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A comprehensive guide to the nr507/ nr 507 midterm exam, covering key concepts in advanced pathophysiology. It includes a series of questions and answers related to various topics, such as bronchitis, kidney injury, heart failure, and blood cell formation. The document aims to assist students in preparing for their midterm exam by providing a structured overview of important concepts and their associated definitions.
Typology: Exams
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3 characteristics of bronchitis ...ANSWER... bronchial inflammation hypersecretion of mucus chronic productive cough for at least 3 consecutive months for at least 2 successive years 3 layers of the bronchioles ...ANSWER... innermost layer middle layer - lamina propria outermost layer Acute Kidney Injury ...ANSWER... Sudden decline in kidney function with a decrease in GFR and an increase in plasma creatinine and BUN levels - results in oliguria After air passes through the trachea where does it go? ...ANSWER... goes into the left or right bronchi
Afterload ...ANSWER... the amount of resistance to open the semilunar valves and eject of blood from the ventricle alveolar hyperinflation ...ANSWER... When air is unable to move out of the alveolar like it should due to bronchial walls collapsing around possible mucus plug thus trapping air inside anemia risk factors ...ANSWER... acute or chronic blood loss, increased hemolysis, inadequate dietary intake or malabsorption, bone marrow suppression, age angiotensin converting enzyme (ACE) ...ANSWER... an enzyme that converts angiotensin I to angiotensin II Ascending infection ...ANSWER... - urethra to bladder, and then to kidney
benign prostatic hyperplasia ...ANSWER... benign growth of cells within the prostate gland Biventricular failure ...ANSWER... unresolved left sided heart failure will increase pressure on the right side of the heart contributing to right sided heart failure as well Bladder anatomy ...ANSWER... - ureter
BPH treatment ...ANSWER... - Alpha-adrenergic antagonists: terazosin, doxazosin
causes of hemolytic anemia ...ANSWER... infection transfusion reaction hemolytic disease of the newborn (Rh incompatibility) autoimmune reaction drug induced causes of high output failure ...ANSWER... Severe anemia Nutritional deficiencies Hyperthyroidism Sepsis Extreme febrile state Causes of intrarenal disease ...ANSWER... ATN Acute glomerulonephritis causes of kidney stones ...ANSWER... Family HX, chronic dehydration and infection, dietary factors, medications, imobility. Stoned more common in men than women usually ages 30/50. Causes of left sided heart failure ...ANSWER... systemic hypertension left ventricle MI LV hypertrophy Aortic SL valve or bicuspid valve damage Secondary to right heart failure
Causes of postrenal disease ...ANSWER... BPH Calculi Inflammation Tumors Causes of right sided heart failure ...ANSWER... - pulmonary disease
Rx: meds for hypertension, statins, epoetin, diuretics, calcium, LOW protein, low salt, restrict K, phosphorus (no chicken, milk, legumes, carbonated drinks), dialysis. clinical indicators of glomerulonephritis ...ANSWER... - proteinuria
Describe how blood flows to become oxygenated ...ANSWER... - deoxygenated systemic blood flows from the vena cava to R atrium
Erythrocyte life span ...ANSWER... 120 days Erythropietin ...ANSWER... Produce: Kidney (small amount in liver) Released: Kidney Target: Bone Marrow Functions: Stimulates bone marrow to produce more red blood cells filtration (kidney) ...ANSWER... movement of solutes from blood to filtrate at bowman's capsule 20% of the blood that goes through the glomerulus is passed as filtrate into the bowman's capsule depends on the hydrostatic and oncotic pressures/ starling forces between the glomerulus and bowman's capsule hydrostatic pressure: a lot higher in the glomerulus (move into the nephron/bowman's capsule) oncotic pressure: higher in the blood/glomerulus than in the bowman's capsule (move into the blood/glomerulus) hydrostatic pressure is greater so there will be movement into bowman's capsule
usually favors the filtrate to go into the bowman's capsule each persons full body is filtered about every 40 minutes filtration (kidney) ...ANSWER... movement of solutes from blood to filtrate at bowman's capsule 20% of the blood that goes through the glomerulus is passed as filtrate into the bowman's capsule depends on the hydrostatic and oncotic pressures/ starling forces between the glomerulus and bowman's capsule hydrostatic pressure: a lot higher in the glomerulus (move into the nephron/bowman's capsule) oncotic pressure: higher in the blood/glomerulus than in the bowman's capsule (move into the blood/glomerulus) hydrostatic pressure is greater so there will be movement into bowman's capsule usually favors the filtrate to go into the bowman's capsule each persons full body is filtered about every 40 minutes
function of hemoglobin ...ANSWER... In red blood cells, carries oxygen from the lungs to body's tissues and returns carbon dioxide from tissues back to lungs. It also maintains the shape of red blood cells. glomerulonephritis ...ANSWER... inflammation of the glomeruli of the kidney heart failure ...ANSWER... cardiac dysfunction caused by the inability of the heart to provide adequate CO resulting in inadequate tissue perfusion Hematopoiesis ...ANSWER... formation of blood cells hematopoietic stem cells ...ANSWER... The stem cells that give rise to RBC WBC and platelets through the process of haematopoiesis. hemolytic anemia ...ANSWER... premature destruction of RBCs hemolytic anemia is what kind of anemia ...ANSWER... normocytic normochromic anemia High output failure ...ANSWER... inability of the heart to pump sufficient amounts of blood to meet the circulatory needs of the body despite normal blood volume and cardiac contractility
How does a hematopoietic stem cell produce a red blood cell ...ANSWER... hematopoietic stem cells produces an unndifferentiated hemocytoblast
Kidney Anatomy ...ANSWER... renal artery renal vein cortex, medulla, renal pelvis ureter renal pyramid nephron kidney stone treatment ...ANSWER... high fluid intake, decreasing dietary intake of stone-forming substances, stone removal kidney stones ...ANSWER... Solid crystalline masses formed in the kidney, resulting from an excess of insoluble salts or uric acid crystallizing in the urine; may become trapped anywhere along the urinary tract. lamina propria ...ANSWER... the middle layer of the bronchioles Left sided heart failure characteristic ...ANSWER... inability of the left ventricle to provide adequate blood flow into systemic circulation MOA of anticholinergic drugs for asthma ...ANSWER... the parasympathetic system is stimulated by the vagal nerve to release acetylcholine which binds to the cholinergic receptors of the respiratory tract to cause bronchial constriction = decreased airflow
Nephron Anatomy ...ANSWER... 1. glomerulus
polycystic kidney disease ...ANSWER... - Mutant PKD genes cause fluid accumulation in kidney tubules "cysts"
reabsorption (kidney) ...ANSWER... movement of solutes from filtrate to blood things taken back that were secreted of filtered by the kidney renal agenesis ...ANSWER... unilatral or bilateral failure of the kidneys to develop in utero results of chronic bronchitis/ low perfusion ...ANSWER... cyanosis right to left shunting chronic hypoxemia right sided heart failure ...ANSWER... inability of the right ventricle to provide adequate blood flow into the pulmonary circulation Right to left shunting ...ANSWER... when blood passes from the right ventricle through the lungs and to the left ventricle without perfusion Role of macrophages ...ANSWER... - In Innate:
signs and symptoms of right sided heart failure ...ANSWER... jugular vein distension hepatosplenomegaly peripheral edema sliding filament theory ...ANSWER... theory that actin filaments slide toward each other during muscle contraction, while the myosin filaments are still Stenosis of a heart valve, may result in what? ...ANSWER... Narrowing of the heart valves means that blood moves with difficulty out of the heart. Results may include chest pain, edema in the feet or ankles, and irregular heartbeat. and hypertrophy Stenosis of heart valve ...ANSWER... A narrowing of the valve opening, causing turbulent flow and enlargement of the emptying chamber Stimulation of what set a resting HR (chronotropic state) ...ANSWER... parasympathetic system structure of the lamina propria ...ANSWER... embedded with connective tissue cells and immune cells Troponin-Calcium Binding ...ANSWER... Calcium binds to troponin on the thin filament
tubular necrosis ...ANSWER... the renal tubules cells are highly sensitive to low oxygen levels or presence of toxins and leads to tubular necrosis vesicoureteral reflux ...ANSWER... Abnormal ureter-bladder connection allowing retrograde flow of urine from bladder to ureters and/or kidneys What acid-base disorder is seen in chronic bronchitis? ...ANSWER... respiratory acidosis What are 5 s/s of asthma ...ANSWER... coughing wheezing shortness of breath rapid breathing chest tightness What are characteristics of epithelial cell metaplasia? ...ANSWER... squamous cells become nonciliated and are less protective; allow passage of toxins and WBCs What are most cases of AKI caused by? ...ANSWER... prerenal issues
What are the atrioventricular valves? ...ANSWER... tricuspid and bicuspid (mitral) valves What are the semilunar valves? ...ANSWER... pulmonary and aortic valves What are the two parts of the cardiac cycle? ...ANSWER... diastole and systole What are two anticholinergic drugs used for asthma ...ANSWER... tiotropium and ipratropium What are two common causes of hypovolemia ...ANSWER... dehydration and hemorrhage what can cause an increase in afterload ...ANSWER... systemic hypertension valve disease COPD (pulmonary hypertension) What can cause decreased preload ...ANSWER... cardiac tamponade and hypovolemia What can cause increased preload ...ANSWER... CHF and hypervolemia
what can decrease afterload ...ANSWER... hypotension or vasodilation What can extreme vagal response result in? ...ANSWER... life threatening bradycardia What can uncontrolled tachycardia lead to? ...ANSWER... reduced stroke volume and fatigue What causes blood to move from the atria to the ventricles ...ANSWER... gravity and atriole systole What causes the S1 heart sound? ...ANSWER... Bicuspid/Mitral and Tricuspid valves closing What causes the S2 heart sound? ...ANSWER... closing of semilunar (aortic and pulmonary) valves What causes the semilunar valves to close? ...ANSWER... ventricles relax and intraventricular pressure falls, blood flows back from the arteries, and fill the cusps of the semilunar valves What causes the semilunar valves to open? ...ANSWER... As ventricles contract and intraventricular pressure rises, blood is pushed up against the SL valves, forcing them to open