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Common learning issues First case block echocardiography • Normal findings: normal position, size and movement of cardiac valves and heart muscle wall, normal directional flow of blood within heart chambers • Indications: evaluate heart wall motion (measure of heart wall function) to detect valvular disease, evaluate the heart during stress testing and identify and quantify pericardial fluid • Non-invasive ultrasound to evaluate structure and function of the heart • Uses m-mode recordings, 2D and 3D images, Doppler • M-mode 1D recording of amplitude and rate of motion of heart structures in real time echocardiography • 2D spatial relationships of the heart • 3D adds images of heart wall and valves • Color flow doppler: direction and velocity of blood flow within the heart and great vessels alter ultrasound frequency. Altered direction and velocity can be coded as shades of colors. Assessing flow across prosthetic valves and regurgitant or narrow valves • Diagnose effusion, valvular heart disease, subaortic stenosis, myocardial wall abnormalities, infarction, aneurysm and cardiac tumors, ASD and VSD • Used during exercise stress tests to diagnose areas of hypokinetic myocardium • Perflutren (DEFINITY or Optison) opacifying agent enhancing endocardial borders • Interfering factors: patients with COPD because of the substantial amount of air between heart and chest cavity; obese patients space between heart and transducer is enlarged Cardiac catheterization • Normal findings: normal heart muscle motion, normal and patent coronary arteries, normal great vessels, and normal intracardiac pressure and volume • Indications: • • • • • Visualize heart chambers, arteries, and great vessels Evaluate chest pain Locate region of occlusion in positive stress test Determine effects of valvular disease Right heart measures CO, and PE catheterization • Test explanation: • • • • • • • • • • • • • • Catheter passed into heart through peripheral vein or artery (left heart) Pressures are recorded and radiographic dyes are injected measure CO Identify locate, and quantify congenital valvular or septal defects Evaluate severity of acquired defects Presence and degree of abnormalities such as transposition of great vessels, patent ductus arteriosus and anomalous venous return to the heart Evaluate success of previous cardiac surgery or balloon angio Evaluate cardiac muscle function Identify and quantify ventricular aneurysms Locate acquired diseases of the great vessels i.e. atherosclerosis and aneurysms Monitor right sided heart pressure and pulmonary wedge pressures, measure CO Dilate stenotic coronary arteries, place stent or laser atherectomy Femoral vein and artery Blood is sampled for analysis of oxygen content Dye allows for visualization of heart chambers, valves, and coronary arteries Reading frontal chest x-ray • • • • • • • • • • • • • • • • Designed to look at lungs, not trauma to the ribs etc. R marker should be on your left side Glance over the image for any obvious abnormality always look at your four corners Anterior posterior and posteroanterior Start at top and make sure trachea is midline Move to heart, transverse diameter of cardiac silhouette should not be more than 50% transverse diameter of thoracic cage Greater the distance between and object and film, the greater the magnification Right heart convex, left cardiac border at the top should be concave Left ventricle makes up left heart SVC makes straight right border In enlargement left superior border becomes convex Left enlargement cardiac apex moves down and out Right enlarges right border is more protuberant Left and right pulmonary arteries form hilar shadows, left should be more cephalad Aorta forms knob Aortopulmonary window between knob and pulmonary artery shadow; should be concave or suspect mass or adenopathy Frontal chest X-ray • Mediastinum shadow is caused by great vessels and vascular pedicle • Pedicle extends from thoracic inlet to base of heart; right border is SVC left is aortic knob • Divide lungs into horizontal thirds • Domed diaphragm with right side higher than left • Lateral costophrenic angles should be sharp and acute • Look at lower cervical spine and ribs • Ribs we see are posterior arcs anterior ribs are angled downward Lateral radiograph • • • • • Right ventricle is anterior border Left ventricle is inferior-posterior cardiac border Left atrium forms superior-posterior cardiac border IVC can be seen as it enters from abdomen If left ventricle is 2 cm or more posterior to IVC then it is enlarged • Evaluating hila left is posterior to line drawn down from tracheal air column and one third the size of the right • Silhouette sign when two objects of similar density are in direct juxtaposition interface or borders are lost TSH aka thyrotropin • • • • • • • • • • • • Used to diagnose primarily hypothyroidism and to differentiate it from secondary (pituitary) and tertiary (hypothalamus) TSH is stimulated by hypothalamic TRH Low levels of T3 and T4 are underlying stimuli for TRH and TSH A compensatory elevation of TRH and TSH can occur with primary hypothyroidism such as surgical or radioactive ablation, burned out thyroiditis, agenesis, idiopathic, congenital cretinism or antithyroid meds Function of pituitary or hypothalamus is faulty because of a tumor, trauma, or infarction so T3 and T4 are low along with TRH and TSH TSH test monitors exogenous thyroid replacement or suppression Thyroid replacement goal is to keep TSH in low normal range Thyroid suppression keeps TSH low used to diminish size of large goiter Detect primary hypothyroidism in newborns with low T4 Low T4 and normal or elevated TSH is thyroid Low T4 and low TSH means pituitary Interfering factors: radioisotope administration, severe illness, diurnal, drugs like antithyroid, lithium, potassium iodide, and TSH injection Free thyroxine index • • • • • • • • • • Evaluate thyroid function Corrects for changes in thyroid hormone binding serum proteins that can affect T4 Diagnose hypo and hyperthyroidism Measures the amount of free thyroxine T4 which is only 1% unbound goes into cells and is activated Not affected by TBG abnormalities so it correlates more closely to hormonal status than total T4 and T3 If TBG is increased the T3 uptake decreases and correcs for increased T4 associated with increased TBG If TBG is normal and T4 is elevated FT4 will be elevated indicating true hyperthyroidism Low FT4 indicates hypothyroidism Increased levels primary hyperthyroidism, thyroiditis, facticious hyperthyroidism, struma ovarii Decreased: hypo, pituitary insufficiency, hypothalamic, iodine insufficiency Thyroxine total • • • • • • • • • • Diagnose thyroid function and to monitor replacement and suppressive therapy Makes up most of what we call thyroid hormone and it is bound to protein Measured by radioimmunoassay or enzyme linked immunosorbent assay techniques TSH stimulates thyroid to secrete thyroid hormone high levels of hormone inhibit TRH Serum test indicates all T4 high levels indicate hyperthyroid, low is hypothyroid TBG affects results Interfering factors: increased after iodinated contrast x-ray, pregnancy causes increased levels, amphetamines, clofibrate, estrogens, heroin, iodinated contrast media, iodine, methadone, and oral contraceptives increase Decrease levels: anabolic steroids, androgens, anti-inflammatory drugs, antithyroid drugs, barbituates, furosemide, nonsteroidal lithium phenytoin, propranolol, propylthiouracil High: hyper, thyroiditis, dysalbuminemic, hyperthyroxemia, facticious hyperthyroidism, struma ovarii, TBG increase Low: hypo, pituitary insufficiency, hypothalamic failure, protein malnutrition and other protein depleted states, iodine insufficiency, non-thyroid illness Cardiac stress test • Normal finding is that patient is able to maintain and obtain maximal heart rate of 85% for predicted age and gender with no cardiac symptoms or EKG change • Evaluate chest pain in a patient with suspected coronary artery disease • Determine limits of safe exercise during cardiac rehab or assist patients with cardiac disease in maintaining good physical fitness • Detect labile or exercise related hypertension • Detect intermittent claudication in patients with suspected vascular occlusive disease in extremeties • Evaluate effectiveness of treatment in patients taking antianginal or antiarrhythmics • Evaluate effectiveness of cardiac intervention Cardiac stress test • • • • • • • • • • • Provides info about cardiac function Heart is stressed and then evaluated Changes indicating ischemia point to coronary occlusion EKG, HR, and BP are monitored and patient pedals or walks on a treadmill increasing pace or resistance to stress heart to get heart to target heart rate Occluded arteries will be unable to meet heart’s increased demand for blood during the test Chemical stress testing used when unable to exercise Dippyridamole causes steal from ischemic areas due to its powerful vasodilation Dobutamine can also stress the heart Contraindications: people with unstable angina, patients with severe aortic valvular heart disease, those who cannot participate in exercise program because of lung or motor function, patients with MI, patients with severe congestive heart failure Potential issues: MI, fainting, sever angina, fatal cardiac arrhythmias Indicates angina, intermittent claudication, abnormal rhythms, coronary artery occlusive urinalysis • Normal: • • • • • • • • • • • • • • • • • Appearance: clear Color: amber yellow Odor: aromatic pH 4.6-8 Protein 0-8 mg/dL Nitrites none Crystals none Bilirubin none Urobilinogen 0.1-1 Casts none Glucose none WBC 0-4 low power field RBC <2 RBC casts none Specific gravity 1.005-1.030 Leukocyte esterase negative Ketones none Ua • Indications: used as part of routine diagnostic and screening evaluations can give info on kidneys, performed on essentially everyone • Test explanation: divided one is sent to UA the other half is cultured • Lab exam: • Color: clear, cloudy indicates WBC, RBC or bacteria, color indicates concentration of urine and varies specific gravity, abnormal color may indicate bleeding from kidney (dark red) bleeding from lower UT (bright red) • Dark yellow indicates urobilinogen or bilirubin • Pseudomonas could cause green urine UA • Odor: • Diabetics have strong, sweet smell of acetone • UTI causes foul odor • Fecal odor could be a fistula • pH • Alkaline indicates alkalemia, bacteria, UTI or citrus fruits or vegetables, common after eating • Acidic urine: dehydration, high meats and cranberries, • Alkaline causes calcium carbonate, phosphate and magnesium phosphate stones UA • Protein • • • • Specific gravity • • • • • • Indicates if glomerular membrane is intact like in glomerularnephritis, protein then seeps into urine and can lead to hypoproteinemia which decreases capillary oncotic pressure causing edema called nephrotic syndrome Proteinuria indicates renal disease or preeclampsia Indicates complications of DM, glomerularnephritis, amyloidosis, multiple myeloma High indicates concentrated urine Low is dilute urine Weight of urine compared to that of pure water Chronic diseases associated with low specific gravity measure of hydration status Dehydration causes it to be really high Leukocyte esterase • Positive indicates UTI UA • Nitrites • • Ketones • • Poorly controlled diabetes and hyperglycemia, massive fatty acid catabolism Bilirubin and urobilinogen • • Screening for UTI, bacteria produce reducase converting nitrates to nitrites Conjugated bilirubin is water soluble, indicates disease affecting bilirubin affecting bilirubin metabolism after conjugation or defects in excretion indicate previously suspected liver disease, gallstones, or drug toxicity Crystals • • • Indicate renal stone formation is imminent Can be with high serum uric acid levels Parathyroid causes high phosphate and calcium crystals UA • Casts • • Rectangular clumps that form renal distal and collecting tubules, pH must be acidic and urine concentrated Hyaline • • Cellular • Granular • • • • • Conglomerations of degenerated cells • After exercise and renal disease, result from disintegration of cellular material into granular particles within a WBC • Some diseases epithelial cells desquamate into renal tubule fatty droplets become free oval fat bodies or incorporated into proteins associate with nephrotic syndrome or nephrosis, fatty emboli or bone fractures Fatty Waxy • • Conglomerations of protein, proteinuria Cell, hyaline, renal failure or further degeneration of granular casts, associated with chronic renal disease and renal failure or diabetic nephropathy, malignant hypertension, and glomerularnephritis Epithelial • • Shed from bladder from tumor, infection, or polyps Tubule epithelial casts indicate glomerulonephritis • • • Five or more indicate UTI involving bladder, kidneys, or both Inflammatory nephritis, glomerulonephritis pyelonephritis • Bladder, urethral, and ureteral disease, tumor, trauma stones infection, glomerloneprhitis, renal infarct, goodpasture, vasculitis, sickle cell, interstitial nephritis, tubular necrosis, pyelonephritis WBC RBC Cardiac cath • Normal heart muscle motion, normal and patent coronary arteries, normal great vessels, and normal intracardiac pressure and volume • Indications: • Visualize heart chambers, arteries, and great vessels • Evaluate chest pain • Locate region or coronary occlusion in patients with positive stress test • Right heart determines CO measures right heart pressures and can identify pulmonary emboli cath • Test explanation: • • • • • • • • • • • • • • Identify, locate, and quantify severity of atherosclerotic, occlusive disease Evaluate severity of septal defects Presence and degree of congenital cardiac anomalies Evaluate previous cardiac surgery Evaluate muscle function Identify ventricular aneurysms Identify and locate acquired disease of great vessels Evaluate and treat patients with acute MI Insert a cath monitor right sided heart pressures and pulmonary wedge pressures Dilate stenotic coronary arteries place coronary stent or laser arterectomy In right sided jugular, subclavian, brachial or femoral vein Left right femoral artery is cannulated or brachial or radial artery Percutaneous transluminal coronary angioplasty balloon and stent Arterectomy involves using a rotating knife to breakout plaques cath • Contra • • • • • • • Unable to cooperate Refuse intervention if an amenable lesion were found Iodine dye allergy Pregnant patients Renal disorders Bleeding propensity Complications • • • • • • • • Arrhythmias Perforation of myocardium Renal failure Catheter induced embolic cerebrovascular accident (stroke) Arterial thrombosis, embolism, or pseudoaneurysm Infection Pneumothorax after subclavian insertion Hypoglycemia or acidosis Pulmonary function • Indication: • • • • • Preoperative evaluation of lungs and pulmonary reserve when planned surgery will cause loss of functional pulmonary tissue like lobectomy or pneumonectomy risk of pulmonary failure exists or if preoperative compromised by COPD Evaluate response to bronchodilator therapy in patients with COPD Differentiate between restrictive and obstructive forms of chronic pulmonary disease restrictive (fibrosis, tumors, chest wall trauma) obstructive (emphysema, bronchitis, asthma) Determine diffusing capacity of lungs Perfomance of inhalation tests in patients with inhalation allergies Pulmonary function • Test explanation • • • • • • • • • Detect abnormalities in respiratory function determine extent of abnormality Include spirometry, measurement of airflow rates, calculation of lung volumes and capacities Spirometer measures air volumes values greater than 80% are normal provides info about obstruction or restriction Add a time element plotted on an X-Y axis, maximally inhale then forcefully exhale while being timed, if diminished a bronchodilator can be given to monitor improvement Nitrogen and helium techniques monitor lung capacity Gas exchange measure diffusing capacity of lung using CO abnormal in CHF, pneumonia and other diseases that fill alveoli with fluid or exudate Forced vital capacity: amount of air forcefully expelled from maximal inflation Forced expiratory volume in 1 second (FEV1) in obstructive disease airways are narrowed and resistance to flow is high therefore not as much air can be expelled in one second and is less than predicted value restrictive it is decreased because amount of air inhaled is low in restrictive FEV/FVC is 80% obstructive is a lot less Maximal midexpiratory flow or force midexpiratory flow maximal rate of airflow through the pulmonary tree during forced expiration low in obstructive Pulmonary function • • • • • • • • • • • • • Maximal volume ventilation maximal volume of air that a patient can breathe in and out during one minute low in restrictive and obstructive Tidal volume: volume of air inspired and expired with each normal respiration Inspiratory reserve volume maximum that can be inspired from end of normal inspiration Expiratory reserve colume max volume of air that can be exhaled after normal expiration Residual volume: volume of air remaining of air that can be inspired after normal expiration Functional residual capacity amount of air left in the lungs after normal expiration Vital capacity max amount of air that can be expired after max inspiration Total lung capacity volume to which lungs can be expanded with greatest inspiratory volume Minute volume volume of air inhaled and exhaled per minute Dead space part of VT that does not participate in alveolar gas exchange Forced expiratory flow portion of airflow curve most affected by airway obstruction Peak inspiratory flow rate flow rate of inspired air during max inspiration indicates large airway disease Peak expiratory flow rate max airflow rate during forced expiration Drug Clinical app Adverse affects Contraindications Therapeutic considerations Atenolol HTN, angina, thyroid storm, HF AV block, bradyarrythmia, sedation, decreased libido, mask hypoglycemia, depression, dyspnea, wheezing Bronchial asthma, COPD, cardiogenic shock, decompensated heart failure, 2nd and 3rd degree AV block, severe sinus bradycardia Beta one selective adrenergic antagonists ASA Prophylaxis against transient ischemic attack, MI, acute coronary syndrome, prevent reocclusion, arthritis, mild pain or fever GI bleeding, acute renal insufficiency, thrombocytopenia, Reye, asthma, tinnitus, dyspepsia, occult bleeding, prolonged bleeding, rash NSAID induced sensitivity, chickenpox of flu like symptoms, G6PD deficiency Bleeding like hemophilia, von Willebrand thrombocytopenia Inhibit Cox 1,2 Use cautiously with GI bleeds impaired renal function, vit K deficiency, purpura, hepatic impairment Eptifibatide integrelin Acute coronary syndrome, percutaneous coronary intervention Major bleeding, intracerebral hemorrhage, hypotension, bleeding History of bleeding, second GIIb-IIIa, recent major surgery, recent stroke, intracranial hemorrhage, uncontrolled hypertension Don’t give with second, minimize arterial and venous puncture, synthetic peptide as parenteral heparin Prevent embolism, thrombosis, prevent systemic embolism with MI, unstable angina, open heart surgery, DIC, maintain patency IV cath Hemorrhage, heparin induced thrombocytopenia, hypersensitivity, prolonged clotting time, mucosal ulceration, hematoma Heparin induced thrombocytopenia, active major bleeding, bleeding tendencies, open ulcerative wounds, conditions that increase capillary permeability, severe HTN, bacterial endocarditis Unfractionated causes thrombocytopenia more than LMW, antihistamines, cardiac glycosides, nicotine and tetracycline affect ability Cephalosporins, penicillins, oral anticoagulants, platelet inhibitors may increase affects Don’t use ginger, garlic, ginkgo Drug Clinical app Adverse effects Contraindications Therapeutic considerations Isosorbide mononitrate Prophylaxis of angina, treatment of chronic ischemic heart disease Refractory hypotension, palpitations, tachycardia, syncope, flushing, headache Severe hypotension, shock or acute MI with low left ventricular filling pressure, increased intracranial pressure, angle closure glaucoma, co administration of phosphodiesterase inhibitor type V Preferred due to longer half life, better absorption, nonsusceptibility to extensive first pass, less rebound angina, greater efficacy, venous dilation greater than arterial, can lead to tolerance nitroglycerin Short acting, short term treatment of acute anginal attacks Same as above Same as above, transdermal contraindicated in patients allergic to skin tape, IV contraindicated in tamponade, restrictive cardiomyopathy, constrictive pericarditis Same as above, may be less effected due to shorter half life simvastatin Hypercholesteremia, familial, coronary atherosclerosis, prophylaxis for coronary atherosclerosis Myopathy, rhaddomyolysis, hepatotoxicity, dermatomyositis, abdominal pain, constipation, diarrhea, nausea, headache Active liver disease pregnancy and lactation Lowering LDL metabolized by P450, 3A4 inhibitors increase risk of myopathy, combo with bile acid sequestrant or cholesterol absorption inhibitor additive decrease in LDL, combo with niacin maybe used in high LDL and low HDL increases risk of myopathy, gemfibrozil decreases statin clearance induce rhabdo HCTZ/ triamterene HTN, adjunct in edema states associated with HF, cirrhosis, renal dysfunction, corticosteroid and estrogen Arrhythmia, stevens-johnson, pancreatitis, hepatotoxicity, SLE, hypotension, alkalosis, vasculitis, photosensitivity, electrolyte abnormalities, impotence, restlessness, blurrred vision, headache, hyperglycemia, hyperuricemia Anuria, hypersensitivity to sulfonamides, co administration with agents that prolong QT First line in treating HTN, diminish hypercalcuria in patients at risk for nephrolithiasis, decreases glucose tolerance may unmask diabetes, don’t use with antiarrhythmic Ocular exam • • • • • • • • • • • • • • • • Done without dilating the eye looking at posterior structures of retina To see peripheral structures like macula you dilate with mydriatic drops Darken room, turn on light, turn lens to 0 diopter Shine line over pupil and look for orange/red glow Opacity of lens is a cataract or detached retina or retinoblastoma Hippus (spasm) of pupil if you shine light too brightly Optic disc and retina should be yellowish orange to creamy pink Vessels become progressively larger as they approach the disc Minus diopter for nearsighted, positive for farsighted Look for sharpness or clarity of disc outline, color, size and central physiology, symmetry Bulging swelled cup caused by increased intracranial pressure called papilledema may be caused by meningitis, subarachnoid hemorrhage, trauma, and mass lesions Spontaneous venous pulsations are normal, follow vessels to the periphery notice shape, color, size, and distribution Fovea should be a tiny bright light reflection have patient look directly into the light Look for opacities in vitreous or lens rotating diopters to +10 or 12 Physiologic cup is a small whitish depression from which retinal vessels emerge, grayish spots are normal Rings and crescents can be seen as well as medulated nerve fibers (irregular white patches) both are normal Serum amylase • • • • Critical when 3x upper limit (60-120 normal) Detect and monitor the clinical course of pancreatitis Ordered frequently when a patient presents with acute abdominal pain Test explanation • • • • • • • • Most specific for pancreatitis Amylase is normally secreted from pancreatic acinaar cells into pancreatic duct and into duodenum Aids in the digestion of carbs Damage to acinar or obstruction of duct by carcinoma or gallstones causes outpouring into intrapancreatic lymph and free peritoneum Abnormal levels rise within 12 hours of the onset of the disease It is rapidly excreted to persistence will show if pathology is persistent Not specific can be elevated for bowel perforation, penetrating peptic ulcer, duodenal obstruction, salivary gland infection, ectopic pregnancies, severe diabetic ketoacidosis Patients with chronic pancreatic necrosis due to tumor or massive hemorrhage may cause low amylase levels Serum amylase • Interfering factors • • • • Serum lipidemia factitiously decreases amylase IV dextrse lowers amylase Aminosalicylic acid, aspirin, azathioprine, corticosteroids, dexamethasone, ethyl alcohol, glucocorticoids, iodine containing contrast medium, loop diuretics, methyldopa, narcotic analgesics, oral contraceptives, prednisone Increased levels • • • • • • • • • Acute pancreatitis, chronic relapsing pancreatitis, penetrating peptic ulcer into the pancreas GI disease Acute cholecystitis Parotiditis (mumps) Ruptured ectopic pregnancy Renal failure Diabetic ketoacidosis Pulmonary infarction After endoscopic retrograde pancreatography Urine amylase • Normal value up to 5000 somogyi units • Used to assist in making the diagnosis of pancreatitis although other nonpancreatic diseases can cause elevated urine amylase levels • Levels rise later than blood amylase levels • Several days after the onset of disease serum mmay be normal but urine levels are significantly elevated, useful for detecting pancreatitis late in the disease course • Test explanation: • • • Kidneys clear amylase, disorders that affect pancreas cause increased amylase levels in urine Serum levels rise transiently after resolution of acute phase of disease, urine levels remain elevated 5-7 days after onset Not specific for disorders: parotiditis, cholecystitis, perforated bowel, peptic ulcer, ectopic pregnancy and renal disease Tc99 sestamibe • • • • • • • • • Measures left ventricular muscle function and coronary artery blood distribution Tc99 given intravenously then a radiation detector is placed over heart Myocardial cells take up substance and appear as hotspots on the photoscan where as areas of ischemia appear as cold spots First pass gives the best images A Tc can be given that binds to calcium when ischemia or early infarction has occurred the calcium leaks out of cardiac cells which shows an MI hotspot scan used when LVH or LBBB is hard to see on EKG good for those with chest pain 5-10 days before seeing the doctor Can be used to assess ischemia during stress testing radionuclide injected IV at point of maximal cardiac stress accumulates in the myocardium in proportion to regional blood flow, normal will have higher radionuclide activity good for post operative bypass monitoring and the diagnosis of CAD Can also evaluate ejection fraction with pertechnate values less than 65% indicates ischemia, infarction, myopathy Cardiac flow rapid injection obtaining images immediately to avoid first pass provides info about direction of flow to and from ventricles good for kids in determining CHD Computer assisted gated scan allow for myocardial wall photography while in motion showing myocaytes during cardiac cycle Drug Clinical applications Adverse affects Contraindications Therapeutic considerations Omeprazole Peptic ulcer disease, GERD, erosive esophagitis, gastic acid hypersecretion h. Pylori GI tract infection Pancreatitis, hepatotoxicity, interstitial nephritis, may affect effects of clopidigrel increased risk of hip, wrist and spine fracture, hospital acquired pneumonia, and enteric infections including clostridium difficile, salmonella, E. coli, headache, rash, GI discomfort, diarrhea, anorexia, asthenia, back pain hypersensitivity Proton pump inhibitors metabolized in liver by CYP2C19 and CYP3A4 drug interaction with ketoconazle or itraconazle due to acid environment needed to absorb azole drugs Aluminum hydroxide Symptomatic relief of dyspepsia associated with peptic ulcer disease, GERD or hiatal hernia Phosphate depletion (severe weakness, malaise anorexia), constipation, osteomalacia in patients with renal failure hypersensitivity All antacids can potentially increase or decrease the rate or extent of absorption of concurrently administered oral drugs by changing transit time or by binding the drug Magnesium hydroxide Same as above Diarrhea, hypermagnesemia in patients with renal failure Hypersensitivity Same as above Abdominal pain GI disorders Urinary and renal disorders Abdominal pain acute and chronic Suprapubic pain Indigestion, nausea, vomiting including Dysuria, urgency or frequency blood, loss of appetite, early satiety Dysphagia and/or odynophagia Hesitancy, decreased stream in males Change in bowel function Polyuria or nocturia Diarrhea, constipation hematuria Jaundice Kidney or flank pain Ureteral colic Urinary incontinence Abdominal pain • Visceral pain occurs when hollow abdominal organs like intestines or biliary tree contract unusually forcefully or are distended or stretched • • • • • Parietal • • • • solid organs become painful when their capsules are stretched Pain usually near the midline at levels that vary according to the structure involved May be gnawing, burning, cramping or aching Sweating, pallor, nausea, vomiting, and restlessness Inflammation in the parietal peritoneum Steady, aching pain that is usually more severe than visceral Aggravated by moving or coughing Referred pain • • • • Develops as the initial pain becomes more intense and thus seems to radiate or travel from the initial site Duodenal or pancreatic refers to the back Biliary tree to the right shoulder or right posterior chest Pleurisy or acute MI may appear as epigastric pain Abdominal pain • • • • • • • • • • Determine timing, ask where it starts, ask patient to point to pain, ask if it radiates, ask severity Pay attention to exascerbating or remediating factors: association with meals, alcohol, medications, stress, body position, use of antacids Dyspepsia is chronic or recurrent discomfort or pain centered in the upper abdomen Discomfort is subjective negative feeling that may be bloating, nausea, upper abdominal fullness, and heartburn Inflammatory bowel might be related to bloating Function or nonulcer dyspepsia with 3 month history of nonspecfic abdominal discomfort or nausea not from an ulcer Heartburn, acid reflux or regurg more than once a week likely to have GERD related to prolonged acid clearance damping actions of bicarb, delayed emptying, hiatal hernia Heartburn is rising retrosternal burning pain or discomfort occurring weekly or more often associated with chocolate, citrus, coffee, onions, peppermints, alcohol, bending over, exercise, lifting or lying supine GERD may cause coughing, wheezing, and aspiration pneumonia or pharyngeal symptoms like hoarseness and chronic sore throat “alarm symptoms” difficulty swallowing (dysphagia), pain with swallowing (odyophagia), recurrent vomiting, GI bleeding, weight loss, anemia are low risk for gastric cancer BUN • • • • • • • • • • • > 100 mg/dL indicates serious impairment of renal function Indirect and rough measurement of renal function and GFR Measurement of liver function Measures the amount of urea nitrogen in the blood Formed in the liver as the end product of protein metabolism and digestion Related to the metabolic function of the liver and excretory function of the kidney Elevated BUN is called azotemia Usually indicates bilateral disease, unilateral can compensate Shock, dehydration, CHF, and excessive protein catabolism causes increased levels GI bleeding can also increase because blood proteins are broken down and absorbed in the intestines Ureteral and urethral obstruction can cause postrenal azotemia BUN • • • • Synthesis of urea depends on the liver Decreased BUN indicates liver disease BUN is taken with creatinine ratio is 6-25 Interfering factors: • • • • • • • Changes in protein intake, low protein diets decrease BUN Muscle mass determines BUN Advanced pregnancy GI bleeding Over and underhydration over dilutes BUN Drugs that increase: allopurinol, aminoglycosides, cephalosporins, chloral hydrate, cisplatin, furosemide, guanethidine, indomethacin, methotrexate, methyldopa, nephrotoxic drugs (aspirin, amphotericin B, carbamazepine, colistin, gentamicin, methicillin, neomycin, penicillin, polymyxin B, probenecid, vancomysin), propanolol, rifampin, spironolactone, tetracycline, thiazide and triamterene Drugs that decrease chloramphenicol and streptomycin Stool hemoccult • • Screening for colorectal cancer Test explanation • • • • • • • Tumors of the intestine grow into the lumen and are subjected to repeat trauma by the fecal stream The friable neovascular tumor ulcerates and bleeds Guaiac chemistry performed on the stool to detect blood peroxidase like activity of hgb catalyzes reaction of peroxide and a chromogen forming ortholidine OB can be detected by immunochemical methods called fecal immunochemical test (FIT) or immunochemical fecal occult blood test not affected by red meats or plants like Guaiac may fail to recognize upper GI blood DNA stool sample test is twice as sensitive as guaiac for colorectal precancerous, benign or malignant tumors because some polyps don’t shed blood Benign, malignant GI tumors, ulcers, inflammatory bowel disease, arteriovenous malformations, diverticulosis, hematobilia all cause OB Hemorrhoids swallowed blood Stool hemoccult • Interfering factors • • • • • • • Bleeding gums following dental procedure or disease Animal hemoglobin of ingested animal meat Peroxidase rich vegetables (turnips, horseradish, artichokes, mushrooms, radishes, broccoli, bean sprouts, cauliflower, oranges, bananas, cantaloupes, grapes) Anticoags, aspirin, colchicine, iron, nonsteroidal antiarthritics, and steroids drugs that instigate peroxidation reaction Boric acid, bromides, colchicine, iodine, iron, rauwolfia Vitamin C inhibits peroxidation reaction causing false negatives Results and significance • • • • • • GI tumor and polyps Peptic ulcers Varices from portal hypertension IBS GI trauma or surgery Hemorrhoids and other anorectal problems Drug Clinical application Adverse affects Contraindicatio ns Therapeutic consideration Donepezil Mild to moderate Alzheimer’s/De mentia Diarrhea, nausea, vomiting, cramps, anorexia, vivid dreams Treatment associated liver function test abnormalities Modest symptomatic benefits ACHe inhibitors Pantoprazole Same as omeprazole Same as omeprazole Same as omeprazole Given as IV decrease acid secretion by irreversibly inhibiting H+/K+ ATPase on parietal cells Drug Applications Adverse effects Contraindications Therapeutic considerations Naproxen Propionic acid, mild to moderate pain, fever, osteoarthritis, RA, dysmenorrhea, gout GI hemorrhage, ulceration, perforation, Stevens-Johnson syndrome, pseudoporphyria, GI disturbance, tinnitus GI or intracranial bleeding, coag defects, asthma, urticaria, allergic type reactions, significant renal insufficiency Longer half life, 20x more potent causes fewer GI adverse affects Ketorolac Acetic acid Same as above Same as above Analgesia in postsurgical patients, used for no more than 3-5 days FeSO4 Iron supplement for anemia due to blood loss and iron insufficiency Stomach upset or pain, constipation, diarrhea, nausea or vomiting Diabetes, infants, may upset ulcers, not to be take with thalassemias, may irritate IBS Alkaline phosphatase • • Used to detect and monitor diseases of the liver or bone Test explanation • • • • • • • • • • • • Highest concentration found in liver, biliary tract epithelium, and bone, intestinal mucosa and placenta Functions in alkaline pH ALP in kupffer cells lining biliary collecting system and is excreted in the bile Increased in extra and intrahepatic obstructive biliary disease and cirrhosis Hepatic tumors, hepatotoxic drugs, and hepatitis increase levels Most sensitive test to detect tumor metastasis to the liver New bone growth elevates ALP Osteoblastic metastatic (breast, prostate) tumors Paget, healing fractures, RA, hyperparathyroidism, and normal growing bones are sources of elevated ALP ALP1 is liver origin and is heat stable ALP2 is inactivated by heat and is bone ALP 5’ nucleotidase are elevated in diseases of the liver ALP • Interfering factors: • Recent ingestion of a meal can increase levels • Young children with rapid bone growth • Albumin made from placental tissue, allopurinol, antibiotics, azathioprine, colchicine, fluorides, indomethacin, isoniazid, methotrexate, methyldopa, nicotinic acid, phenothiazine, probenecid, tetracycline, and verapamil may increase ALP • Arsencials, cyanides, fluorides, nitrofurantoin, oxalates, and zinc salts may lower ALP GGT • • Sensitive to hepatobiliary disease, indicates heavy and chronic alcohol use Test explanation • • • • • • • • • • Enzyme participates in the transfer of amino acids and peptides across the cell membrane Highest concentrations found in liver and biliary tract Smaller concentrations found in kidney, spleen, heart, intestine, brain, and prostate gland Detect liver cell dysfunction highly accurate in indicating even slightest degree of cholestasis Detects biliary obstruction, cholangitis, or cholecystitis Parallels elevation of ALP but more sensitive Not increased in bone disease Elevated in 75% of patients that chronically drink Elevated with MI Interfering factors • • • May decrease late in pregnancy Drugs that increase: alcohol, phenobarbitol, and phenytoin Drugs that decrease: clofibrate and oral contraceptives Gliadin antibodies • Endomysial IgA, gliadin IgA, tissue transglutaminase • Diagnose celiac disease and sprue by identifying ab to gliadin and gluten in affected patients • Crohn, colitis, and severe lactose intolerance may increase levels • Test explanation • Patients cannot tolerate ingestion of gliadin and gluten which are toxic to intestinal mucosa • Patients experience severe malabsorptive symptoms • Gliadin and gluten cause direct mucosal damage and Ig appear in gut mucosa and in serum Lactose tolerance test • Used to diagnose lactose intolerance caused by lactase insufficiency, intestinal malabsorption, maldigestion, or bacterial overgrowth in small intestine • Test explanation: • • • • • • Glucose plasma will not rise after the ingestion and the small bowel is flooded with a high lactose load Bacterial catabolism occurs in the intestine creates flatus and hydrogen Symptoms include flatulence, abdominal cramping, bloating, diarrhea, and failure to thrive in infants Lactose load is given and if lactase is absent then the serum glucose will not rise Given glucose tolerance test to isolate lack of lactase Breath test in which expelled air is analyzed for hydrogen content for when bacteria have taken over small intestine Lactose tolerance test • Interfering factors • • • • • • Enterogenous steatorrhea (malabsorption) Strenuous exercise will reduce glucose Diabetics have high glucose Smoking may increase blood glucose Ethnicity Antibiotics can decrease bacteria and cause false negative Ptt • Assess the intrinsic and common pathway of coag • Evaluates fibrinogen, prothrombin, V, VIII, IX, X, XI, and XII • Hepatocellular disease prolongs PTT and obstruction which precludes GI absorption of fat soluble vitamins prolongs time • Heparin prolongs PTT so it is used for therapy monitoring • Antihistamines, ascorbic acid, chlorpromazine, heparin and salicylates prolong PTT • Early DIC and extensive cancer causes decreased levels PT and INR • • • • • • • • • • • Evaluate extrinsic and common pathway Fibrinogen, prothrombin, V, VII, X Decreased levels: hepatocellular disease affect factors I, II, V, VII, IX, and X Obstructive biliary disease causes fat malabsorption A, D, E, and K affected Coumarin ingestion INR is organized data Warfarin interferes with vitamin K may be enhanced by aspirin, quinidine, sulfa, and indomethacin Barbituates, chloral hydrate and oral contraceptives cause increased coumarin drug binding decreasing the effects Alcohol can prolong Diet high in fat or leafy vegetables may shorten OT Diarrhea or malabsorption can prolong Upper GI series • Visualize esophagus, stomach, and duodenum to evaluate dysphagia, weight loss, early satiety, upper abdominal pain, ulcer symptoms or dyspepsia, alcoholism and suspected varices, results of barium swallow or x-ray shows pathologic condition • Channels for air, scope, cauterizing tools • AV malformations, tumors, enteropathies (celiac) and ulcerations • Video capsule for small intestine and detecting polyps, IBS, ulcers, tumors of small intestines • Not for patients who don’t cooperate, severe bleeding, esophageal diverticula, suspected perf, recent GI surgery • May cause pulmonary aspiration, perf, bleeding from biopsy, oversedation, local IV phlebitic reaction, hypotension sigmoidoscopy • Direct visualization of rectum and sigmoid colon • Diagnose suspected pathology of those organs • Recommended for patients with a change in bowel habits or obvious occult blood or abdominal pain • May remove polyps, reduce volvulus, obliterate hemorrhoids • Could perf colon, bleeding from biopsy sites • Poor bowel prep may obscure visualization, rectal bleeding may obstruct lens • Not for patients with diverticulitis, painful anorectal conditions, severe bleeding or suspected perf • Detect colorectal cancer, polyp, ulcerative proctitis, pseudomembranous colitis, intestinal ischemia Fecal fat • Confirm diagnosis of steatorrhea, when patient has large, greasy, and foul-smelling stools • Children with CF have obstructed pancreatic ducts so they cannot be expelled into the intestine • Any condition that causes malabsorption (sprue, Crohn, whipple, gallstones, tumor, duct obstructions) • Short gut causes higher fecal fat • Enemas and laxatives may increase fat • Barium and fiber laxatives decrease • Increased: CF, malabsorption due to celiac, sprue, whipple, crohn or radiation enteritis, short gut Barium enema • • • • • • • • • Visualize colon, distal small bowel, and appendix indicated when: abdominal pain, obvious or occult blood in the stools, IBS, suspected cancer, volvulus ro obstruction Determines presence of polyps, tumors, and diverticula also anatomic abnormalities Assess filling of the appendix failure to fill means appendicitis Affects diseases of ileum like Crohn, IBS, and fistulas Air contrast can be sufflated with polyp to increase accuracy Not to be performed with perf, non cooperative, megacolon May cause perf, fecal impaction Residual stool, spasm, and old barium may affect study Detect: fistula, perf, appendicitis, extrinsic compression of colon from extracolonic tumor, malrotation, colon volvulus, intussusception, hernia, colonic stenosis due to ischemia, infection or previous surgery, IBS, polyps, diverticula, tumor Lower abdominal pain • • • • • • • • For right lower quadrant ask if the pain is sharp, continuous, intermittent, and cramping if it migrates to pre-umbilical area it is appendicitis or PID, ruptured ovarian follicle, ectopic pregnancy Renal stones cause cramping in left or right lower quad Left lower quad or diffuse abdominal pain can be associated with fever and loss of appetite with a mass it may be diverticulitis Absent bowel sounds and firmness, guarding or rebound indicates small or large bowel obstruction Chronic pain ask about diarrhea or constipation Changes in bowel habits indicate colon cancer without structural abnormalities it can be IBS Nausea may progress to retching and vomiting Retching describes involuntary spasm of stomach, diaphragm, and esophagus precedes and culminates in vomiting • Seen in pregnancy, diabetic ketoacidosis, adrenal insufficiency, hyper calcemia, uremia, liver disease, emotional states, adverse drug reactions Lower abdominal pain • • • • • • • • • Regurgitation occurs in GERD, esophageal stricture and cancer Vomiting and pain may be small bowel obstruction Fecal odor occurs with small bowel obstruction or gastrocolic fistula Make sure vomit doesn’t contain blood brownish or coffee grounds, blood comes with esophageal or gastric varices, gastritis or peptic ulcer disease Lightheaded? Syncope Anorexia is loss of appetite Diabetic gastroparesis, anticholingergic meds, gastric outlet obstruction, gastric cancer, hepatitis cause early satiety Dysphagia difficulty swallowing orpharyngeal symptoms include drooling, nasopharyngeal regurg, and coughing Pointing below sternoclavicluar notch is esophageal dysphagia Abdominal series • • • • • • • • • • • Anterior posterior “KUB” kidneys, ureter, bladder Upright radiograph searching for free intraperitoneal air and/or intestinal air-fluid levels Glance over entire radiograph in relaxed manner allowing for obvious abnormalities to jump out Water dense organs like the liver and spleen will pop out presence of bowel gas in right and left upper quadrant indicate size because they are at lower edges of liver and spleen A liver shadow to the iliac crest indicates enlargement Psoas muscles are usually visible Renal shadows should be visible as gray structures surrounded by black retroperitoneal fat Look for calcifications in kidneys, ureters, urinary bladder, and gallbladder Evaluate the bowel gas pattern Look at bones systematically beginning with ribs and visible spine Free intraperitoneal air is usually visualized on upright radiograph Abdominal series • • • • • • • In adynamic ileus (paralytic ileus or ileus) there is too much bowel gas in the entire GI tract, may arise from intra-abdominal cases or as a reflex phenomenon from disease elsewhere In an obstruction there is usually air-filled, dilated intestine proximal to point of obstruction and little to no air distal to obstruction If obstruction versus ileus is unclear you can use a barium series, CT, and ultrasound Large bowel obstruction there is dilated colon proximal to obstruction little to none after Valvulae conniventes are regularly spaced thin mucosal folds that extend across the entire small bowel lumen Somewhat irregularly spaced transverse bands called colon septa or haustral folds do not extend all the way across colon lumen Sigmoid volvulus is common in the elderly: chronic constipation results in redundant sigmoid mesentery that twists on itself causing complete or partial obstruction showing dramatically dilated sigmoid colon Abdominal series • • • • • • Perforation shows air outside abdominal lumen, AP supine and upright radiographs Upright allows air to escape to subdiaphragmatic areas Pneumatosis intestinalis causes air in the wrong place Gas filled abscesses can be found in abdominal locations Gut lumen and wall using a GI contrast is cheaper than endoscopy Upper GI • • • • Antegrade small bowel • • Use a nasointestinal tube extended to duodenal jejunal junction Can distend small bowel and stomach and duodenum don’t obstruct visualization Retrograde small bowel • • • Patient drinks additional barium radiographs taken at 15 and 30 min Enteroclysis • • • Patient swallows liquid barium with gas producing crystals Visualize esophagus, stomach, and small intestine Use water based medium when perf is suspected Barium refluxed fro filled colon into the ileum Must give antispasmodic drugs Barium enema • • • • • Must have a clean colon give barium via rectal tube To diagnose ulcers and polyps Virtual colonoscopy can be done after giving a medication that tags fecal matter Insufflate the colon with air For colon cancer discovery Imaging features of GI abnormalities • • • • • • • • • • To detect: intraluminal lesions (polyp, foreign body or exophytic tumor), mucosal lesion (inflammation), mural lesion ( tumor, transmucosal inflammation and edema leads to a napkin ring appearance), extrinsic lesions(large mesenteric nodes adjacent to the gut displacing gut by external force), extraluminal projections (ulcerations and diverticula) Heart burn and dysphagia can lead to hiatal hernias common with GERD can be detected on barium esophagus along with strictures Esophagography is useful in studying motility disorders Upper GI series used to detect peptic ulcer diseases seen easily with double contrast Ulcers appear as blob of increased density filled with barium recurrent deformities of the adjacent bowel accompany an ulcer Stomach cancer is ulcerated, irregular mucosal mass Crohn’s is inflammation with ulcerations and thickening of the bowel, deeper lesions with skip lesions and deeper ulcerations Sprue shows small bowel dilation Ulcerative colitis ulcerations with loss of haustrations Polyps and cancer can be detected with double contrast barium enema Imaging features of GI abnormalities • Polyposis of the colon is characterized b multiple adenomas all with malignant potential • Polyps and tumors detected early with virtual colonoscopy • Acute appendicitis doesn’t need to be radiographed if physical exam strongly points to it • Plain films aren’t really helpful unless calcification is present • CT can be difficult but will be seen as a small tubular structure with distended lumen, thickening of the periappendiceal wall and inflammation of adjacent fat Signs and symptoms of hypothyroidism • Symptoms: • • • • • • • Fatigue, lethargy Modest weight gain with anorexia Dry, coarse skin and cold intolerance Swelling of face, hands, and legs Constipation Weakness, muscle cramps, arthralgias, paresthesia, impaired memory and hearing Signs: • • • • • • • Dry, coarse cool skin, sometimes yellowish from carotene, with nonpitting edema and loss of hair Periorbital puffiness Decreased systolic and increased diastolic BP Bradycardia and in late stages hypothermia Intensity of heart sounds sometimes decreased Impaired memory, mixed hearing loss, somnolence, peripheral neuropathy, carpal tunnel syndrome Slowed relaxation phase of reflexes such as the ankle reflex CBC with Diff • RBC, hgb, HCT, MCH, MCHC, MCV, WBC, neutrophils, lymphocytes, monocytes, eosinophils, basophils • Infection • Anemia • Indirect coombs is blood antibody screening to determine type before transfusion • Add donor serum to recipients blood • Then do coombs to see if there was a reaction Coombs test • • • • • • • • Used to detect the patient’s ab coating the transfused RBC evaluating suspected transfusion reactions Symptoms of transfusion reaction: fever, chills, rash, flank/back pain, bloody urine, fainting or dizziness Methyldopa and levodopa can cause non-blood group antigens to develop on RBC causing hemolysis Shows that RBCs have been attacked by ab in the bloodstream In lymphoma this can develop idiopathically If RBC have ab on them then coombs serum will cause agglutination greater the quantity the more clumping Interfering factors: antiphospholipid ab cause false positive, false positive: ampicillins, captopril, cephalosporin, chlorpromazine, chlopropamide, hydralazine, indomethacin, insulin, isoniazid, levodopa, methyldopa, penicillin, phenytoin, procainamide, quinidine, quinine, rifampin, steptomycin, sulfonamides, and tetracyclines Indicates hemolytic disease of newborn, incompatible blood transfusion, lymphoma, autoimmune hemolytic anemia (SLE, RA), mycoplasmal infection, mono, hemolytic anemia after heart bypass, adult idiopathic hemolytic anemia Iron, TIBC, and Transferrin • • Evaluate iron metabolism in deficiency, overload, or poisoning Test explanation • Serum iron • • • • • Iron deficient anemia: insufficient iron intake, inadequate gut absorption, increased requirements, loss of blood in menstruation, ulcer, colon neoplasm Decreased hgb causing microcytic, hypochromic RBC Decreased MCV and MCHC Decreased in serum level, elevated TIBC, and low transferrin are anemia TIBC and transferrin • • • • • • Proteins available to bind free iron During iron overload transferrin stays about the same In acute inflammatory reactions transferrin lowers also diminished in chronic illness like malignancy, collagen vascular disease, or liver disease Hypoproteinemia associated with low transferrin Increased transferrin in pregnancy and estrogen therapy TIBC measured by adding excess iron to serum saturating all transferrin, excess iron is removed iron left is a measurement of TIBC reflective of liver function and nutrition IRON, tibc, and transferrin • • • • • • • Transferrin saturation (serum iron x 100%)/TIBC Normal level is 20-50% Below 15% is iron deficient anemia Increased with hemolytic anemia, sideroblastic, or megaloblastic and iron overload or iron poisoning Chronic illness lowers serum iron decreased TIBC normal transferrin saturation Increased intake or absorption of iron leads to elevated iron levels TIBC is unchanged, saturation is very high Interfering factors • • • • • • Recent transfusion High iron meal Estrogen may increase like chloramphenicol, ethanol, BCP, methyldopa Decrease: ACTH, cholestyramine, colchicine, chloramphenicol, deferoxamine, methicillin, testosterone TIBC increased by fluoride and BCP TIBC decreased by ACTH and chloramphenicol Iron test results • Serum iron increase • • • • • • Hemosiderosis, hemochromatosis Iron poisoning Hemolytic anemia Massive blood transfusion Hepatitis or hepatic necrosis Lead toxicity • Serum iron decrease • Increased TIBC or transferrin • • • • • • Malnutrition, hypoproteinemia, inflammatory disease, cirrhosis, hemolytic anemia, pernicious anemia, sickle cell anemia Increased saturation • • Estrogen therapy Pregnancy late Polycythemia vera Iron deficient anemia Decreased TIBC or transferrin • • Insufficient dietary iron, chronic blood loss, inadequate absorption, pregnancy (late), iron deficient anemia, neoplasia Hemochromatosis or hemosiderosis, increased iron intake, hemolytic anemia Decreased saturation • Iron deficient anemia, chronic illness Drug Clinical applications Adverse reactions Contraindication Therapeutic s considerations levothyroxine T4, for hypothyroidism, myxedema coma Replaces missing hormone Hyperthyroidism , osteopenia, pseudotumor cerebri, seizure, myocardial infarction Acute MI, uncorrected adrenal cortical insufficiency Untreated thyrotoxicosis Cholestyramine and sodium polystyrene sulfonate decrease absorption of synthetic thyroid hormone Rifampin and phenytoin increase metabolism T4 desirable because of its longer half life