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رد: pharmacology Q & A [align=left]Q: What is the MOA of the RT Inhibitors? A: Inhibit RT of HIV and prevent the incorporation of viral genome into the host DNA Q: What is the most common cause of Pt noncompliance with Macrolides? A: GI discomfort Q: What is treated with Chloroquine, Quinine, Mefloquine? A: Malaria (P. falciparum) Q: What microorganisms are Aminoglycosides ineffective against? A: Anaerobes Q: What microorganisms are clinical indications for Tetracycline therapy? A: Vibrio cholerae A: Acne A: Chlamydia A: Ureaplasma A: Urealyticum A: Mycoplasma pneumoniae A: Borrelia burgdorferi (Lyme's) A: Rickettsia A: Tularemia Q: What microorganisms is Aztreonam not effective against? A: Gram + and Anerobes Q: What musculo-skeletal side effects in Adults are associated with Floroquinolones? A: Tendonitis and Tendon rupture Q: What neurotransmitter does Amantadine affect? How does it influence this NT? A: Dopamine; causes its release from intact nerve terminals Q: What organism is Imipenem/cilastatin the Drug of Choice for? A: Enterobacter Q: What organisms does Griseofulvin target? A: Dermatophytes (tinea, ringworm) Q: What parasites are treated with Pyrantel Pamoate (more specific)? A: Giant Roundworm (Ascaris), Hookworm (Necator/Ancylostoma), Pinworm (Enterobius) Q: What parasitic condition is treated with Ivermectin? A: Onchocerciasis ('river blindness'--rIVER-mectin) Q: What populations are Floroquinolones contraindicated in? Why? A: Pregnant women, Children; because animal studies show Damage to Cartilage Q: What should not be taken with Tetracyclines? / Why? A: Milk or Antacids, because divalent cations inhibit Tetracycline absorption in the gut Q: What Sulfonamides are used for simple UTIs? A: Triple sulfas or SMZ Q: When is HIV therapy initiated? A: When pts have Low CD4+ (< 500 cells/cubic mm) or a High Viral Load Q: When is Rifampin not used in combination with other drugs? A: 1. Meningococcal carrier state A: 2. Chemoprophylaxis in contacts of children with H. influenzae type B Q: Where does Griseofulvin deposit? A: Keratin containing tissues, e.g., nails Q: Which Aminoglycoside is used for Bowel Surgery ? A: Neomycin Q: Which antimicrobial classes inhibit protein synthesis at the 30S subunit? (2) A: 1) Aminoglycosides = bactericidal A: 2) Tetracyclines = bacteriostatic Q: Which antimicrobials inhibit protein synthesis at the 50S subunit? (4) A: 1) Chloramphenical = bacteriostatic A: 2) Erythromycin = bacteriostatic A: 3) Lincomycin = bacteriostatic A: 4)cLindamycin = bacteriostatic Q: Which individuals are predisposed to Sulfonamide-induced hemolysis? A: G6PD deficient individuals Q: Which RT inhibitor causes Megaloblastic Anemia? A: AZT Q: Which RT inhibitors cause a Rash? A: Non-Nucleosides Q: Which RT inhibitors cause Lactic Acidosis? A: Nucleosides Q: Which Tetracycline is used in patients with renal failure? / Why? A: Doxycycline, because it is fecally eliminated Q: Why are Methicillin, Nafcillin, and Dicloxacillin penicillinase resistant? A: Due to the presence of a bulkier R group Q: Why is Cilastatin administered with Imipenem? A: To inhibit renal Dihydropeptidase I and decrease Imipenem inactivation in the renal tubules Pharmacology toxicology Q&a Q: Acetaldehyde is ****bolized by Acetaldehyde dehydrogenase, which drug inhibs this enzyme? A: -Disulfram & also sulfonylureas, metronidazole Q: Explain pH dependent urinary drug elimination? A: -Weak Acids>Alkinalize urine(CO3) to remove more -Weak ****s>acidify urine to remove more Q: How do you treat coma in the ER (4)? A: -Airway -Breathing -Circulation -Dextrose(thiamine &narcan) -ABCD Q: In coma situations you rule out what (7)? A: -Infections -Trauma -Seizures -CO -Overdose -****bolic -Alcohol (IT'S COMA) Q: List some specifics of lead poisoning(4)? A: -A57Blue lines in gingiva& long bones -Encephalopathy & Foot drop -Abdominal colic / -Sideroblastic anemia Q: List the specific antidote for this toxin: Acetaminophen A: -N-acetylcystine Q: List the specific antidote for this toxin: Amphetamine A: -Ammonium Chloride Q: List the specific antidote for this toxin: Anticholinesterases (organophosphate.) A: -Atropine & pralidoxime Q: List the specific antidote for this toxin: Antimuscarinic (anticholinergic) A: -Physostigmine salicylate Q: List the specific antidote for this toxin: Arsenic (all heavy ****ls) A: -Dimercaprol, succimer Q: List the specific antidote for this toxin: Benzodiazepines A: -Flumazenil Q: List the specific antidote for this toxin: Beta Blockers A: -Glucagon Q: List the specific antidote for this toxin: Carbon monoxide A: -100% oxygen, hyperbaric Q: List the specific antidote for this toxin: Copper A: -Penicillamine Q: List the specific antidote for this toxin: Cyanide A: -Nitrate, hydroxocobalamin thiosulfate Q: List the specific antidote for this toxin: Digitalis A: -Normalize K+, Lidocaine, & Anti-dig Mab Q: List the specific antidote for this toxin: Heparin A: -Protamine Q: List the specific antidote for this toxin: Iron A: -Deferoxamine Q: List the specific antidote for this toxin: Lead A: -EDTA, dimercaprol, succimer, & penicillamine Q: List the specific antidote for this toxin: Methanol & Ethylene glycol A: -Ethanol, dialysis, & fomepizole Q: List the specific antidote for this toxin: Methemoglobin A: -Methylene blue Q: List the specific antidote for this toxin: Opioids A: -B51Naloxone / naltrexone (Narcan) Q: List the specific antidote for this toxin: Salicylates A: -Alkalinize urine & dialysis Q: List the specific antidote for this toxin: TPA & Streptokinase A: -Aminocaproic acid Q: List the specific antidote for this toxin: Tricyclic antidepressants A: -NaHCO3 Q: List the specific antidote for this toxin: Warfarin A: -Vitamin K & fresh frozen plasma Q: What are the products and their toxicities of the ****bolism of ethanol by / alcohol dehydrogenase? A: -Acetaldehyde -Nausea, vomiting, headache, & hypotension Q: What are the products and their toxicities of the ****bolism of Ethylene Glycol by / alcohol dehydrogenase? A: -Oxalic acid -Acidosis & nephrotoxicity Q: What are the products and their toxicities of the ****bolism of Methanol by / alcohol dehydrogenase? A: -Formaldehyde & formic acid -severe acidosis & retinal damage Q: Which drug(s) cause this reaction: Adrenocortical Insufficiency A: -Glucocorticoid withdrawal Q: Which drug(s) cause this reaction: Agranulocytosis (3)? A: -Cloazapine -carbamazapine -colchicine -PTU Q: Which drug(s) cause this reaction: Anaphylaxis? A: -Penicillin Q: Which drug(s) cause this reaction: Aplastic anemia (5)? A: -Chloramphenicol -benzene -NSAIDS -PTU -phenytoin Q: Which drug(s) cause this reaction: Atropine-like side effects? A: -Tricyclic antidepressants Q: Which drug(s) cause this reaction: Cardiac toxicity? A: -Daunorubicin & Doxorubicin Q: Which drug(s) cause this reaction: Cinchonism (2)? A: -Quinidine -quinine Q: Which drug(s) cause this reaction: Cough? A: -ACE inhibitors (Losartan>no cough) Q: Which drug(s) cause this reaction: Cutaneous flushing (4)? A: -Niacin -Ca++ channel blockers -adenosine -vancomycin Q: Which drug(s) cause this reaction: Diabetes insipidus? A: -Lithium Q: Which drug(s) cause this reaction: Disulfram-like reaction (4) ? A: -Metronidazole -certain cephalosporins -procarbazine -sulfonylureas Q: Which drug(s) cause this reaction: Drug induced Parkinson's (4) ? A: -Haloperidol -chlorpromazine -reserpine -MPTP Q: Which drug(s) cause this reaction: Extrapyramidal side effects (3)? A: -Chlorpromazine -thioridazine -haloperidol Q: Which drug(s) cause this reaction: Fanconi's syndrome? A: -Tetracycline Q: Which drug(s) cause this reaction: Focal to massive hepatic necrosis (4)? A: -Halothane -Valproic acid -acetaminophen -Amantia phalloides Q: Which drug(s) cause this reaction: G6PD hemolysis(8)? A: -Sulfonamides -INH -ASA -Ibuprofen -primaquine -nitrofurantoin /-pyrimethamine -chloramphenicol Q: Which drug(s) cause this reaction: Gingival hyperplasia? A: -Phenytoin Q: Which drug(s) cause this reaction: Gray baby syndrome? A: -Chloramphenicol Q: Which drug(s) cause this reaction: Gynecomastia (6) ? A: -Cimetidine -ketoconazole -spironolactone -digitalis -EtOH -estrogens Q: Which drug(s) cause this reaction: Hepatitis? A: -Isoniazid Q: Which drug(s) cause this reaction: Hot flashes? A: -Tamoxifen Q: Which drug(s) cause this reaction: Neuro and Nephrotoxic? A: -polymyxins Q: Which drug(s) cause this reaction: Osteoporosis (2)? A: -Corticosteroids -heparin Q: Which drug(s) cause this reaction: Oto and Nephrotoxicity (3)? A: -aminoglycosides -loop diuretics -cisplatin Q: Which drug(s) cause this reaction: P450 induction(6)? A: -Barbiturates -phenytoin -carbamazipine -rifampin -griseofulvin -quinidine Q: Which drug(s) cause this reaction: P450 inhibition(6)? A: -Cimetidine -ketoconazole -grapefruit juice -erythromycin -INH -sulfonamides Q: Which drug(s) cause this reaction: Photosensitivity(3)? A: -Tetracycline -amiodarone -sulfonamides Q: Which drug(s) cause this reaction: Pseudomembranous colitis? A: -Clindamycin Q: Which drug(s) cause this reaction: Pulmonary fibrosis(3)? A: -Bleomycin -amiodarone -busulfan Q: Which drug(s) cause this reaction: SLE-like syndrome A: -Hydralazine -Procainamide -INH -phenytoin Q: Which drug(s) cause this reaction: *******-Johnson syn. (3) ? A: -Ethosuxamide -sulfonamides -lamotrigine Q: Which drug(s) cause this reaction: Tardive dyskinesia? A: -Antipsychotics Q: Which drug(s) cause this reaction: Tendonitis and rupture? A: -Fluoroquinolones Q: Which drug(s) cause this reaction: Thrombotic complications? A: -Oral Contraceptives Q: Which drug(s) cause this reaction: Torsade de pointes (2) ? A: -Class III antiarrhythmics (sotalol) -class IA (quinidine) Q: Which drug(s) cause this reaction: Tubulointerstitial Nephritis (5)? A: -Sulfonamides -furosemide -methicillin -rifampin -NSAIDS (ex. ASA) Pharmacology general Q&a Q: Describe first-order kinetics? A: Constant FRACTION eliminated per unit time.(exponential) Q: Describe Phase I ****bolism in liver(3)? A: -reduction, oxy, & hydrolysis -H2O sol. Polar product -P450 Q: Describe Phase II ****bolism in liver(3)? A: -acetylation, glucuron.,& sulfation -Conjugation -Polar product Q: Explain differences between full and partial agonists(2). A: - Act on same receptor - Full has greater efficacy Q: Explain potency in relation to full and partial agonists(2). A: - partial agonist can have increased, decreased, /A21or equal potency as full agonist. - Potency is an independent factor. Q: How do spare receptors effect the Km? A: - ED 50 is less than the Km (less than 50% of receptors) Q: How do you calculate maintenance dose? A: Md= (CpxCL)/F Cp= plas. Conc. CL=clear. F=bioaval. Q: How does a competitive antagonist effect an agonist? A: -Shifts the curve to the right -increases Km Q: How does a noncompetitive antagonist effect an agonist? A: - Shifts the curve down -reduces Vmax Q: Name the steps in drug approval(4)? A: -Phase I (clinical tests) -Phase II -Phase III -PhaseIV (surveillance) Q: Steady state concentration is reached in __#half-lifes A: In 4 half-lifes= (94%) T1/2 = (0.7x Vd)/CL Q: What is the definition of zero-order kinetics? Example? A: -Constant AMOUNT eliminated per unit time. -Etoh &ASA Q: What is the formula for Clearance (CL) A: CL= (rate of elimination of drug/ Plasma drug conc.) Q: What is the formula for Volume of distribution (Vd) A: Vd= (Amt. of drug in body/ Plasma drug conc.) Q: What is the loading dose formula? A: Ld= (CpxVd)/F Cp=plasma conc. F= Bioaval. Pharmacology (from old Usmle tests) Q: Acetaminophen has what two clinical uses and lacks what one clinical use of the NSAIDs? A: Acetaminophen has antipyretic and analgesic properties, but lacks anti-inflammatory properties. Q: Can Heparin be used during pregnancy? A: Yes, it does not cross the placenta. Q: Can Warfarin be used during pregnancy? A: No, warfarin, unlike heparin, can cross the placenta. Q: Does Heparin have a long, medium, or short half life? A: Short. Q: Does Warfarin have a long, medium, or short half life? A: Long. Q: For Heparin what is the 1. Structure 2. Route of administration 3. Onset of action 4. Mechanism of action A: 1. Structure - Large anionic polymer, acidic A: 2. Route of administration - Paranteral (IV, SC) A: 3. Onset of action - Rapid (seconds) A: 4. Mechanism of action - Activates antithrombin III Q: Heparin continued: 5. Duration of action 6. Ability to inhibit coagulation in vitro 7. Treatment for overdose 8. Lab value to monitor 9. Site of action A: 5. Duration of action - Acute (hours) A: 6. Ability to inhibit coagulation in vitro - Yes A: 7. Treatment for overdose - Protamine sulfate A: 8. Lab value to monitor - aPTT (intrinsic pathway) A: 9. Site of action - Blood Q: For Warfarin what is the 1. Structure 2. Route of administration 3. Onset of action 4. Mechanism of action A: 1. Structure - Small lipid-soluble molecule A: 2. Route of administration -Oral A: 3. Onset of action - Slow, limited by half lives of clotting factors A: 4. Mechanism of action - Impairs the synthesis of vitamin K-dependent clotting factors Q: Warfarin continued 5. Duration of action 6. Ability to inhibit coagulation in vitro 7. Treatment for overdose 8. Lab value to monitor 9. Site of action A: 5. Duration of action - Chronic (weeks or months) A: 6. Ability to inhibit coagulation in vitro - No A: 7. Treatment for overdose - IV vitamin K and fresh frozen plasma A: 8. Lab value to monitor - PT A: 9. Site of action - Liver Q: Is toxicity rare or common whith Cromolyn used in Asthma prevention? A: Rare. Q: List five common glucocorticoids. A: 1. Hydrocortisone A: 2. Predisone A: 3. Triamcinolone A: 4. Dexamethasone A: 5. Beclomethasone Q: Of the following: 1. Antigen recognition, 2. Proliferation, 3. Differentiation synthesis, Q: 5. Tissue injury; Which sites do each of the following act upon? Q: 1. Prednisone 2. Cyclosporine 3. Azathioprine 4. Methotrexate A: 1. Prednisone - 2. Proliferation, 5. Tissue injury A: 2. Cyclosporine - 2. Proliferation, 3. Differentiation synthesis A: 3. Azathioprine - 2. Proliferation A: 4. Methotrexate - 2. Proliferation Q: Sites continued: 5. Dactinomycin 6. Cyclophosphamide A: 5. Dactinomycin - 2. Proliferation, 3. Differentiation synthesis A: 6. Cyclophosphamide - 2. Proliferation Q: Sites continued: 7. Antilymphocytic globulin and monoclonal anti-T-cell antibodies 8. Rh3(D) Immune globulin 9. Tacrolimus A: 7. Antilymphocytic globulin and monoclonal anti-T-cell antibodies - 1. Antigen recognition, 2. Proliferation, 3. Differentiation synthesis A: 8. Rh3(D) Immune globulin - 1. Antigen recognition A: 9. Tacrolimus - 4. Cytokine secretion. Q: Secretion of what drug is inhibited by Probenacid used to treat chronic gout? A: Penicillin. Q: The COX-2 inhibitors (celecoxib, rofecoxib) have similar side effects to the NSAIDs with what one exception? A: The COX-2 inhibitors should not have the corrosive effects of other NSAIDs on the gastrointestinal lining. Q: What are are the Sulfonylureas (general de******ion) and what is their use? A: Sulfonylureas are oral hypoglycemic agents, they are used to stimulate release of endogenous insulin in NIDDM (type-2). Q: What are five advantages of Oral Contraceptives (synthetic progestins, estrogen)? A: 1. Reliable (<1% failure) A: 2. Lowers risk of endometrial and ovarian cancer A: 3. Decreased incidence of ectopic pregnancy A: 4. Lower risk of pelvic infections A: 5. Regulation of menses Q: What are five disadvantages of Oral Contraceptives (synthetic progestins, estrogen)? A: 1. Taken daily A: 2. No protection against STDs A: 3. Raises triglycerides A: 4. Depression, weight gain, nausea, HTN A: 5. Hypercoagulable state Q: What are five possible toxic effects of Aspirin therapy? A: 1. Gastric ulceration A: 2. Bleeding A: 3. Hyperventilation A: 4. Reye's syndrome A: 5. Tinnitus (CN VIII) Q: What are five toxicities associated with Tacrolimus (FK506)? A: 1. Significant: nephrotoxicity A: 2. Peripheral neuropathy A: 3. Hypertension A: 4. Pleural effusion A: 5. Hyperglycemia. Q: What are four advantages of newer low-molecular-weight heparins (Enoxaparin)? A: 1. Better bioavailability A: 2. 2 to 4 times longer half life A: 3. Can be administered subcutaneously A: 4. Does not require laboratory monitoring Q: What are four clinical activities of Aspirin? A: 1. Antipyretic A: 2. Analgesic A: 3. Anti-inflammatory A: 4. Antiplatelet drug. Q: What are four clinical uses of glucocorticoids? A: 1. Addison's disease A: 2. Inflammation A: 3. Immune suppression A: 4. Asthma Q: What are four conditions in which H2 Blockers are used clinically? A: 1. Peptic ulcer A: 2. Gastritis A: 3. Esophageal reflux A: 4. Zollinger-Ellison syndrome Q: What are four H2 Blockers? A: 1. Ci****dine A: 2. Ranitidine A: 3. Famotidine A: 4. Nizatidine Q: What are four Sulfonylureas? A: 1. Tolbutamide A: 2. Chlorpropamide A: 3. Glyburide A: 4. Glipizide Q: What are four thrombolytics? A: 1. Streptokinase A: 2. Urokinase A: 3. tPA (alteplase), APSAC (anistreplase) Q: What are four unwanted effects of Clomiphene use? A: 1. Hot flashes A: 2. Ovarian enlargement A: 3. Multiple simultaneous pregnancies A: 4. Visual disturbances Q: What are nine findings of Iatrogenic Cushing's syndrome caused by glucocorticoid therapy? A: 1. Buffalo hump A: 2. Moon facies A: 3. Truncal obesity A: 4. Muscle wasting A: 5. Thin skin A: 6. Easy bruisability A: 7. Osteoporosis A: 8. Adrenocortical atrophy A: 9. Peptic ulcers Q: What are signs of Sildenafil (Viagra) toxicity? A: Headache, flushing , dyspepsia, blue-green color vision. Q: What are the clinical uses for Ticlopidine, Clopidogrel? A: Acute coronary syndrome; coronary stenting. Decreases the incidence or recurrence of thrombotic stroke. Q: What are the four conditions in which Omeprazole, Lansoprazole is used? A: 1. Peptic ulcer A: 2. Gastritis A: 3. Esophageal reflux A: 4. Zollinger-Ellison syndrome Q: What are three clinical uses of the Leuprolide? A: 1. Infertility (pulsatile) A: 2. Prostate cancer (continuous: use with flutamide) A: 3. Uterine fibroids Q: What are three clinical uses of the NSAIDs? A: 1. Antipyretic A: 2. Analgesic A: 3. Anti-inflammatory Q: What are three common NSAIDS other than Aspirin? A: Ibuprofen, Naproxen, and Indomethacin Q: What are three complications of Warfarin usage? A: 1. Bleeding A: 2. Teratogenicity A: 3. Drug-drug interactions Q: What are three possible complications of Heparin therapy? A: 1. Bleeding A: 2. Thrombocytopenia A: 3. Drug-drug interactions Q: What are three possible toxicities of NSAID usage? A: 1. Renal damage A: 2. Aplastic anemia A: 3. GI distress Q: What are three toxicities of Leuprolied? A: 1. Antiandrogen A: 2. Nausea A: 3. Vomiting Q: What are three toxicities of Propylthiouracil? A: 1. Skin rash A: 2. Agranulocytosis (rare) A: 3. Aplastic anemia Q: What are three types of antacids and the problems that can result from their overuse? A: 1. Aluminum hydroxide: constipation and hypophosphatemia A: 2. Magnesium hydroxide: diarrhea A: 3. Calcium carbonate: Hypercalcemia, rebound acid increase A: - All may cause hypokalemia Q: What are three unwanted effects of Mifepristone? A: 1. Heavy bleeding A: 2. GI effects (n/v, anorexia) A: 3. Abdominal pain Q: What are two Alpha-glucosidase inhibitors? A: 1. Acarbose A: 2. Miglitol Q: What are two clinical uses of Azathioprine? A: 1. Kidney transplantation A: 2. Autoimmune disorders (including glomerulonephritis and hemolytic anemia) Q: What are two conditions in which COX-2 inhibitors might be used? A: Rheumatoid and osteoarthritis. Q: What are two Glitazones? A: 1. Pioglitazone A: 2. Rosiglitazone. Q: What are two mechanisms of action of Propythiouracil? A: Inhibits organification and coupling of thyroid hormone synthesis. Also decreases peripheral conversion of T4 to T3. Q: What are two processes Corticosteroids inhibit leading to decreased inflammation? A: 1. Phospholipase A2 is prevented from releasing arachidonic acid [/align]
رد: pharmacology Q & A
رد: pharmacology Q & A [align=left]Q: What are Amantadine-associated side effects? A: Ataxia, Dizziness, Slurred speech Q: What are Aminoglycosides synergistic with? A: Beta-lactam antibiotics Q: What are Aminoglycosides used for clinically? A: Severe Gram - rod infections. Q: What are common serious side effects of Aminoglycosides and what are these associated with? A: Nephrotoxicity (esp. with Cephalosporins), Ototoxicity (esp. with Loop Diuretics) Q: What are common side effects of Amphotericin B? A: Fever/Chills, Hypotension, Nephrotoxicity, Arrhythmias Q: What are common side effects of Protease Inhibitors? A: GI intolerance (nausea, diarrhea), Hyperglycemia, Lipid abnormalities, Thrombocytopenia (Indinavir) Q: What are common side effects of RT Inhibitors? A: BM suppression (neutropenia, anemia), Peripheral neuropathy Q: What are common toxic side effects of Sulfonamides? (5) A: -Hypersensitivity reactions A: -Hemolysis A: -Nephrotoxicity (tubulointerstitial nephritis) A: -Kernicterus in infants A: Displace other drugs from albumin (e.g., warfarin) Q: What are common toxicities associated with Macrolides? (4) A: GI discomfort, Acute cholestatic hepatitis, Eosinophilia, Skin rashes Q: What are common toxicities associated with Tetracyclines? A: GI distress, Tooth discoloration and Inhibition of bone growth in children, Fanconi's syndrome, Photosensitivity Q: What are common toxicities related to Vancomycin therapy? A: Well tolerated in general but occasionally, Nephrotoxicity, Ototoxicity, Thrombophlebitis, diffuse flushing='Red Man Syndrome' Q: What are Fluoroquinolones indicated for? (3) A: 1.Gram - rods of the Urinary and GI tracts (including Pseudomonas) A: 2.Neisseria A: 3. Some Gram + organisms Q: What are major side effects of Methicillin, Nafcillin, and Dicloxacillin? A: Hypersensitivity reactions Q: What are Methicillin, Nafcillin, and Dicloxacillin used for clinically? A: Staphlococcus aureus Q: What are Polymyxins used for? A: Resistant Gram - infections Q: What are the Anti-TB drugs? A: Rifampin, Ethambutol, Streptomycin, Pyrazinamide, Isoniazid (INH) Q: What are the clinical indications for Azole therapy? A: Systemic mycoses Q: What are the clinical uses for 1st Generation Cephalosporins? A: Gram + cocci, Proteus mirabilis, E. coli, Klebsiella pneumoniae (PEcK) Q: What are the clinical uses for 2nd Generation Cephalosporins? A: Gram + cocci, Haemophilus influenza, Enterobacter aerogenes, Neisseria species, P. mirabilis, E. coli, K. pneumoniae, Serratia marcescens ( HEN PEcKS ) Q: What are the clinical uses for 3rd Generation Cephalosporins? A: 1) Serious Gram - infections resistant to other Beta lactams A: 2) Meningitis (most penetrate the BBB) Q: What are the clinical uses for Aztreonam? A: Gram - rods: Klebsiella species, Pseudomonas species, Serratia species Q: What are the clinical uses for Imipenem/cilastatin? A: Gram + cocci, Gram - rods, and Anerobes Q: What are the Macrolides used for clinically? A: -Upper respiratory tract infections A: -pneumonias A: -STDs: Gram+ cocci (streptococcal infect in pts allergic to penicillin) A: -Mycoplasma, Legionella,Chlamydia, Neisseria Q: What are the major structural differences between Penicillin and Cephalosporin? A: Cephalosporin: 1) has a 6 member ring attached to the Beta lactam instead of a 5 member ring A: 2)has an extra functional group ( attached to the 6 member ring) Q: What are the major toxic side effects of Imipenem/cilastatin? A: GI distress, Skin rash, and Seizures at high plasma levels Q: What are the major toxic side effects of the Cephalosporins? A: 1) Hypersensitivity reactions A: 2) Increased nephrotoxicity of Aminoglycosides A: 3) Disulfiram-like reaction with ethanol (those with a methylthiotetrazole group, e.g., cefamandole) Q: What are the side effects of Polymyxins? A: Neurotoxicity, Acute renal tubular necrosis Q: What are the side effects of Rifampin? A: Minor hepatotoxicity, Drug interactions (activates P450) Q: What are toxic side effects for Metronidazole? A: Disulfiram-like reaction with EtOH, Headache Q: What are toxicities associated with Chloramphenicol? A: Aplastic anemia (dose independent), Gray Baby Syndrome Q: What conditions are treated with Metronidazole? A: Giardiasis, Amoebic dysentery (E. histolytica), Bacterial vaginitis (Gardnerella vaginalis), Trichomonas Q: What do Aminoglycosides require for uptake? A: Oxygen Q: What do you treat Nematode/roundworm (pinworm, whipworm) infections with? A: Mebendazole/Thiabendazole, Pyrantel Pamoate Q: What drug is given for Pneumocystis carinii prophylaxis? A: Pentamidine Q: What drug is used during the pregnancy of an HIV + mother?, Why? A: AZT, to reduce risk of Fetal Transmission Q: What drug is used to treat Trematode/fluke (e.g., Schistosomes, Paragonimus, Clonorchis) or Cysticercosis A: Praziquantel Q: What is a common drug interaction associated with Griseofulvin? A: Increases coumadin ****bolism Q: What is a mnemonic to remember Amantadine's function? A: Blocks Influenza A and RubellA; causes problems with the cerebellA Q: What is a prerequisite for Acyclovir activation? A: It must be Phosphorylated by Viral Thymidine Kinase Q: What is a Ribavirin toxicity? A: Hemolytic anemia Q: What is an acronym to remember Anti-TB drugs? A: RESPIre Q: What is an additional side effect of Methicillin? A: Interstitial nephritis Q: What is an occasional side effect of Aztreonam? A: GI upset Q: What is Clindamycin used for clinically? A: Anaerobic infections (e.g., B. fragilis, C. perfringens) Q: What is clinical use for Carbenicillin, Piperacillin, and Ticarcillin? A: Pseudomonas species and Gram - rods Q: What is combination TMP-SMZ used to treat? A: Recurrent UTIs, Shigella, Salmonella, Pneumocystis carinii pneumonia Q: What is combined with Ampicillin, Amoxicillin, Carbenicillin, Piperacillin, and Ticarcillin to enhance their spectrum? A: Clavulanic acid Q: What is Fluconazole specifically used for? A: Cryptococcal meningitis in AIDS patients and Candidal infections of all types Q: What is Imipenem always administered with? A: Cilastatin Q: What is Ketoconazole specifically used for? A: Blastomyces, Coccidioides, Histoplasma, C. albicans; Hypercortisolism Q: What is Metronidazole combined with for 'triple therapy'? Against what organism? A: Bismuth and Amoxicillin or Tetracycline; against Helobacter pylori Q: What is Metronidazole used for clinically? A: Antiprotozoal: Giardia, Entamoeba, Trichomonas, Gardnerella vaginalis A: Anaerobes: Bacteroides, Clostridium Q: What is Niclosamide used for? A: Cestode/tapeworm (e.g., D. latum, Taenia species Except Cysticercosis Q: What is Nifurtimox administered for? A: Chagas' disease, American Trypanosomiasis (Trypanosoma cruzi) Q: What is the chemical name for Ganciclovir? A: DHPG (dihydroxy-2-propoxymethyl guanine) Q: What is the clinical use for Ampicillin and Amoxicillin? A: Extended spectrum penicillin: certain Gram + bacteria and Gram - rods Q: What is the clinical use for Nystatin? A: Topical and Oral, for Oral Candidiasis (Thrush) Q: What is the clinical use for Penicillin? A: Bactericidal for: Gram + rod and cocci, Gram - cocci, and Spirochetes Q: What is the major side effect for Ampicillin and Amoxicillin? A: Hypersensitivity reactions Q: What is the major side effect for Carbenicillin, Piperacillin, and Ticarcillin? A: Hypersensitivity reactions Q: What is the major toxic side effect of Penicillin? A: Hypersensitivity reactions Q: What is the memory aid for subunit distribution of ribosomal inhibitors? A: Buy AT 30, CELL at 50' Q: What is the memory key for Isoniazid (INH) toxicity? A: INH: Injures Neurons and Hepatocytes Q: What is the memory key for Metronidazole's clinical uses? A: GET on the Metro Q: What is the memory key for organisms treated with Tetracyclines? A: VACUUM your Bed Room' Q: What is the memory key involving the ***394; R's of Rifampin?' A: 1. RNA pol inhibitor A: 2. Revs up P450 A: 3. Red/orange body fluids A: 4. Rapid resistance if used alone Q: What is the MOA for Acyclovir? A: Inhibit viral DNA polymerase Q: What is the MOA for Amphotericin B? A: Binds Ergosterol, forms Membrane Pores that Disrupt Homeostatis Q: What is the MOA for Ampicillin and Amoxicillin? A: Same as penicillin. Extended spectrum antibiotics Q: What is the MOA for Carbenicillin, Piperacillin, and Ticarcillin? A: Same as penicillin. Extended spectrum antibiotics Q: What is the MOA for Clindamycin? A: Blocks Peptide Bond formation at the 50S subunit, Bacteriostatic Q: What is the MOA for Methicillin, Nafcillin, and Dicloxacillin? A: Same as penicillin. Act as narrow spectrum antibiotics Q: What is the MOA for Metronidazole? A: Forms toxic ****bolites in the bacterial cell, Bactericidal Q: What is the MOA for Nystatin? A: Binds ergosterol, Disrupts fungal membranes Q: What is the MOA for Rifampin? A: Inhibits DNA dependent RNA polymerase Q: What is the MOA for the Aminoglycosides? A: Inhibits formation of Initiation Complex, causes misreading of mRNA, Bactericidal Q: What is the MOA for the Azoles? A: Inhibit Ergosterol synthesis Q: What is the MOA for the Cephalosporins? A: Beta lactams - inhibit cell wall synthesis, Bactericidal Q: What is the MOA for the Fluoroquinolones? A: Inhibit DNA Gyrase (topoisomerase II), Bactericidal Q: What is the MOA for the Macrolides? A: Blocks trans********, binds to the 23S rRNA of the 50S subunit, Bacteriostatic Q: What is the MOA for the Tetracyclines? A: Binds 30S subunit and prevents attachment of aminoacyl-tRNA, Bacteriostatic Q: What is the MOA for Trimethoprim (TMP)? A: Inhibits bacterial Dihydrofolate Reductase, Bacteriostatic Q: What is the MOA for Vancomycin? A: Inhibits cell wall mucopeptide formation, Bactericidal Q: What is the MOA of Amantadine? A: Blocks viral penetration/uncoating; may act to buffer the pH of the endosome Q: What is the MOA of Aztreonam? A: Inhibits cell wall synthesis ( binds to PBP3). A monobactam Q: What is the MOA of Foscarnet? A: Inhibits Viral DNA polymerase Q: What is the MOA of Ganciclovir? A: Inhibits CMV DNA polymerase Q: What is the MOA of Griseofulvin? A: Interferes with microtubule function, disrupts mitosis, inhibits growth Q: What is the MOA of Imipenem? A: Acts as a wide spectrum carbapenem Q: What is the MOA of Isoniazid (INH)? A: Decreases synthesis of Mycolic Acid Q: What is the MOA of Polymyxins? A: Bind cell membrane, disrupt osmotic properties, Are Cationc, Basic and act as detergents Q: What is the MOA of Ribavirin? A: Inhibits IMP Dehydrogenase (competitively), and therefore blocks Guanine Nucleotide synthesis [/align]
pharmacology Q & A Pharmacology animicrobial Q&a Q: A common side effects of INF treatment is? A: Neutropenia Q: Antimicrobial prophylaxis for a history of recurrent UTIs A: TMP-SMZ Q: Antimicrobial prophylaxis for Gonorrhea A: Ceftriaxone Q: Antimicrobial prophylaxis for Meningococcal infection A: Rifampin (DOC), minocycline Q: Antimicrobial prophylaxis for PCP A: TMP-SMZ (DOC), aerosolized pentamidine Q: Antimicrobial prophylaxis for Syphilis A: Benzathine penicillin G Q: Are Aminoglycosides Teratogenic? A: Yes Q: Are Ampicillin and Amoxicillin penicillinase resistant? A: No Q: Are Carbenicillin, Piperacillin, and Ticarcillin penicillinase resistant? A: No Q: Are Cephalosporins resistant to penicillinase? A: No, but they are less susceptible than the other Beta lactams Q: Are Methicillin, Nafcillin, and Dicloxacillin penicillinase resistant? A: Yes Q: Clinical use of Isoniazid (INH)? A: Mycobacterium tuberculosis, the only agent used as solo prophylaxis against TB Q: Common side effects associated with Clindamycin include? A: Pseudomembranous colitis (C. difficile), fever, diarrhea Q: Common toxicities associated with Fluoroquinolones? A: GI upset, Superinfections, Skin rashes, Headache, Dizziness Q: Common toxicities associated with Griseofulvin are…...? A: Teratogenic, Carcinogenic, Confusion, Headaches Q: Describe the MOA of Interferons (INF) A: Glycoproteins from leukocytes that block various stages of viral RNA and DNA synthesis Q: Do Tetracyclines penetrate the CNS? A: Only in limited amounts Q: Does Ampicillin or Amoxicillin have a greater oral bioavailability? A: AmOxicillin has greater Oral bioavailability Q: Does Amprotericin B cross the BBB? A: No Q: Does Foscarnet require activation by a viral kinase? A: No Q: Foscarnet toxicity? A: Nephrotoxicity Q: Ganciclovir associated toxicities? A: Leukopenia, Neutropenia, Thrombocytopenia, Renal toxicity Q: How are INFs used clinically? A: Chronic Hepatitis A and B, Kaposi's Sarcoma Q: How are Sulfonamides employed clinically? A: Gram +, Gram -, Norcardia, Chlamydia Q: How are the HIV drugs used clinically? A: Triple Therapy' 2 Nucleoside RT Inhibitors with a Protease Inhibitor Q: How are the Latent Hypnozoite (Liver) forms of Malaria (P. vivax, P.ovale) treated? A: Primaquine Q: How can Isoniazid (INH)-induced neurotoxicity be prevented? A: Pyridoxine (B6) administration Q: How can the t1/2 of INH be altered? A: Fast vs. Slow Acetylators Q: How can the toxic effects fo TMP be ameliorated? A: With supplemental Folic Acid Q: How can Vancomycin-induced 'Red Man Syndrome' be prevented? A: Pretreat with antihistamines and a slow infusion rate Q: How do Sulfonamides act on bacteria? A: As PABA anti****bolites that inhibit Dihydropteroate Synthase, Bacteriostatic Q: How do the Protease Inhibitors work? A: Inhibt Assembly of new virus by Blocking Protease Enzyme Q: How does Ganciclovir's toxicity relate to that of Acyclovir? A: Ganciclovir is more toxic to host enzymes Q: How does resistance to Vancomycin occur? A: With an amino acid change of D-ala D-ala to D-ala D-lac Q: How is Acyclovir used clinically? A: HSV, VZV, EBV, Mucocutaneous and Genital Herpes Lesions, Prophylaxis in Immunocompromised pts Q: How is Amantadine used clinically? A: Prophylaxis for Influenza A, Rubella ; Parkinson's disease Q: How is Amphotericin B administered for fungal meningitis? A: Intrathecally Q: How is Amphotericin B used clinically? A: Wide spectrum of systemic mycoses: Cryptococcus, Blastomyces, Coccidioides, Aspergillus, Histoplasma, Candida, Mucor Q: How is Chloramphenical used clinically? A: Meningitis (H. influenza, N. meningitidis, S. pneumoniae), Conserative treatment due to toxicities Q: How is Foscarnet used clinically? A: CMV Retinitis in IC pts when Ganciclovir fails Q: How is Ganciclovir activated? A: Phosphorylation by a Viral Kinase Q: How is Ganciclovir used clinically? A: CMV, esp in Immunocompromised patients Q: How is Griseofulvin used clinically? A: Oral treatment of superficial infections Q: How is Leishmaniasis treated? A: Pentavalent Antimony Q: How is Ribavirin used clinically? A: for RSV Q: How is Rifampin used clinically? A: 1. Mycobacterium tuberculosis A: 2. Delays resistance to Dapsone when used of Leprosy A: 3. Used in combination with other drugs Q: How is Trimethoprim used clinically? A: Used in combination therapy with SMZ to sequentially block folate synthesis Q: How is Vancomycin used clinically? A: For serious, Gram + multidrug-resistant organisms Q: How would you treat African Trypanosomiasis (sleeping sickness)? A: Suramin Q: In what population does Gray Baby Syndrome occur? Why? A: Premature infants, because they lack UDP-glucuronyl transferase Q: Is Aztreonam cross-allergenic with penicillins? A: No Q: Is Aztreonam resistant to penicillinase? A: Yes Q: Is Aztreonam usually toxic? A: No Q: Is Imipenem resistant to penicillinase? A: Yes Q: Is Penicillin penicillinase resistant? A: No - duh Q: IV Penicillin A: G Q: Mnemonic for Foscarnet? A: Foscarnet = pyroFosphate analog Q: MOA for Penicillin (3 answers)? A: 1)Binds penicillin-binding proteins A: 2) Blocks transpeptidase cross- linking of cell wall A: 3) Activates autolytic enzymes Q: MOA: Bactericidal antibiotics A: Penicillin, Cephalosporins, Vancomycin, Aminoglycosides, Fluoroquinolones, Metronidazole Q: MOA: Block cell wall synthesis by inhib. Peptidoglycan cross-linking (7) A: Penicillin, Ampicillin, Ticarcillin, Pipercillin, Imipenem, Aztreonam, Cephalosporins Q: MOA: Block DNA topoisomerases A: Quinolones Q: MOA: Block mRNA synthesis A: Rifampin Q: MOA: Block nucleotide synthesis A: Sulfonamides, Trimethoprim Q: MOA: Block peptidoglycan synthesis A: Bacitracin, Vancomycin Q: MOA: Block protein synthesis at 30s subunit A: Aminoglycosides, Tetracyclines Q: MOA: Block protein synthesis at 50s subunit A: Chloramphenicol, Erythromycin/macrolides, Lincomycin, Clindamycin, Streptogramins (quinupristin, dalfopristin) Q: MOA: Disrupt bacterial/fungal cell membranes A: Polymyxins Q: MOA: Unkown A: Pentamidine Q: MOA isrupt fungal cell membranes A: Amphotericin B, Nystatin, Fluconazole/azoles Q: Name common Polymyxins A: Polymyxin B, Polymyxin E Q: Name several common Macrolides (3) A: Erythromycin, Azithromycin, Clarithromycin Q: Name some common Sulfonamides (4) A: Sulfamethoxazole (SMZ), Sulfisoxazole, Triple sulfas, Sulfadiazine Q: Name some common Tetracyclines (4) A: Tetracycline, Doxycycline, Demeclocycline, Minocycline Q: Name the common Aminoglycosides (5) A: Gentamicin, Neomycin, Amikacin, Tobramycin, Streptomycin Q: Name the common Azoles A: Fluconazole, Ketoconazole, Clotrimazole, Miconazole, Itraconazole Q: Name the common Fluoroquinolones (6) A: Ciprofloxacin, Norfloxacin, Ofloxacin, Grepafloxacin, Enoxacin, Nalidixic acid Q: Name the common Non-Nucleoside Reverse Tran******ase Inhibitors A: Nevirapine, Delavirdine Q: Name the common Nucleoside Reverse Tran******ase Inhibitors A: Zidovudine (AZT), Didanosine (ddI), Zalcitabine (ddC), Stavudine (d4T), Lamivudine (3TC) Q: Name the Protease Inhibitors (4) A: Saquinavir, Ritonavir, Indinavir, Nelfinavir Q: Name two classes of drugs for HIV therapy A: Protease Inhibitors and Reverse Tran******ase Inhibitors Q: Name two organisms Vancomycin is commonly used for? A: Staphlococcus aureus and Clostridium difficile (pseudomembranous colitis) Q: Oral Penicillin A: V Q: Resistance mechanisms for Aminoglycosides A: Modification via Acetylation, Adenylation, or Phosphorylation Q: Resistance mechanisms for Cephalosporins/Penicillins A: Beta-lactamase cleavage of Beta-lactam ring Q: Resistance mechanisms for Chloramphenicol A: Modification via Acetylation Q: Resistance mechanisms for Macrolides A: Methylation of rRNA near Erythromycin's ribosome binding site Q: Resistance mechanisms for Sulfonamides A: Altered bacterial Dihydropteroate Synthetase, Decreased uptake, or Increased PABA synthesis Q: Resistance mechanisms for Tetracycline A: Decreased uptake or Increased transport out of cell Q: Resistance mechanisms for Vancomycin A: Terminal D-ala of cell wall replaced with D-lac; Decreased affinity Q: Side effects of Isoniazid (INH)? A: Hemolysis (if G6PD deficient), Neurotoxicity, Hepatotoxicity, SLE-like syndrome Q: Specifically, how does Foscarnet inhibit viral DNA pol? A: Binds to the Pyrophosphate Binding Site of the enzyme Q: The MOA for Chloramphenicol is ……………..? A: Inhibition of 50S peptidyl transferase, Bacteriostatic Q: Toxic effects of TMP include………? A: Megaloblastic anemia, Leukopenia, Granulocytopenia Q: Toxic side effects of the Azoles? A: Hormone synthesis inhibition (Gynecomastia), Liver dysfunction (Inhibits CYP450), Fever, Chills Q: Toxicities associated with Acyclovir? A: Delirium, Tremor, Nephrotoxicity Q: What additional side effects exist for Ampicillin? A: Rash, Pseudomembranous colitis Q: What antimicrobial class is Aztreonam syngergestic with? A: Aminoglycosides يتبع ......
pharmacology Q & A
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