Gangrenous appendicitis – Muscle layer necrotic and inflamed Perforation bowel contents in peritoneum Generalized Peritonitis o Yellow Symptoms - Pain starts in mid-epigastrium Migrates to RLQ (McBurney point) o Fibrinous exudate on surface o Pregnancy can mask the pain location o May elicit psoas, obturator, and Rovsing’s signs. Guarding and rebound tenderness on exam Mimics o Meckel's Diverticulum o Salpingitis (right sided) o Mesenteric Lymphadenitis (swollen lymph nodes) Treatment – Appendectomy Complications – A ruptured appendix: o Necrosis of appendix wall, Perforation, Peritonitis→ gangrenous necrosis o Sepsis o Abscess Hashimoto's Thyroiditis – Low yield Neoplasia Definition – Autoimmune disease against thyroid tissue. The most common cause of Definition – Uncontrolled, disorderly proliferation of cells, grow more rapidly than normal cells or tissue. hypothyroidism Caused by failure of regulation mechanism (proliferation and maturation) of cells. o Resulting in a benign or malignant growth known as a neoplasm. Mechanism- Anti-thyroid peroxidase and anti-thyroglobulin antibodies Etiology o First, Hyperthyroidism – Follicles are destroyed and hormones flow to blood o Sporadic – Statistical (environmental, nutritional etc.) o Then, Hypo after fibrosis and fat tissue o Familial – >3 cases in family, not associated with one specific gene o Genetic – Associated with specific genes. High possibility for malignancy Diagnosis – Ultrasound Biopsy Antibodies Hashimoto thyroiditis Common locations – Breast (woman)/prostate (men), skin, lungs o Moderately enlarged, non-tender thyroid Classification – Classified as either malignant or benign, based on their behavior Treatment o Benign – "-oma”. Slow growth, well demarcated, no metastasis. Tend to be encapsulated o Resection only in tumor cases Papilloma, Lipoma o Malignant – "-sarcoma", "-carcinoma". Fast growth, less differentiated, metastasizes o Consider partial resection if possible Colonic adenocarcinoma – epithelial origin o Don’t resect the parathyroid glands! Osteosarcoma – Bones Complication – Some progress to primary atrophic thyroiditis Astrocytoma – Glial (CNS) Melanoma – Skin o ↑ risk of non-Hodgkin lymphoma Lymphoma – Lymphatic Causes of death o Cachexia – Excessive body weight loss. Accompanied by weakness, anorexia and anemia o Secondary infection. Usually pneumonia o Obliteration of vital organs/system by tumor Diagnosis – Physical, radiographic, laboratory/biopsy/autopsy Benign tumor (benign neoplasia) Malignant tumor Definition – Closely resemble tissue of origin (fully differentiated) Definition – Neoplasm with tendency to become worse o Slow Growth o Grow fast o Well demarcated – Margins well defined. Encapsulated o Margins poorly defined - Not encapsulated o No Metastases! o Invasive and Metastasize (Through Lymph, Blood, Cavities) Complications Classification o Compression of adjacent tissues o Well-Differentiated – Constituent cells closely resemble tissue of origin o Blockage of lumen o Poorly-Differentiated – Little resemblance to tissue of origin o Endocrine functions