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Terramycin IM (lidocaine / oxytetracycline) Disease Interactions

There are 12 disease interactions with Terramycin IM (lidocaine / oxytetracycline):

Major

Antiarrhythmics (Includes Terramycin IM) ↔ Cardiovascular Dysfunction

Severe Potential Hazard, High plausibility

Applies to: Congestive Heart Failure, Hypotension

Antiarrhythmic agents can induce severe hypotension (particularly with IV administration) or induce or worsen congestive heart failure (CHF). Patients with primary cardiomyopathy or inadequately compensated CHF are at increased risk. Antiarrhythmic agents should be administered cautiously and dosage and/or frequency of administration modified in patients with hypotension or adequately compensated CHF. Alternative therapy should be considered unless these conditions are secondary to cardiac arrhythmia.

References

  1. Crouthamel WG "The effect of congestive heart failure on quinidine pharmacokinetics." Am Heart J 90 (1975): 335-9
  2. Halkin H, Meffin P, Melmon KL, Rowland M "Influence of congestive heart failure on blood levels of lidocaine and its active monodeethylated metabolite." Clin Pharmacol Ther 17 (1975): 669-76
  3. Gottlieb SS, Packer M "Deleterious hemodynamic effects of lidocaine in severe congestive heart failure." Am Heart J 118 (1989): 611-2
  4. "Product Information. Quinidex (quinidine)." Wyeth-Ayerst Laboratories, Philadelphia, PA.
  5. "Product Information. Corvert (ibutilide)." Pharmacia and Upjohn, Kalamazoo, MI.
  6. Ravid S, Podrid PJ, Lampert S, Lown B "Congestive heart failure induced by six of the newer antiarrhythmic drugs." J Am Coll Cardiol 14 (1989): 1326-30
  7. "Product Information. Xylocaine (lidocaine)." Astra USA, Westborough, MA.
  8. Thomson P, Melmon K, Richardson J, Cohn K Steinbrunn W, Cudihee R, Rowland M "Lidocaine pharmacokinetics in advanced heart failure, liver disease, and renal failure in humans." Ann Intern Med 78 (1973): 499-508
  9. "Product Information. Cordarone (amiodarone)." Wyeth-Ayerst Laboratories, Philadelphia, PA.
  10. Singh SN, Fletcher RD, Fisher SG, et al. "Amiodarone in patients with congestive heart failure and asymptomatic ventricular arrhythmia." N Engl J Med 333 (1995): 77-82
  11. Swiryn S, Kim SS "Quinidine-induced syncope." Arch Intern Med 143 (1983): 314-6
  12. "Product Information. Mexitil (mexiletine)." Boehringer-Ingelheim, Ridgefield, CT.
  13. "Product Information. Cordarone Intravenous (amiodarone)." Wyeth-Ayerst Laboratories, Philadelphia, PA.
  14. Prescott LF, Adjepon-Yamoah KK, Talbot RG "Impaired lignocaine metabolism in patients with myocardial infarction and cardiac failure." Br Med J 1 (1976): 939-41
  15. "Product Information. Adenocard (adenosine)." Fujisawa, Deerfield, IL.
  16. "Product Information. Quiniglute (quinidine)." Berlex, Richmond, CA.
  17. Ochs HR, Grube E, Greenblatt DJ, Arendt R "Intravenous quinidine in congestive cardiomyopathy." Eur J Clin Pharmacol 19 (1981): 173-6
View all 17 references
Major

Antiarrhythmics (Includes Terramycin IM) ↔ Proarrhythmic Effects

Severe Potential Hazard, High plausibility

Applies to: Arrhythmias

Antiarrhythmic agents can induce or worsen ventricular arrhythmias. Ventricular tachycardia, ventricular fibrillation, and torsades de pointes have occurred in some patients. Patients with underlying cardiac dysfunction, bradycardia, hypokalemia, hypomagnesemia, or high antiarrhythmic serum concentrations are at increased risk for drug-induced arrhythmias. Therapy with antiarrhythmics should be used with extreme caution in patients with or predisposed to arrhythmias. Evidence of improved survival is lacking for use of antiarrhythmic therapy in asymptomatic, non-life-threatening arrhythmias. Therapy with antiarrhythmic agents should be reserved for patients with life-threatening arrhythmias.

References

  1. "Product Information. Adenocard (adenosine)." Fujisawa, Deerfield, IL.
  2. Andrivet P, Beaslay V, Canh VD "Torsades de pointe with flecainide-amiodarone therapy." Intensive Care Med 16 (1990): 342-3
  3. "Product Information. Tambocor (flecainide)." 3M Pharmaceuticals, St. Paul, MN.
  4. "Product Information. Bretylol (bretylium)." DuPont Pharmaceuticals, Wilmington, DE.
  5. Nora MO, Chandrasekaran K, Hammill SC, Reeder GS "Prolongation of ventricular depolarization: ECG manifestation of mexiletine toxicity." Chest 95 (1989): 925-8
  6. "Product Information. Procan SR (procainamide)." Parke-Davis, Morris Plains, NJ.
  7. Cheesman M, Ward DE "Exacerbation of ventricular tachycardia by tocainide." Clin Cardiol 8 (1985): 47-50
  8. "Product Information. Cordarone Intravenous (amiodarone)." Wyeth-Ayerst Laboratories, Philadelphia, PA.
  9. Lo KS, Gantz KB, Stetson PL, et al "Disopyramide-induced ventricular tachycardia." Arch Intern Med 140 (1980): 413-4
  10. Said SAM, Somer ST, Luttikhuis HAO "Flecainide-induced JT prolongation, t wave inversion and ventricular tachycardia during treatment for symptomatic atrial fibrillation." Int J Cardiol 44 (1994): 285-7
  11. "Product Information. Rhythmol (propafenone)." Knoll Pharmaceutical Company, Whippany, NJ.
  12. Morganroth J, Horowitz LN "Incidence of proarrhythmic effects from quinidine in the outpatient treatment of benign or potentially lethal ventricular arrhythmias." Am J Cardiol 56 (1985): 585-7
  13. Ben-Sorek ES, Wiesel J "Ventricular fibrillation following adenosine administration. A case report." Arch Intern Med 153 (1993): 2701-2
  14. Meurer MK "A 21-year-old woman with rapid atrial fibrillation after adenosine administration." J Emerg Nurs 17 (1991): 135-6
  15. Raehl CL, Patel AK, LeRoy M "Drug-induced torsade de pointes." Clin Pharm 4 (1985): 675-90
  16. Boriani G, Biffi M, Frabetti L, Azzolini U, Sabbatani P, Bronzetti G, Capucci A, Magnani B "Ventricular fibrillation after intravenous amiodarone in wolff-parkinson-white syndrome with atrial fibrillation." Am Heart J 131 (1996): 1214-6
  17. Tzivoni D, Keren A, Stern S, Gottlieb S "Disopyramide-induced Torsade de pointes." Arch Intern Med 141 (1981): 946-7
  18. Sulke AN, Holt P, Sowton GE "Acceleration of conduction within an accessory pathway with propafenone." Int J Cardiol 28 (1990): 105-7
  19. Romer M, Candinas R "Adenosine-induced non-sustained polymorphic ventricular tachycardia." Eur Heart J 15 (1994): 281-2
  20. "Product Information. Pronestyl (procainamide)." Apothecon Inc, Plainsboro, NJ.
  21. Damle R, Levine J, Matos J, et al "Efficacy and risks of moricizine in inducible sustained ventricular tachycardia." Ann Intern Med 116 (1992): 375-81
  22. Exner DV, Muzyka T, Gillis AM "Proarrhythmia in patients with the Wolff-Parkinson-White Syndrome after standard doses of intravenous adenosine." Ann Intern Med 122 (1995): 351-2
  23. Cocco G, Strozzi C, Chu D, Pansini R "Torsades de pointes as a manifestation of mexiletine toxicity." Am Heart J 100 (1980): 878-80
  24. Faggiano P, Gardini A, Daloia A, Benedini G, Giordano A "Torsade de pointes occurring early during oral amiodarone treatment." Int J Cardiol 55 (1996): 205-8
  25. "Product Information. Corvert (ibutilide)." Pharmacia and Upjohn, Kalamazoo, MI.
  26. Sclarovsky S, Lewin RF, Kracoff O, Strasberg B, Arditti A, Agmon J "Amiodarone-induced polymorphous ventricular tachycardia." Am Heart J 105 (1983): 6-12
  27. Wesley RC Jr, Turnquest P "Torsades de pointe after intravenous adenosine in the presence of prolonged QT syndrome." Am Heart J 123 (1992): 794-6
  28. Hohnloser SH, Vandeloo A, Baedeker F "Efficacy and proarrhythmic hazards of pharmacologic cardioversion of atrial fibrillation: prospective comparison of sotalol versus quinidine." J Am Coll Cardiol 26 (1995): 852-8
  29. "Product Information. Xylocaine (lidocaine)." Astra USA, Westborough, MA.
  30. Au PK, Bhandari AK, Bream R, et al "Proarrhythmic effects of antiarrhythmic drugs during programmed ventricular stimulation in patients without ventricular tachycardia." J Am Coll Cardiol 9 (1987): 389-97
  31. Stavens CS, McGovern B, Garan H, Ruskin JN "Aggravation of electrically provoked ventricular tachycardia during treatment with propafenone." Am Heart J 110 (1985): 24-9
  32. Reed R, Falk JL, O'Brien J "Untoward reaction to adenosine therapy for supraventricular tachycardia." Am J Emerg Med 9 (1991): 566-70
  33. Williamson BD, Hummel J, Niebauer M, Man C, Strickberger SA, Daoud E, Morady F "Bradycardia-facilitated polymorphic ventricular tachycardia caused by amiodarone after radiofrequency modification of atrioventricular conduction." Am Heart J 130 (1995): 399-401
  34. Engler RL, LeWinter M "Tocainide-induced ventricular fibrillation." Am Heart J 101 (1981): 494-6
  35. Anderson JL, Popat KD "Paradoxical ventricular tachycardia and fibrillation after intravenous bretylium therapy." Arch Intern Med 141 (1981): 801-2
  36. Morganroth J, Pratt CM "Prevalence and characteristics of proarrhythmia from moricizine (themozine)." Am J Cardiol 63 (1989): 172-6
  37. Orebaugh SL, Handy M "Intravenous adenosine therapy accelerating rate of paroxysmal supraventricular tachycardia." Am J Emerg Med 10 (1992): 326-30
  38. Hii JT, Wyse DG, Gillis AM, et al "Propafenone-induced torsade de pointes: cross-reactivity with quinidine." Pacing Clin Electrophysiol 14 (1991): 1568-70
  39. Makkar RR, Fromm BS, Steinman RT, Meissner MD, Lehmann MH "Female gender as a risk factor for torsades de pointes associated with cardiovascular drugs." JAMA 270 (1993): 2590-7
  40. Hohnloser SH, Klingenheben T, Singh BN "Amiodarone-associated proarrhythmic effects - a review with special reference to torsade de pointes tachycardia." Ann Intern Med 121 (1994): 529-35
  41. Chia BL "Disopyramide induced atypical ventricular tachycardia." Aust N Z J Med 10 (1980): 665-8
  42. Riccioni N, Castiglioni M, Bartolomei C "Disopyramide-induced QT prolongation and ventricular tachyarrhythmias." Am Heart J 105 (1983): 870-1
  43. "Product Information. Cordarone (amiodarone)." Wyeth-Ayerst Laboratories, Philadelphia, PA.
  44. "Product Information. Ethmozine (moricizine)." DuPont Pharmaceuticals, Wilmington, DE.
  45. Kinney EL, Field EH, Salmon MP, Zelis R "Cardiac arrhythmias associated with disopyramide." N Engl J Med May (1990): 1146
  46. "Product Information. Mexitil (mexiletine)." Boehringer-Ingelheim, Ridgefield, CT.
  47. "Product Information. Tonocard (tocainide)." Merck & Co, Inc, West Point, PA.
  48. "Product Information. Norpace (disopyramide)." Searle, Skokie, IL.
  49. Celiker A, Tokel K, Cil E, Ozkutlu S, Ozme S "Adenosine induced torsades de pointes in a child with congenital long QT syndrome." Pacing Clin Electrophysiol 17 (1994): 1814-7
  50. Schweitzer P, Mark H "Torsade de pointes caused by disopyramide and hypokalemia." Mt Sinai J Med 49 (1982): 110-4
  51. Strickberger SA, Man KC, Daoud EG, et al. "Adenosine-induced atrial arrhythmia: a prospective analysis." Ann Intern Med 127 (1997): 417-22
  52. Silverman AJ, Machado C, Baga JJ, Meissner MD, Lehmann MH, Steinman RT "Adenosine-induced atrial fibrillation." Am J Emerg Med 14 (1996): 300-1
  53. Stratmann H, Walter K, Kennedy H "Torsade de pointes associated with elevated N-acetylprocainamide levels." Am Heart J 109 (1985): 375-6
  54. Buss J, Neuss H, Bilgin Y, Schlepper M "Malignant ventricular tachyarrhythmias in association with propafenone treatment." Eur Heart J 6 (1985): 424-8
  55. Nathan AW, Hellestrand KJ, Bexton RS, Camm AJ "Fatal ventricular tachycardia in association with propafenone, a new class IC antiarrhythmic agent." Postgrad Med J 60 (1984): 155-6
  56. Dhein S, Schott M, Gottwald E, Klaus W "Electrocardiological profile and proarrhythmic effects of quinidine, verapamil and their combination: a mapping study." Naunyn Schmiedebergs Arch Pharmacol 352 (1995): 94-101
  57. Bauman JL, Bauernfeind RA, Hoff JV, et al "Torsade de pointes due to quinidine: observations in 31 patients." Am Heart J 107 (1984): 425-30
  58. Heisler BE, Ferrier GR "Proarrhythmic actions of flecainide in an isolated tissue model of ischemia and reperfusion." J Pharmacol Exp Ther 279 (1996): 317-24
  59. Strasberg B, Sclarovsky S, Erdberg A, et al "Procainamide-induced polymorphous ventricular tachycardia." Am J Cardiol 47 (1981): 1309-14
  60. Koenig W, Schinz AM "Spontaneous ventricular flutter and fibrillation during quinidine medication." Am Heart J 105 (1983): 863-5
  61. Oberg KC, Otoole MF, Gallastegui JL, Bauman JL "''late'' proarrhythmia due to quinidine." Am J Cardiol 74 (1994): 192-4
  62. Dougherty AH, Gilman JK, Wiggins S, Jalal S, Naccarelli GV "Provocation of atrioventricular reentry tachycardia: a paradoxical effect of adenosine." Pacing Clin Electrophysiol 16 (1993): 8-12
View all 62 references
Major

Lidocaine (Includes Terramycin IM) ↔ Hepatic Dysfunction

Severe Potential Hazard, High plausibility

Applies to: Liver Disease

Lidocaine is rapidly and extensively metabolized by the liver. Less than 10% is eliminated unchanged in the urine. Several inactive and two active forms (MEGX and GX) have been identified. MEGX and GX exhibit antiarrhythmic and convulsant properties. GX accumulates during prolonged intravenous lidocaine infusion. The pharmacokinetic disposition of lidocaine is altered by changes in hepatic function, including hepatic blood flow. Therapy with lidocaine should be administered cautiously and dosing modifications for repeated or loading and maintenance doses may be necessary. Clinical monitoring of cardiac (continuous ECG) is required and serum metabolite concentrations and monitoring hepatic function are recommended.

References

  1. Thomson AH, Elliott HL, Kelman AW, et al "The pharmacokinetics and pharmacodynamics of lignocaine and MEGX in healthy subjects." J Pharmacokinet Biopharm 15 (1987): 101-15
  2. Huang YS, Lee SD, Deng JF, Wu JC, Lu RH, Lin YF, Wang YJ, Lo KJ "Measuring lidocaine metabolite - monoethylglycinexylidide as a quantitative index of hepatic function in adults with chronic hepatitis and cirrhosis." J Hepatol 19 (1993): 140-7
  3. Barry M, Keeling PW, Weir D, Feely J "Severity of cirrhosis and the relationship of a1-acid glycoprotein concentration to plasma protein binding of lidocaine." Clin Pharmacol Ther 47 (1990): 366-70
  4. Huet P-M, LeLorier J "Effects of smoking and chronic hepatitis B on lidocaine and indocyanine green kinetics." Clin Pharmacol Ther 28 (1980): 208-15
  5. Thomson P, Melmon K, Richardson J, Cohn K Steinbrunn W, Cudihee R, Rowland M "Lidocaine pharmacokinetics in advanced heart failure, liver disease, and renal failure in humans." Ann Intern Med 78 (1973): 499-508
  6. Bauer LA, Brown T, Gibaldi M, et al "Influence of long-term infusions on lidocaine kinetics." Clin Pharmacol Ther 31 (1982): 433-7
  7. Villeneuve JP, Thibeault MJ, Ampelas M, et al "Drug disposition in patients with HBsAg-positive chronic liver disease." Dig Dis Sci 32 (1987): 710-4
  8. Huet PM, Villeneuve JP "Determinants of drug disposition in patients with cirrhosis." Hepatology 3 (1983): 913-8
  9. "Product Information. Xylocaine (lidocaine)." Astra USA, Westborough, MA.
  10. Forrest JA, Finlayson ND, Adjepon-Yamoah KK, Prescott LF "Antipyrine, paracetamol, and lignocaine elimination in chronic liver disease." Br Med J 1 (1977): 1384-7
  11. Colli A, Buccino G, Cocciolo M, et al "Disposition of a flow-limited drug (lidocaine) and a metabolic capacity-limited drug (theophylline) in liver cirrhosis." Clin Pharmacol Ther 44 (1988): 642-9
  12. Shiffman ML, Luketic VA, Sanyal AJ, Duckworth PF, Purdum PP, Contos MJ, Mills AS, Edinboro LE, Poklis A "Hepatic lidocaine metabolism and liver histology in patients with chronic hepatitis and cirrhosis." Hepatology 19 (1994): 933-40
  13. Williams RL, Blaschke TF, Meffin PJ, et al "Influence of viral hepatitis on the disposition of two compounds with high hepatic clearance: lidocaine and indocyanine green." Clin Pharmacol Ther 20 (1976): 290-9
View all 13 references
Major

Lidocaine (Includes Terramycin IM) ↔ Renal Dysfunction

Severe Potential Hazard, High plausibility

Applies to: Renal Dysfunction

Lidocaine is primarily eliminated by the kidney. Less than 10% is eliminated unchanged in the urine. Two active metabolites (MEGX and GX) have been identified that exhibit antiarrhythmic and convulsant properties. GX accumulates during prolonged intravenous lidocaine infusion. Serum concentrations of lidocaine and the active metabolites are increased and the half-life prolonged in patients with renal impairment. Therapy with lidocaine should be administered cautiously and dosing modified for repeated or maintenance doses in patients with compromised renal function. Clinical monitoring of cardiac function (continual ECG) is required and serum metabolite concentrations and monitoring renal function are recommended.

References

  1. Collinsworth KA, Strong JM, Atkinson AJ Jr, et al "Pharmacokinetics and metabolism of lidocaine in patients with renal failure." Clin Pharmacol Ther 18 (1975): 59-64
  2. Jacobi J, McGory RW, McCoy H, Matzke GR "Hemodialysis clearance of total and unbound lidocaine." Clin Pharm 2 (1983): 54-7
  3. Thomson PD, Rowland M, Melmon KL "The influence of heart failure, liver disease, and renal failure on the disposition of lidocaine in man." Am Heart J 82 (1971): 417-21
  4. Grossman S, Davis D, Kitchell B, Shand D, Routledge P "Diazepam and lidocaine plasma protein binding in renal disease." Clin Pharmacol Ther 31 (1982): 350-7
  5. Vaziri ND, Saiki JK, Hughes W "Clearance of lidocaine by hemodialysis." South Med J 72 (1979): 1567-8
  6. Eriksson E, Granberg P-O, Ortengren B "Study of renal excretion of prilocaine and lidocaine." Acta Chem Scand 358 (1966): 55-69
  7. Thomson P, Melmon K, Richardson J, Cohn K Steinbrunn W, Cudihee R, Rowland M "Lidocaine pharmacokinetics in advanced heart failure, liver disease, and renal failure in humans." Ann Intern Med 78 (1973): 499-508
  8. "Product Information. Xylocaine (lidocaine)." Astra USA, Westborough, MA.
View all 8 references
Major

Lidocaine (Includes Terramycin IM) ↔ Seizures

Severe Potential Hazard, High plausibility

Applies to: Seizures

Seizures have occurred during lidocaine therapy and have been associated with the rapid administration of a large intravenous doses or accumulation of active metabolites with maintenance therapy. Therapy with lidocaine should be administered cautiously to patients with or predisposed to seizure disorders. Clinical monitoring of cardiac (continuous ECG) is required, and serum metabolite concentrations are recommended.

References

  1. Wu FL, Razzaghi A, Souney PF "Seizure after lidocaine for bronchoscopy: case report and review of the use of lidocaine in airway anesthesia." Pharmacotherapy 13 (1993): 72-8
  2. Crampton RS, Oriscello RG "Petit and grand mal convulsions during lidocaine hydrochloride treatment of ventricular tachycardia." JAMA 204 (1968): 109-12
  3. Ryan CA, Robertson M, Coe JY "Seizures due to lidocaine toxicity in a child during cardiac catheterization." Pediatr Cardiol 14 (1993): 116-8
  4. "Product Information. Xylocaine (lidocaine)." Astra USA, Westborough, MA.
  5. Fortuna A, Fortuna AO "Convulsion during lignocaine infiltration." Anaesth Intensive Care 21 (1993): 483
  6. Sundaram MB "Seizures after intraurethral instillation of lidocaine." Can Med Assoc J 137 (1987): 219-20
  7. Pelter MA, Vollmer TA, Blum RL "Seizure-like reaction associated with subcutaneous lidocaine injection ." Clin Pharm 8 (1989): 767-8
View all 7 references
Major

Lidocaine (Includes Terramycin IM) ↔ Sinus/Av Node Dysfunction

Severe Potential Hazard, High plausibility

Applies to: Heart Block

The use of lidocaine is contraindicated in patients with Stokes-Adam syndrome, Wolff-Parkinson White syndrome, or second- or third-degree AV block in the absence of a functional artificial pacemaker, or congenital QT prolongation.

References

  1. Tagliente TM, Jayagopal S "Transient left bundle branch block following lidocaine." Anesth Analg 69 (1989): 545-7
  2. Hilleman DE, Mohiuddin SM, Destache CJ "Lidocaine-induced second-degree mobitz type II heart block." Drug Intell Clin Pharm 19 (1985): 669-73
  3. Keidar S, Grenadier E, Palant A "Sinoatrial arrest due to lidocaine injection in sick sinus syndrome during amiodarone administration." Am Heart J 104 (1982): 1384-5
  4. "Product Information. Xylocaine (lidocaine)." Astra USA, Westborough, MA.
View all 4 references
Moderate

Antiarrhythmics (Includes Terramycin IM) ↔ Electrolyte Imbalance

Moderate Potential Hazard, High plausibility

Applies to: Hypokalemia, Hyperkalemia, Magnesium Imbalance

Electrolyte imbalance can alter the therapeutic effectiveness of antiarrhythmic agents. Hypokalemia and hypomagnesemia can reduce the effectiveness of antiarrhythmic agents. In some cases, these disorders can exaggerate the degree of QTc prolongation and increase the potential for torsades de pointes. Hyperkalemia can potentiate the toxic effects of antiarrhythmic agents. Electrolyte imbalance should be corrected prior to initiating antiarrhythmic therapy. Clinical monitoring of cardiac function and electrolyte concentrations is recommended.

References

  1. "Product Information. Tonocard (tocainide)." Merck & Co, Inc, West Point, PA.
  2. "Product Information. Norpace (disopyramide)." Searle, Skokie, IL.
  3. "Product Information. Quinidex (quinidine)." Wyeth-Ayerst Laboratories, Philadelphia, PA.
  4. "Product Information. Mexitil (mexiletine)." Boehringer-Ingelheim, Ridgefield, CT.
  5. "Product Information. Pronestyl (procainamide)." Apothecon Inc, Plainsboro, NJ.
  6. "Product Information. Xylocaine (lidocaine)." Astra USA, Westborough, MA.
  7. "Product Information. Corvert (ibutilide)." Pharmacia and Upjohn, Kalamazoo, MI.
  8. "Product Information. Ethmozine (moricizine)." DuPont Pharmaceuticals, Wilmington, DE.
  9. "Product Information. Tambocor (flecainide)." 3M Pharmaceuticals, St. Paul, MN.
  10. "Product Information. Cordarone Intravenous (amiodarone)." Wyeth-Ayerst Laboratories, Philadelphia, PA.
  11. "Product Information. Rhythmol (propafenone)." Knoll Pharmaceutical Company, Whippany, NJ.
  12. "Product Information. Procan SR (procainamide)." Parke-Davis, Morris Plains, NJ.
  13. "Product Information. Cordarone (amiodarone)." Wyeth-Ayerst Laboratories, Philadelphia, PA.
View all 13 references
Moderate

Antibiotics (Includes Terramycin IM) ↔ Colitis

Moderate Potential Hazard, Moderate plausibility

Applies to: Colitis/Enteritis (Noninfectious)

Pseudomembranous colitis has been reported with most antibacterial agents and may range in severity from mild to life-threatening, with an onset of up to two months following cessation of therapy. Antibiotic therapy can alter the normal flora of the colon and permit overgrowth of Clostridium difficile, whose toxin is believed to be a primary cause of antibiotic- associated colitis. The colitis is usually characterized by severe, persistent diarrhea and severe abdominal cramps, and may be associated with the passage of blood and mucus. The most common culprits are clindamycin, lincomycin, the aminopenicillins (amoxicillin, ampicillin), and the cephalosporins. Therapy with broad-spectrum antibiotics and other agents with significant antibacterial activity should be administered cautiously in patients with a history of gastrointestinal diseases, particularly colitis. There is some evidence that pseudomembranous colitis, if it occurs, may run a more severe course in these patients and that it may be associated with flares in their underlying disease activity. The offending antibiotic(s) should be discontinued if significant diarrhea occurs during therapy. Stool cultures for Clostridium difficile and stool assay for C. difficile toxin may be helpful diagnostically. A large bowel endoscopy may be considered to establish a definitive diagnosis in cases of severe diarrhea.

References

  1. Moriarty HJ, Scobie BA "Pseudomembranous colitis in a patient on rifampicin and ethambutol." N Z Med J 04/23/80 (1980): 294-5
  2. Thomas E, Mehta JB "Pseudomembranous colitis due to oxacillin therapy." South Med J 77 (1984): 532-3
  3. Meadowcroft AM, Diaz PR, Latham GS "Clostridium difficile toxin-induced colitis after use of clindmycin phosphate vaginal cream." Ann Pharmacother 32 (1998): 309-11
  4. Dan M, Samra Z "Clostridium difficile colitis associated with ofloxacin therapy." Am J Med 87 (1989): 479
  5. Saadah HA "Carbenicillin and pseudomembranous enterocolitis." Ann Intern Med 93 (1980): 645
  6. Bauwens JE, McFarland LV, Melcher SA "Recurrent clostridium difficile disease following ciprofloxacin use." Ann Pharmacother 31 (1997): 1090
  7. Daly JJ, Chowdary KV "Pseudomembranous colitis secondary to metronidazole." Dig Dis Sci 28 (1983): 573-4
  8. Trexler MF, Fraser TG, Jones MP "Fulminant pseudomembranous colitis caused by clindamycin phosphate vaginal cream." Am J Gastroenterol 92 (1997): 2112-3
  9. Lyon JA "Imipenem/cilastatin: the first carbapenem antibiotic." Drug Intell Clin Pharm 19 (1985): 894-8
  10. O'Meara TF, Simmons RA "Carbenicillin and pseudomembranous enterocolitis." Ann Intern Med 92 (1980): 440-1
  11. Harmon T, Burkhart G, Applebaum H "Perforated pseudomembranous colitis in the breast-fed infant." J Pediatr Surg 27 (1992): 744-6
  12. Ehrenpreis ED, Lievens MW, Craig RM "Clostridium difficile-associated diarrhea after norfloxacin." J Clin Gastroenterol 12 (1990): 188-9
  13. Davies J, Beck E "Recurrent colitis following antibiotic-associated pseudomembranous colitis." Postgrad Med J 57 (1981): 599-601
  14. Cone JB, Wetzel W "Toxic megacolon secondary to pseudomembranous colitis." Dis Colon Rectum 25 (1982): 478-82
  15. Cannon SR, Dyson PH, Sanderson PJ "Pseudomembranous colitis associated with antibiotic prophylaxis in orthopaedic surgery." J Bone Joint Surg Br 70-B (1988): 600-2
  16. Wang C, Calandra GB, Aziz MA, Brown KR "Efficacy and safety of imipenem/cilastatin: a review of worldwide clinical experience." Rev Infect Dis 7 (1985): s528-36
  17. Clissold SP, Todd PA, Campoli-Richards DM "Imipenem/cilastatin: a review of its antibacterial activity, pharmacokinetic properties and therapeutic efficacy." Drugs 33 (1987): 185-241
  18. Pokorney BH, Nichols TW, Jr "Pseudomembranous colitis. A complication of sulfasalazine therapy in a patient with Crohn's colitis." Am J Gastroenterol 76 (1981): 374-6
  19. Miller DL, Sedlack JD, Holt RW "Perforation complicating rifampin-associated pseudomembranous enteritis." Arch Surg 124 (1989): 1082
  20. Miller SN, Ringler RP "Vancomycin-induced pseudomembranous colitis." J Clin Gastroenterol 9 (1987): 114-5
  21. Osler T, Lott D, Bordley J, et al "Cefazolin-induced pseudomembranous colitis resulting in perforation of the sigmoid colon." Dis Colon Rectum 29 (1986): 140-3
  22. Parry MF, Rha CK "Pseudomembranous colitis caused by topical clindamycin phosphate." Arch Dermatol 122 (1986): 583-4
  23. Milstone EB, McDonald AJ, Scholhamer CF Jr "Pseudomembranous colitis after topical application of clindamycin." Arch Dermatol 117 (1981): 154-5
  24. Burt RA "A review of the drug events reported by 12,917 patients treated with cephalexin." Postgrad Med J 59 (1983): 47-50,51-3
  25. Sankarankutty M, McGeorge D, Galasko CS "Pseudomembranous colitis following cephradine prophylaxis." Postgrad Med J 58 (1982): 726-8
  26. Gordin F, Gibert C, Schmidt ME "Clostridium difficile colitis associated with trimethoprim-sulfamethoxazole given as prophylaxis for pneumocystis carinii pneumonia." Am J Med 96 (1994): 94-5
  27. Sugarman B "Trimethoprim-sulfamethoxazole, pseudomembranous colitis, and spinal cord injury." South Med J 78 (1985): 711-3
  28. Calandra GB, Brown KR, Grad LC, et al "Review of adverse experiences and tolerability in the first 2,516 patients treated with imipenem/cilastatin." Am J Med 78 (1985): 73-8
  29. Golledge CL, Riley TV "Clostridium difficile-associated diarrhoea after doxycycline malaria prophylaxis." Lancet 345 (1995): 1377-8
  30. Ring FA, Hershfield NB, Machin GA, Scott RB "Sulfasalazine-induced colitis complicating idiopathic ulcerative colitis." Can Med Assoc J 131 (1984): 43-5
  31. Leigh DA, Simmons K, Williams S "Gastrointestinal side effects following clindamycin and lincomycin treatment: a follow up study." J Antimicrob Chemother 6 (1980): 639-45
  32. Bernstein L "Adverse reaction to trimethoprim-sulfamethoxazole, with particular reference to long-term therapy." Can Med Assoc J 112 (1975): s96-8
  33. Friedman RJ, Mayer IE, Galambos JT, Hersh T "Oxacillin-induced pseudomembranous colitis." Am J Gastroenterol 73 (1980): 445-7
  34. "Multum Information Services, Inc. Expert Review Panel"
  35. Edlund C, Lidbeck A, Kager L, Nord CE "Effect of enoxacin on colonic microflora of healthy volunteers." Eur J Clin Microbiol 6 (1987): 298-300
  36. Hutcheon DF, Milligan FD, Yardley JH, Hendrix TR "Cephalosporin-associated pseudomembranous colitis." Am J Dig Dis 23 (1978): 321-6
  37. Bingley PJ, Harding GM "Clostridium difficile colitis following treatment with metronidazole and vancomycin." Postgrad Med J 63 (1987): 993-4
  38. Van Ness MM, Cattau EL Jr "Fulminant colitis complicating antibiotic-associated pseudomembranous colitis: case report and review of the clinical manifestations and treatment." Am J Gastroenterol 82 (1987): 374-7
  39. Hinton NA "The effect of oral tetracycline HCl and doxycycline on the intestinal flora." Curr Ther Res Clin Exp 12 (1970): 341-52
  40. Hecht JR, Olinger EJ "Clostridium difficile colitis secondary to intravenous vancomycin." Dig Dis Sci 34 (1989): 148-9
  41. Brause BD, Romankiewicz JA, Gotz V, Franklin JE Jr, Roberts RB "Comparative study of diarrhea associated with clindamycin and ampicillin therapy." Am J Gastroenterol 73 (1980): 244-8
  42. Midtvedt T, Carlstedt-Duke B, Hoverstad T, et al "Influence of peroral antibiotics upon the biotransformatory activity of the intestinal microflora in healthy subjects." Eur J Clin Invest 16 (1986): 11-7
  43. Altamirano A, Bondani A "Adverse reactions to furazolidone and other drugs. A comparative review." Scand J Gastroenterol Suppl 169 (1989): 70-80
  44. Boriello SP, Jones RH, Phillips I "Rifampicin-associated pseudomembranous colitis." Br Med J 281 (1980): 1180-1
  45. Klinger D, Radford P, Collin J "Pneumoperitoneum without faecal peritonitis in a patient with pseudomembranous colitis." Br Med J 288 (1984): 1271-2
  46. Saginur R, Hawley CR, Bartlett JG "Colitis associated with metronidazole therapy." J Infect Dis 141 (1980): 772-4
  47. Edlund C, Brismar B, Nord CE "Effect of lomefloxacin on the normal oral and intestinal microflora." Eur J Clin Microbiol Infect Dis 1 (1990): 35-9
View all 47 references
Moderate

Oxytetracycline (Includes Terramycin IM) ↔ Hemodialysis

Moderate Potential Hazard, High plausibility

Applies to: hemodialysis

Oxytetracycline is partially removed by hemodialysis. Doses should either be scheduled for administration after dialysis or supplemental doses be given after dialysis.

References

  1. "Product Information. Terramycin (oxytetracycline)." Pfizer US Pharmaceuticals, New York, NY.
Moderate

Tetracyclines (Includes Terramycin IM) ↔ Hepatotoxicity

Moderate Potential Hazard, Moderate plausibility

Applies to: Liver Disease

The use of tetracyclines has rarely been associated with hepatotoxicity. Histologic fatty changes of the liver, elevated liver enzymes, and jaundice have been reported, primarily in patients treated with large doses of intravenous tetracycline hydrochloride (no longer available in the U.S.) but also in patients receiving high oral doses of these drugs. Therapy with tetracyclines should be administered cautiously in patients with preexisting liver disease or biliary obstruction. Reduced dosages may be appropriate, particularly with minocycline and doxycycline, since the former is metabolized by the liver and the latter undergoes enterohepatic recycling. Liver function tests are recommended prior to and during therapy, and the concomitant use of other potentially hepatotoxic drugs should be avoided.

References

  1. Min DI, Burke PA, Lewis D, Jenkins RL "Acute hepatic failure associated with oral minocycline: a case report." Pharmacotherapy 12 (1992): 68-71
  2. Brogden RN, Speight TM, Avery GS "Minocycline: a review of its antibacterial and pharmacokinetic properties and therapeutic use." Drugs 9 (1975): 251-91
  3. Burette A, Finet C, Prigogine T, De Roy G, Deltenre M "Acute hepatic injury associated with minocycline." Arch Intern Med 144 (1984): 1491-2
  4. "Product Information. Declomycin (demeclocycline)." Lederle Laboratories, Wayne, NJ.
  5. "Product Information. Vibramycin (doxycycline)." Pfizer US Pharmaceuticals, New York, NY.
  6. "Product Information. Achromycin (tetracycline)." Lederle Laboratories, Wayne, NJ.
  7. "Product Information. Terramycin (oxytetracycline)." Pfizer US Pharmaceuticals, New York, NY.
  8. Malcolm A, Heap TR, Eckstein RP, Lunzer MR "Minocycline-induced liver injury." Am J Gastroenterol 91 (1996): 1641-3
  9. Golstein PE, Deviere J, Cremer M "Acute hepatitis and drug-related lupus induced by minocycline treatment." Am J Gastroenterol 92 (1997): 143-6
  10. Nelis HJ, De Leenheer AP "Metabolism of minocycline in humans." Drug Metab Dispos 10 (1982): 142-6
  11. "Product Information. Minocin (minocycline)." Lederle Laboratories, Wayne, NJ.
View all 11 references
Moderate

Tetracyclines (Includes Terramycin IM) ↔ Renal Dysfunction

Moderate Potential Hazard, High plausibility

Applies to: Renal Dysfunction

Tetracyclines (except doxycycline) are eliminated by the kidney to various extent. Patients with renal impairment may be at greater risk for tetracycline-associated hepatic and/or renal toxicity (increased BUN with consequent azotemia, hyperphosphatemia, and acidosis) due to decreased drug clearance. Therapy with tetracyclines should be administered cautiously at reduced dosages in patients with renal impairment. Clinical monitoring of renal and liver function is recommended, and serum tetracycline levels may be necessary during prolonged therapy.

References

  1. Reddy J "Tetracycline antibiotics should be avoided in patients with renal disease." N Z Med J 94 (1981): 396
  2. "Product Information. Achromycin (tetracycline)." Lederle Laboratories, Wayne, NJ.
  3. Heaney D, Eknoyan G "Minocycline and doxycycline kinetics in chronic renal failure." Clin Pharmacol Ther 24 (1978): 233-9
  4. Braden GL, Geheb MA, Shook A, Singer I, Cox M "Demeclocycline-induced natriuresis and renal insufficiency: in vivo and in vitro studies." Am J Kidney Dis 5 (1985): 270-7
  5. Lee P, Crutch ER, Morrison RB, et al "Doxycycline: studies in normal subjects and patients with renal failure." N Z Med J 75 (1972): 355-8
  6. Oster JR, Epstein M "Demeclocycline-induced renal failure." Lancet 1 (1977): 52
  7. "Product Information. Vibramycin (doxycycline)." Pfizer US Pharmaceuticals, New York, NY.
  8. Carrilho F, Bosch J, Arroyo V, Mas A, Viver J, Rodes J "Renal failure associated with demeclocycline in cirrhosis." Ann Intern Med 87 (1977): 195-7
  9. "Product Information. Terramycin (oxytetracycline)." Pfizer US Pharmaceuticals, New York, NY.
  10. Jonas M, Cunha BA "Minocycline." Ther Drug Monit 4 (1982): 137-45
  11. Houin G, Brunner F, Nebout T, et al "The effects of chronic renal insufficiency on the pharmacokinetics of doxycycline in man." Br J Clin Pharmacol 16 (1983): 245-52
  12. Letteri JM, Miraflor F, Tablante V, Siddiqi S "Doxycycline (vibramycin) in chronic renal failure." Nephron 11 (1973): 318-24
  13. Roth H, Becker KL, Shalhoub RJ, Katz S "Nephrotoxicity of demethylchlortetracycline hydrochloride. A prospective study." Arch Intern Med 120 (1967): 433-5
  14. Welling PG, Shaw WR, Uman SJ, Tse FL, Craig WA "Pharmacokinetics of minocycline in renal failure." Antimicrob Agents Chemother 8 (1975): 532-7
  15. George CR, Evans RA "Tetracycline toxicity in renal failure." Med J Aust 06/12/71 (1971): 1271-3
  16. Miller PD, Linas SL, Schrier RW "Plasma demeclocycline levels and nephrotoxicity. Correlation in hyponatremic cirrhotic patients." JAMA 243 (1980): 2513-5
  17. Macdonald H, Kelly RG, Allen ES, et al "Pharmacokinetic studies on minocycline in man." Clin Pharmacol Ther 14 (1973): 852-61
  18. Carney S, Butcher RA, Dawborn JK, Pattison G "Minocycline excretion and distribution in relation to renal function in man." Clin Exp Pharmacol Physiol 1 (1974): 299-308
  19. Kirkpatrick R "Demeclocycline and renal insufficiency." JAMA 239 (1978): 616
  20. Sklenar I, Spring P, Dettli L "One-dose and multiple-dose kinetics of minocycline in patients with renal disease." Agents Actions 7 (1977): 369-77
  21. Saivin S, Houin G "Clinical pharmacokinetics of doxycycline and minocycline." Clin Pharmacokinet 15 (1988): 355-66
  22. Mahon WA, Johnson GE, Endrenyi L, et al "The elimination of tritiated doxycycline in normal subjects and in patients with severely impaired renal function." Scand J Infect Dis 9 (1976): 24-31
  23. Whelton A "Tetracyclines in renal insufficiency: resolution of a therapeutic dilemma." Bull N Y Acad Med 54 (1978): 223-36
  24. Brogden RN, Speight TM, Avery GS "Minocycline: a review of its antibacterial and pharmacokinetic properties and therapeutic use." Drugs 9 (1975): 251-91
  25. Whelton A, von Wittenau MS, Twomey TM, et al "Doxycycline pharmacokinetics in the absence of renal function." Kidney Int 5 (1974): 365-71
  26. "Product Information. Minocin (minocycline)." Lederle Laboratories, Wayne, NJ.
  27. "Product Information. Declomycin (demeclocycline)." Lederle Laboratories, Wayne, NJ.
  28. Shils ME "Renal disease and the metabolic effects of tetracycline." Ann Intern Med 58 (1963): 389-408
View all 28 references
Moderate

Tetracyclines (Oral) (Includes Terramycin IM) ↔ Esophageal Irritation

Moderate Potential Hazard, Moderate plausibility

Applies to: Esophageal Obstruction

The use of oral tetracycline capsules and tablets has been associated with esophageal irritation and ulceration in patients who ingested the drug without sufficient fluid shortly before bedtime. Therapy with solid formulations of tetracyclines should preferably be avoided in patients with esophageal obstruction, compression or dyskinesia. If the drugs are used, patients should be advised not to take the medication just before retiring and to drink fluids liberally.

References

  1. Channer KS, Hollanders D "Tetracycline-induced oesophageal ulceration." Br Med J 282 (1981): 1359-60
  2. Aarons B, Bruns BJ "Oesophageal ulceration associated with ingestion of doxycycline." N Z Med J 91 (1980): 27
  3. Nordt SP "Tetracycline-induced oral mucosal ulceration." Ann Pharmacother 30 (1996): 547-8
  4. "Product Information. Minocin (minocycline)." Lederle Laboratories, Wayne, NJ.
  5. "Product Information. Declomycin (demeclocycline)." Lederle Laboratories, Wayne, NJ.
  6. Amendola MA, Spera TD "Doxycycline-induced esophagitis." JAMA 253 (1985): 1009-11
  7. Foster JA, Sylvia LM "Doxycyline-induced esophageal ulceration." Ann Pharmacother 28 (1994): 1185-7
  8. Khera DC, Herschman BR, Sosa F "Tetracycline-induced esophageal ulcers." Postgrad Med J 68 (1980): 113-5
  9. "Product Information. Terramycin (oxytetracycline)." Pfizer US Pharmaceuticals, New York, NY.
  10. Geschwind A "Oesophagitis and oesophageal ulceration following ingestion of doxycycline tablets." Med J Aust 140 (1984): 223
  11. "Product Information. Vibramycin (doxycycline)." Pfizer US Pharmaceuticals, New York, NY.
  12. "Product Information. Achromycin (tetracycline)." Lederle Laboratories, Wayne, NJ.
View all 12 references

Terramycin IM (lidocaine / oxytetracycline) drug Interactions

There are 552 drug interactions with Terramycin IM (lidocaine / oxytetracycline)

Terramycin IM (lidocaine / oxytetracycline) alcohol/food Interactions

There are 2 alcohol/food interactions with Terramycin IM (lidocaine / oxytetracycline)

Drug Interaction Classification

The classifications below are a general guideline only. It is difficult to determine the relevance of a particular drug interaction to any individual given the large number of variables.
Major Highly clinically significant. Avoid combinations; the risk of the interaction outweighs the benefit.
Moderate Moderately clinically significant. Usually avoid combinations; use it only under special circumstances.
Minor Minimally clinically significant. Minimize risk; assess risk and consider an alternative drug, take steps to circumvent the interaction risk and/or institute a monitoring plan.
Unknown No information available.

Do not stop taking any medications without consulting your healthcare provider.

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