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Drug Interactions between Iletin II Regular Pork and Uro-MP

This report displays the potential drug interactions for the following 2 drugs:

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Interactions between your drugs

Major

sodium biphosphate phenyl salicylate

Applies to: Uro-MP (hyoscyamine / methenamine / methylene blue / phenyl salicylate / sodium biphosphate) and Uro-MP (hyoscyamine / methenamine / methylene blue / phenyl salicylate / sodium biphosphate)

MONITOR CLOSELY: The following interaction applies only to products containing sodium biphosphate that are used for bowel cleansing. It does not apply to products containing sodium biphosphate that are used for other, non-laxative related purposes.

Coadministration with agents that affect renal function or perfusion such as diuretics, ACE inhibitors, angiotensin receptor blockers, and nonsteroidal anti-inflammatory drugs (NSAIDs) may increase the risk of acute phosphate nephropathy associated with the use of bowel-cleansing phosphate solutions. The risk and/or severity of fluid and electrolyte disturbances may also be increased, which can lead to serious adverse events including cardiac arrhythmias, seizures, and renal impairment. Acute phosphate nephropathy is a rare adverse event that presents as acute renal failure with minimal proteinuria and a bland urine sediment. Renal biopsy findings are consistent with nephrocalcinosis and include acute and/or chronic renal tubular injury, calcium-phosphate crystal deposition in the distal tubules and collecting ducts, and no other pattern of histological injury. The risk of acute phosphate nephropathy stems from the large phosphate load, fluid shifts, and decreased intravascular volume, which can be exacerbated in the presence of medications that affect renal perfusion or function. In reported cases, acute renal failure was typically diagnosed within two to five months of colonoscopy. These cases often resulted in permanent impairment of renal function, some requiring long-term dialysis.

MANAGEMENT: Caution is advised when bowel-cleansing phosphate preparations are prescribed in patients treated with agents that affect renal function or perfusion, particularly if they are frail or elderly. Bowel-cleansing phosphate preparations should not be used in patients who have impaired renal function or perfusion, dehydration, or uncorrected electrolyte abnormalities. In patients at risk for acute phosphate nephropathy, baseline and postprocedure labs including serum electrolytes, calcium, phosphate, BUN, and creatinine should be performed. Patients should be advised not to exceed the recommended dosage of their bowel-cleansing preparation and to drink sufficient quantities of clear fluids during before, during, and after bowel cleansing. Limited data suggest that administration of an electrolyte rehydration solution may attenuate the electrolyte abnormalities and hypovolemia. Hospitalization and intravenous fluid hydration may be appropriate for frail or elderly patients who may be unable to drink an adequate volume of fluid.

References

  1. (2007) "Product Information. Fleet Phospho Soda (sodium acid phosphate-sodium phosphate)." Fleet, CB
  2. (2007) "Product Information. Visicol (sodium acid phosphate-sodium phosphate)." Salix Pharmaceuticals
  3. FDA. Food and Drug Admnistration (2007) Oral sodium phosphate products for bowel cleansing. http://www.fda.gov/cder/drug/InfoSheets/HCP/OSP_solutionHCP.pdf

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Moderate

phenyl salicylate insulin regular

Applies to: Uro-MP (hyoscyamine / methenamine / methylene blue / phenyl salicylate / sodium biphosphate) and Iletin II Regular Pork (insulin regular)

MONITOR: The hypoglycemic effect of insulin may be potentiated by certain drugs, including ACE inhibitors, angiotensin receptor blockers (ARBs), 4-aminoquinolines, amylin analogs, anabolic steroids, fibrates, monoamine oxidase inhibitors (MAOIs, including linezolid), salicylates, selective serotonin reuptake inhibitors (SSRIs), sulfonamides, disopyramide, propoxyphene, quinidine, quinine, and ginseng. These drugs may increase the risk of hypoglycemia by enhancing insulin sensitivity (ACE inhibitors, ARBs, fibrates, ginseng); stimulating insulin secretion (salicylates, disopyramide, pentoxifylline, propoxyphene, quinidine, quinine, MAOIs, ginseng); decreasing insulin clearance and resistance (4-aminoquinolines); increasing peripheral glucose utilization (SSRIs, insulin-like growth factor); inhibiting gluconeogenesis (SSRIs, MAOIs, insulin-like growth factor); slowing the rate of gastric emptying (amylin analogs); and/or suppressing postprandial glucagon secretion (amylin analogs). Clinical hypoglycemia has been reported during use of some of these agents alone or with insulin and/or insulin secretagogues. Use of SSRIs has also been associated with loss of awareness of hypoglycemia in isolated cases.

MANAGEMENT: Close monitoring for the development of hypoglycemia is recommended if these drugs are coadministered with insulin, particularly in patients with advanced age and/or renal impairment. The insulin dosage may require adjustment if an interaction is suspected. Patients should be apprised of the signs and symptoms of hypoglycemia (e.g., headache, dizziness, drowsiness, nausea, hunger, tremor, weakness, sweating, palpitations), how to treat it, and to contact their physician if it occurs. Patients should be observed for loss of glycemic control when these drugs are withdrawn.

References

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  4. Baciewicz AM, Swafford WB Jr (1984) "Hypoglycemia induced by the interaction of chlorpropamide and co-trimoxazole." Drug Intell Clin Pharm, 18, p. 309-10
  5. Richardson T, Foster J, Mawer GE (1986) "Enhancement by sodium salicylate of the blood glucose lowering effect of chlorpropamide-drug interaction or summation of similar effects." Br J Clin Pharmacol, 22, p. 43-8
  6. Johnson J, Dobmeier M (1990) "Symptomatic hypoglycemia secondary to a glipizide-trimethoprim/sulfamethoxazole drug interaction." DICP, 24, p. 250-1
  7. Goldberg IJ, Brown LK, Rayfield EJ (1980) "Disopyramide (norpace)-induced hypoglycemia." Am J Med, 69, p. 463-6
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  9. Semel JD, Wortham E, Karl DM (1983) "Fasting hypoglycemia associated with disopyramide." Am Heart J, 106, p. 1160-1
  10. Nappi JM, Dhanani S, Lovejoy JR, VanderArk C (1983) "Severe hypoglycemia associated with disopyramide." West J Med, 138, p. 95-7
  11. Rubin M, Zakheim B, Pitchumoni C (1983) "Disopyramide-induced profound hypoglycemia." N Y State J Med, July,Aug,S, p. 1057-8
  12. Croxson MS, Shaw DW, Henley PG, Gabriel HDLL (1987) "Disopyramide-induced hypoglycaemia and increased serum insulin." N Z Med J, July, p. 407-8
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  17. Murakami K, Nambu S, Koh H, Kobayashi M, Shigeta Y (1984) "Clofibrate enhances the affinity of insulin receptors in non-insulin dependent diabetes mellitus." Br J Clin Pharmacol, 17, p. 89-91
  18. Daubresse JC, Daigneux D, Bruwier M, Luyckx A, Lefebvre PJ (1979) "Clofibrate and diabetes control in patients treated with oral hypoglycaemic agents." Br J Clin Pharmacol, 7, p. 599-603
  19. Whitcroft IA, Thomas JM, Rawsthorne A, et al. (1990) "Effects of alpha and beta adrenoceptor blocking drugs and ACE inhibitors on long term glucose and lipid control in hypertensive non-insulin dependent diabetics." Horm Metab Res Suppl, 22, p. 42-6
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  28. Cacoub P, Deray G, Baumelou A, Grimaldi A, Soubrie C, Jacobs C (1989) "Disopyramide-induced hypoglycemia: case report and review of the literature." Fundam Clin Pharmacol, 3, p. 527-35
  29. Asplund K, Wiholm BE, Lithner F (1983) "Glibenclamide-associated hypoglycaemia: a report on 57 cases." Diabetologia, 24, p. 412-7
  30. Slade IH, and Iosefa RN (1967) "Fatal hypoglycemic coma from the use of tolbutamide in elderly patients: report of two cases." J Am Geriatr Soc, 15, p. 948-50
  31. Cattaneo AG, Caviezel F, Pozza G (1990) "Pharmacological interaction between tolbutamide and acetylsalicylic acid: study on insulin secretion in man." Int J Clin Pharmacol Ther Toxicol, 28, p. 229-34
  32. Christensen LK, Hansen JM, Kristensen M (1963) "Sulphaphenazole-induced hypoglycemic attacks in tolbutamide-treated diabetics." Lancet, 2, p. 1298-301
  33. Turtle JR, Burgess JA (1973) "Hypoglycemic action of fenfluramine in diabetes mellitus." Diabetes, 22, p. 858-67
  34. Ferriere M, Lachkar H, Richard JL, Bringer J, Orsetti A, Mirouze J (1985) "Captopril and insulin sensitivity." Ann Intern Med, 102, p. 134-5
  35. Johnson JA, Kappel JE, Sharif MN (1993) "Hypoglycemia secondary to trimethoprim/sulfamethoxazole administration in a renal transplant patient." Ann Pharmacother, 27, p. 304-6
  36. Almirall J, Montoliu J, Torras A, Revert L (1989) "Propoxyphene-induced hypoglycemia in a patient with chronic renal failure." Nephron, 53, p. 273-5
  37. Hayashi S, Horie M, Tsuura Y, Ishida H, Okada Y, Seino Y, Sasayama S (1993) "Disopyramide blocks pancreatic ATP-sensitive K+ channels and enhances insulin release." Am J Physiol, 265, c337-42
  38. Phillips AF, Matty PJ, Porte PJ, Raye JR (1984) "Inhibition of glucose-induced insulin secretion by indomethacin and sodium salicylate in the fetal lamb." Am J Obstet Gynecol, 148, p. 481-7
  39. Baron SH (1982) "Salicylates as hypoglycemic agents." Diabetes Care, 5, p. 64-71
  40. Prince RL, Larkins RG, Alford FP (1981) "The effect of acetylsalicylic acid on plasma glucose and the response of glucose regulatory hormones to intravenous glucose and arginine in insulin treated diabetics and normal subjects." Metabolism, 30, p. 293-8
  41. Ferrari C, Fressati S, Romussi M, et al. (1977) "Effects of short-term clofibrate administration on glucose tolerance and insulin secretion in patients with chemical diabetes or hypertriglyceridemia." Metabolism, 26, p. 129-39
  42. Storlien LH, Thorburn AW, Smythe GA, Jenkins AB, Chisholm DJ, Kraegen EW (1989) "Effect of d-fenfluramine on basal glucose turnover and fat-feeding-induced insulin resistance in rats." Diabetes, 38, p. 499-503
  43. Pestell RG, Crock PA, Ward GM, Alford FP, Best JD (1989) "Fenfluramine increases insulin action in patients with NIDDM." Diabetes Care, 12, p. 252-8
  44. Harrison LC, King-Roach A, Martin FI, Melick RA (1975) "The effect of fenfluramine on insulin binding and on basal and insulin-stimulated oxidation of 1-C-glucose by human adipose tissue." Postgrad Med J, 51 Suppl 1, p. 110-4
  45. Feldman JM, Chapman B (1975) "Monoamine oxidase inhibitors: nature of their interaction with rabbit pancreatic islets to alter insulin secretion." Diabetologia, 11, p. 487-94
  46. Aleyassine H, Gardiner RJ (1975) "Dual action of antidepressant drugs (MAO inhibitors) on insulin release." Endocrinology, 96, p. 702-10
  47. Aleyassine H, Lee SH (1972) "Inhibition of insulin release by substrates and inhibitors of monoamine oxidase." Am J Physiol, 222, p. 565-9
  48. Cooper AJ, Ashcroft G (1966) "Potentiation of insulin hypoglycaemia by M.A.O.I. antidepressant drugs." Lancet, 1, p. 407-9
  49. Herings RMC, Deboer A, Stricker BHC, Leufkens HGM, Porsius A (1995) "Hypoglycaemia associated with use of inhibitors of angiotensin converting enzyme." Lancet, 345, p. 1195-8
  50. Ahmad S (1995) "Drug interaction induces hypoglycemia." J Fam Pract, 40, p. 540-1
  51. Feher MD, Amiel S (1995) "ACE inhibitors and hypoglycaemia." Lancet, 346, p. 125-6
  52. Paolisso G, Balbi V, Gambardella A, Varricchio G, Tortoriello R, Saccomanno F, Amato L, Varricchio M (1995) "Lisinopril administration improves insulin action in aged patients with hypertension." J Hum Hypertens, 9, p. 541-6
  53. Darcy PF, Griffin JP (1995) "Interactions with drugs used in the treatment of depressive illness." Adverse Drug React Toxicol Rev, 14, p. 211-31
  54. Kubacka RT, Antla EJ, Juhl RP, Welshman IR (1996) "Effects of aspirin and ibuprofen on the pharmacokinetics and pharmacodynamics of glyburide in healthy subjects." Ann Pharmacother, 30, p. 20-6
  55. Deeg MA, Lipkin EW (1996) "Hypoglycemia associated with the use of fluoxetine." West J Med, 164, p. 262-3
  56. Hellman B (1974) "Potentiating effects of drugs on the binding of glibenclamide to pancreatic beta cells." Metabolism, 23, p. 839-46
  57. Hekimsoy Z, Biberoglu S, Comlekci A, Tarhan O, Mermut C, Biberoglu K (1997) "Trimethoprim/sulfamethoxazole-induced hypoglycemia in a malnourished patient with severe infection." Eur J Endocrinol, 136, p. 3046
  58. Iida H, Morita T, Suzuki E, Iwasawa K, Toyooka T, Nakajima T (1999) "Hypoglycemia induced by interaction between clarithromycin and disopyramide." Jpn Heart J, 40, p. 91-6
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  61. (2002) "Product Information. Humalog (insulin lispro)." Lilly, Eli and Company
  62. (2002) "Product Information. Humulin 70/30 (insulin isophane-insulin regular)." Lilly, Eli and Company
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  64. Hundal RS, Petersen KF, Mayerson AB, et al. (2002) "Mechanism by which high-dose aspirin improves glucose metabolism in type 2 diabetes." J Clin Invest, 109, p. 1321-6
  65. (2004) "Product Information. Apidra (insulin glulisine)." Aventis Pharmaceuticals
  66. Fogari R, Zoppi A, Corradi L, Pierangelo L, Mugellini A, Lusardi P (1998) "Comparative effects of lisinopril and losartan on insulin sensitivity in the treatment of non diabetic hypertension." Br J Clin Pharmacol, 46, p. 467-71
  67. Vuorinen-Markkola H, Yki-Jarvinen H (1995) "Antihypertensive therapy with enalapril improves glucose storage and insulin sensitivity in hypertensive patients with non-insulin-dependent diabetes mellitus." Metabolism, 44, p. 85-9
  68. (2005) "Product Information. Increlex (mecasermin)." Tercica Inc
  69. Vuksan V, Sievenpiper JL, Koo VY, et al. (2000) "American ginseng (Panax quinquefolius L) reduces postprandial glycemia in nondiabetic subjects and subjects with type 2 diabetes mellitus." Arch Intern Med, 160, p. 1009-13
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  73. (2014) "Product Information. Afrezza (insulin inhalation, rapid acting)." MannKind Corporation
  74. (2015) "Product Information. Ryzodeg 70/30 FlexTouch (insulin aspart-insulin degludec)." Novo Nordisk Pharmaceuticals Inc
  75. (2015) "Product Information. Tresiba FlexTouch (insulin degludec)." Novo Nordisk Pharmaceuticals Inc
  76. World Health Organization (2020) WHO Public Assessment Reports (WHOPARs) https://extranet.who.int/pqweb/medicines/prequalification-reports/whopars
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Drug and food interactions

Moderate

sodium biphosphate food

Applies to: Uro-MP (hyoscyamine / methenamine / methylene blue / phenyl salicylate / sodium biphosphate)

ADJUST DOSING INTERVAL: Bowel cleansing products can increase the gastrointestinal transit rate. Oral medications administered within one hour of the start of administration of the bowel cleansing solution may be flushed from the gastrointestinal tract and not properly absorbed.

MANAGEMENT: Patients should be advised that absorption of oral medications may be impaired during bowel cleansing treatment. Oral medications (e.g., anticonvulsants, oral contraceptives, antidiabetic agents, antibiotics) should not be administered during and within one hour of starting bowel cleansing treatment whenever possible. However, if concomitant use cannot be avoided, monitoring for reduced therapeutic effects may be advisable.

References

  1. "Product Information. Golytely (polyethylene glycol 3350 with electrolytes)." Braintree
  2. (2022) "Product Information. Prepopik (citric acid/Mg oxide/Na picosulfate)." Ferring Pharmaceuticals Inc

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Moderate

insulin regular food

Applies to: Iletin II Regular Pork (insulin regular)

GENERALLY AVOID: Alcohol may cause hypoglycemia or hyperglycemia in patients with diabetes. Hypoglycemia most frequently occurs during acute consumption of alcohol. Even modest amounts can lower blood sugar significantly, especially when the alcohol is ingested on an empty stomach or following exercise. The mechanism involves inhibition of both gluconeogenesis as well as the counter-regulatory response to hypoglycemia. Episodes of hypoglycemia may last for 8 to 12 hours after ethanol ingestion. By contrast, chronic alcohol abuse can cause impaired glucose tolerance and hyperglycemia. Moderate alcohol consumption generally does not affect blood glucose levels in patients with well controlled diabetes. A disulfiram-like reaction (e.g., flushing, headache, and nausea) to alcohol has been reported frequently with the use of chlorpropamide and very rarely with other sulfonylureas.

MANAGEMENT: Patients with diabetes should avoid consuming alcohol if their blood glucose is not well controlled, or if they have hypertriglyceridemia, neuropathy, or pancreatitis. Patients with well controlled diabetes should limit their alcohol intake to one drink daily for women and two drinks daily for men (1 drink = 5 oz wine, 12 oz beer, or 1.5 oz distilled spirits) in conjunction with their normal meal plan. Alcohol should not be consumed on an empty stomach or following exercise.

References

  1. Jerntorp P, Almer LO (1981) "Chlorpropamide-alcohol flushing in relation to macroangiopathy and peripheral neuropathy in non-insulin dependent diabetes." Acta Med Scand, 656, p. 33-6
  2. Jerntorp P, Almer LO, Holin H, et al. (1983) "Plasma chlorpropamide: a critical factor in chlorpropamide-alcohol flush." Eur J Clin Pharmacol, 24, p. 237-42
  3. Barnett AH, Spiliopoulos AJ, Pyke DA, et al. (1983) "Metabolic studies in chlorpropamide-alcohol flush positive and negative type 2 (non-insulin dependent) diabetic patients with and without retinopathy." Diabetologia, 24, p. 213-5
  4. Hartling SG, Faber OK, Wegmann ML, Wahlin-Boll E, Melander A (1987) "Interaction of ethanol and glipizide in humans." Diabetes Care, 10, p. 683-6
  5. (2002) "Product Information. Diabinese (chlorpropamide)." Pfizer U.S. Pharmaceuticals
  6. (2002) "Product Information. Glucotrol (glipizide)." Pfizer U.S. Pharmaceuticals
  7. "Product Information. Diabeta (glyburide)." Hoechst Marion-Roussel Inc, Kansas City, MO.
  8. Skillman TG, Feldman JM (1981) "The pharmacology of sulfonylureas." Am J Med, 70, p. 361-72
  9. (2002) "Position Statement: evidence-based nutrition principles and recommendations for the treatment and prevention of diabetes related complications. American Diabetes Association." Diabetes Care, 25(Suppl 1), S50-S60
  10. Cerner Multum, Inc. "UK Summary of Product Characteristics."
View all 10 references

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Moderate

hyoscyamine food

Applies to: Uro-MP (hyoscyamine / methenamine / methylene blue / phenyl salicylate / sodium biphosphate)

GENERALLY AVOID: Use of anticholinergic agents with alcohol may result in sufficient impairment of attention so as to render driving and operating machinery more hazardous. In addition, the potential for abuse may be increased with the combination. The mechanism of interaction is not established but may involve additive depressant effects on the central nervous system. No effect of oral propantheline or atropine on blood alcohol levels was observed in healthy volunteers when administered before ingestion of a standard ethanol load. However, one study found impairment of attention in subjects given atropine 0.5 mg or glycopyrrolate 1 mg in combination with alcohol.

MANAGEMENT: Alcohol should generally be avoided during therapy with anticholinergic agents. Patients should be counseled to avoid activities requiring mental alertness until they know how these agents affect them.

References

  1. Linnoila M (1973) "Drug effects on psychomotor skills related to driving: interaction of atropine, glycopyrrhonium and alcohol." Eur J Clin Pharmacol, 6, p. 107-12

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Therapeutic duplication warnings

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Therapeutic duplication warnings are only returned when drugs within the same group exceed the recommended therapeutic duplication maximum.


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Drug Interaction Classification

These classifications are only a guideline. The relevance of a particular drug interaction to a specific individual is difficult to determine. Always consult your healthcare provider before starting or stopping any medication.
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 interaction information available.

Further information

Always consult your healthcare provider to ensure the information displayed on this page applies to your personal circumstances.