CONTRAINDICATIONS / PRECAUTIONS
Aminoglycoside hypersensitivity
Plazomicin is contraindicated in patients with known aminoglycoside hypersensitivity. Serious and occasionally fatal hypersensitivity reactions have been reported with aminoglycosides. Cross-sensitivity among aminoglycosides has been established. Before starting plazomicin therapy, carefully inquire about any previous hypersensitivity reactions to other aminoglycosides. Discontinue plazomicin if an allergic reaction occurs.
Nephrotoxicity, renal disease, renal failure, renal impairment
Closely monitor patients receiving systemic aminoglycosides, such as plazomicin, for nephrotoxicity. Assess creatinine clearance (CrCl) in all patients before plazomicin therapy and daily during therapy, particularly in those at increased risk of nephrotoxicity. In patients with pre-existing renal impairment, renal failure, or renal disease or in those with normal renal function who receive high doses or prolonged therapy, the risks of severe nephrotoxic adverse reactions are sharply increased. Elderly patients and those receiving concomitant nephrotoxic medications have a higher risk. Avoid concurrent and/or sequential coadministration of aminoglycosides with other drugs that are potentially nephrotoxic because toxicity may be additive. In the setting of worsening renal function, assess the benefit of continuing plazomicin therapy. Therapeutic drug monitoring is recommended for all patients with a CrCl less than 90 mL/minute. The incidence of nephrotoxicity was higher in plazomicin-treated patients compared to meropenem. Increases in serum creatinine of 0.5 mg/dL or more above baseline also occurred more frequently in plazomicin-treated patients vs. meropenem and occurred mainly in patients with a CrCl of 90 mL/minute or less and were associated with a plazomicin trough concentration of 3 mcg/mL or more. Aminoglycosides are associated with major toxic effects on renal tubules. Hemodialysis may aid in removal in the event of overdose or toxic reactions, especially if renal function is or becomes impaired. In rare cases, nephrotoxicity may not be evident until soon after completion of therapy. Aminoglycoside-induced nephrotoxicity usually is reversible.
Hearing impairment, ototoxicity
Closely monitor patients receiving systemic aminoglycosides, such as plazomicin, for ototoxicity and hearing impairment. Consider the benefit-risk of plazomicin therapy in patients with preexisting hearing impairment and in patients with a family history of hearing loss, especially eighth-cranial-nerve impairment. In patients with pre-existing renal impairment or renal disease or in those with normal renal function who receive high doses or prolonged therapy, the risks of severe ototoxic adverse reactions are sharply increased. Aminoglycosides are associated with major toxic effects on the auditory and vestibular branches of the eighth nerve. Toxicity is manifested by bilateral auditory toxicity which often is permanent and, sometimes, by vestibular ototoxicity. High-frequency hearing loss usually occurs before there is noticeable clinical hearing loss; clinical symptoms may not be present to warn of developing cochlear damage. Vertigo may occur and may indicate vestibular injury. The risk of hearing loss increases with the degree of exposure and continues to progress after stopping the drug. Eighth cranial nerve function should be closely monitored. Aminoglycoside-induced ototoxicity is usually irreversible and may not be evident until after completion of therapy.
Myasthenia gravis, neuromuscular blockade, neuromuscular disease
Monitor for adverse reactions associated with neuromuscular blockade during plazomicin therapy, particularly in high-risk patients, such as patients with underlying neuromuscular disease (including myasthenia gravis) or in patients concomitantly receiving neuromuscular blocking agents. Systemic aminoglycosides, such as plazomicin, are associated with exacerbation of muscle weakness or delay in recovery of neuromuscular function in patients receiving concomitant neuromuscular blocking agents.
C. difficile-associated diarrhea, diarrhea, pseudomembranous colitis
Consider pseudomembranous colitis in patients presenting with diarrhea after antibacterial use. Careful medical history is necessary as pseudomembranous colitis has been reported to occur over 2 months after the administration of antibacterial agents. Almost all antibacterial agents, including plazomicin, have been associated with pseudomembranous colitis or C. difficile-associated diarrhea (CDAD) which may range in severity from mild to life-threatening. Treatment with antibacterial agents alters the normal flora of the colon leading to overgrowth of C. difficile.
Geriatric
Geriatric patients may be at increased risk of plazomicin nephrotoxicity. Elderly patients may have decreased renal function; therefore, care should be taken in dose selection and plazomicin monitoring during therapy. The federal Omnibus Budget Reconciliation Act (OBRA) regulates medication use in residents of long-term care facilities (LTCFs). According to OBRA, use of parenteral aminoglycosides must be accompanied by monitoring of renal function tests, including a baseline value, and serum aminoglycoside concentrations, with the exception of single dose prophylactic administration. Serious consequences may occur insidiously if adequate monitoring does not occur; the drug may cause or worsen hearing loss and renal failure. Use of antibiotics should be limited to confirmed or suspected bacterial infections. Antibiotics are non-selective and may result in the eradication of beneficial microorganisms while promoting the emergence of undesired ones, causing secondary infections such as oral thrush, colitis, or vaginitis. Any antibiotic may cause diarrhea, nausea, vomiting, anorexia, and hypersensitivity reactions.
Pregnancy
Systemic exposure to plazomicin may cause fetal harm during human pregnancy. Aminoglycosides cross the placenta. There have been reports of total irreversible bilateral congenital deafness in newborns whose mothers received streptomycin, a related aminoglycoside, during pregnancy. If plazomicin is used during pregnancy or if the patient becomes pregnant during treatment with plazomicin, advise the mother of the potential risk to the fetus.
Breast-feeding
There are no data on the presence of plazomicin in human breast milk, the effects on the breast-fed infant, or on milk production. Plazomicin was detected in rat milk. Consider the benefits of breast-feeding along with the mother's clinical need for plazomicin and any potential adverse effects on the breast-fed infant from plazomicin or the underlying maternal condition. Aminoglycosides are generally excreted into human breast milk in low concentrations. However, aminoglycosides are poorly absorbed from the gastrointestinal tract and are not likely to cause adverse events in nursing infants; thus, aminoglycosides are generally considered compatible with breast-feeding.
DRUG INTERACTIONS
Acetaminophen; Aspirin, ASA; Caffeine: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Acetaminophen; Caffeine; Magnesium Salicylate; Phenyltoloxamine: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Acetaminophen; Caffeine; Phenyltoloxamine; Salicylamide: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Acetaminophen; Chlorpheniramine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Acetaminophen; Chlorpheniramine; Dextromethorphan: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Acetaminophen; Chlorpheniramine; Dextromethorphan; Phenylephrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Acetaminophen; Chlorpheniramine; Dextromethorphan; Pseudoephedrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Acetaminophen; Chlorpheniramine; Phenylephrine : (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Acetaminophen; Chlorpheniramine; Phenylephrine; Phenyltoloxamine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Acetaminophen; Diphenhydramine: (Minor) Diphenhydramine may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Acyclovir: (Moderate) Additive nephrotoxicity is possible if systemic aminoglycosides are used with acyclovir. Carefully monitor renal function during concomitant therapy.
Adefovir: (Moderate) Chronic coadministration of adefovir with nephrotoxic drugs, such as aminoglycosides, may increase the risk of developing nephrotoxicity, even in patients who have normal renal function.
Aldesleukin, IL-2: (Moderate) Aldesleukin, IL 2 may cause nephrotoxicity. Concurrent administration of drugs possessing nephrotoxic effects, such as the aminoglycosides, with Aldesleukin, IL 2 may increase the risk of kidney dysfunction. In addition, reduced kidney function secondary to Aldesleukin, IL 2 treatment may delay elimination of concomitant medications and increase the risk of adverse events from those drugs.
Aminosalicylate sodium, Aminosalicylic acid: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aprotinin: (Moderate) The manufacturer recommends using aprotinin cautiously in patients that are receiving drugs that can affect renal function, such as the aminoglycosides, as the risk of renal impairment may be increased.
Aspirin, ASA: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Butalbital; Caffeine: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Butalbital; Caffeine; Codeine: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Caffeine: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Caffeine; Dihydrocodeine: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Caffeine; Orphenadrine: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Carisoprodol: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Carisoprodol; Codeine: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Citric Acid; Sodium Bicarbonate: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Dipyridamole: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Omeprazole: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Oxycodone: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Aspirin, ASA; Pravastatin: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Atracurium: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Atropine; Benzoic Acid; Hyoscyamine; Methenamine; Methylene Blue; Phenyl Salicylate: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Benzoic Acid; Hyoscyamine; Methenamine; Methylene Blue; Phenyl Salicylate: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Bictegravir; Emtricitabine; Tenofovir Alafenamide: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs.
Bismuth Subsalicylate: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Bismuth Subsalicylate; Metronidazole; Tetracycline: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Bleomycin: (Moderate) Previous treatment with nephrotoxic agents, like aminoglycosides, may result in decreased clearance of bleomycin if renal function has been impaired.
Bumetanide: (Moderate) The risk of ototoxicity or nephrotoxicity secondary to aminoglycosides may be increased by the addition of concomitant therapies with similar side effects, including loop diuretics. If loop diuretics and aminoglycosides are used together, it would be prudent to monitor renal function parameters, serum electrolytes, and serum aminoglycoside concentrations during therapy. Audiologic monitoring may be advisable during high dose therapy or therapy of long duration, when hearing loss is suspected, or in selected risk groups (e.g., neonates).
Capreomycin: (Major) The concomitant use of capreomycin and aminoglycosides may increase the risk of nephrotoxicity and neurotoxicity. Since capreomycin is eliminated by the kidney, coadministration of capreomycin with other potentially nephrotoxic drugs, including aminoglycosides may increase serum concentrations of either capreomycin or aminoglycosides. Theoretically, coadministration may increase the risk of developing nephrotoxicity, even in patients who have normal renal function. Monitor patients for changes in renal function if these drugs are coadministered. Additionally, neuromuscular blockade has been associated with capreomycin resulting from administration of large doses or rapid intravenous infusion. Aminoglycosides have also been reported to interfere with nerve transmission at the neuromuscular junction. Concomitant administration of capreomycin with aminoglycosides should be avoided if possible; however, if they must be coadministered, use extreme caution.
Carbetapentane; Chlorpheniramine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Carbetapentane; Chlorpheniramine; Phenylephrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Carbetapentane; Diphenhydramine; Phenylephrine: (Minor) Diphenhydramine may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Carboplatin: (Moderate) Patients previously or currently treated with other potentially nephrotoxic agents, such as systemic aminoglycosides, can have a greater risk of developing carboplatin-induced nephrotoxicity. These patients may benefit from hydration prior to carboplatin therapy to lessen the incidence of nephrotoxicity. Monitor renal function closely.
Cefepime: (Minor) Cefepime's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides and loop diuretics. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Cefotaxime: (Minor) Cefotaxime's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides and loop diuretics. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Cefotetan: (Minor) Cefotetan's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Cefoxitin: (Minor) Cefoxitin's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Cefprozil: (Minor) Cefprozil's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides and loop diuretics. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Ceftazidime: (Minor) Ceftazidime's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides and loop diuretics. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Ceftazidime; Avibactam: (Minor) Ceftazidime's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides and loop diuretics. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Ceftizoxime: (Minor) Ceftizoxime's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Cefuroxime: (Minor) Cefuroxime's product label states that cephalosporins may potentiate the adverse renal effects of nephrotoxic agents, such as aminoglycosides and loop diuretics. Carefully monitor renal function, especially during prolonged therapy or use of high aminoglycoside doses. The majority of reported cases involve the combination of aminoglycosides and cephalothin or cephaloridine, which are associated with dose-related nephrotoxicity as singular agents. Limited but conflicting data with other cephalosporins have been noted.
Chlorpheniramine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Codeine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Dextromethorphan: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Dextromethorphan; Phenylephrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Dextromethorphan; Pseudoephedrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Dihydrocodeine; Phenylephrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Dihydrocodeine; Pseudoephedrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Guaifenesin; Hydrocodone; Pseudoephedrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Hydrocodone: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Hydrocodone; Phenylephrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Hydrocodone; Pseudoephedrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Ibuprofen; Pseudoephedrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Phenylephrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpheniramine; Pseudoephedrine: (Minor) Chlorpheniramine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Chlorpromazine: (Minor) When used for the treatment of nausea and vomiting, antiemetic phenothiazines may effectively mask symptoms that are associated with ototoxicity induced by the aminoglycosides.
Choline Salicylate; Magnesium Salicylate: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Cidofovir: (Contraindicated) The administration of cidofovir with other potentially nephrotoxic agents, such as aminoglycosides, is contraindicated. These agents should be discontinued at least 7 days prior to beginning cidofovir.
Cisatracurium: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Cisplatin: (Moderate) Closely monitor renal function and hearing ability if concomitant use with cisplatin and aminoglycosides is necessary. Both cisplatin and aminoglycosides can cause nephrotoxicity and ototoxicity, which may be exacerbated with the use of other nephrotoxic and ototoxic drugs.
Clindamycin: (Moderate) Concomitant use of aminoglycosides and clindamycin may result in additive nephrotoxicity. Monitor for renal toxicity if concomitant use is required.
Codeine; Phenylephrine; Promethazine: (Minor) Antiemetics, like promethazine, should be used carefully with aminoglycosides because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo). These agents block the histamine or acetylcholine response that causes nausea due to vestibular (inner ear) emetic stimuli such as motion.
Codeine; Promethazine: (Minor) Antiemetics, like promethazine, should be used carefully with aminoglycosides because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo). These agents block the histamine or acetylcholine response that causes nausea due to vestibular (inner ear) emetic stimuli such as motion.
Colistin: (Major) The concomitant use of colistimethate sodium with systemic aminoglycosides may increase the risk of nephrotoxicity, ototoxicity, and neurotoxicity. Since polymyxins and aminoglycosides are both eliminated by the kidney, coadministration may increase serum concentrations of either drug class. If these drugs are used in combination, monitor renal function and patients for increased adverse effects. Additionally, neuromuscular blockade has been associated with both polymyxins and aminoglycosides, and is more likely to occur in patients with renal dysfunction.
Cyclizine: (Minor) Cyclizine may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Darunavir; Cobicistat; Emtricitabine; Tenofovir alafenamide: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs.
Deferasirox: (Moderate) Acute renal failure has been reported during treatment with deferasirox. Coadministration of deferasirox with other potentially nephrotoxic drugs, including aminoglycosides, may increase the risk of this toxicity. Monitor serum creatinine and/or creatinine clearance in patients who are receiving deferasirox and aminoglycosides concomitantly.
Dextromethorphan; Diphenhydramine; Phenylephrine: (Minor) Diphenhydramine may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Dimenhydrinate: (Minor) Dimenhydrinate and other antiemetics should be used carefully with aminoglycosides because they can mask symptoms of ototoxicity, including nausea secondary to vertigo.
Diphenhydramine: (Minor) Diphenhydramine may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Diphenhydramine; Hydrocodone; Phenylephrine: (Minor) Diphenhydramine may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Diphenhydramine; Ibuprofen: (Minor) Diphenhydramine may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Diphenhydramine; Naproxen: (Minor) Diphenhydramine may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Diphenhydramine; Phenylephrine: (Minor) Diphenhydramine may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Doravirine; Lamivudine; Tenofovir disoproxil fumarate: (Moderate) Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Tenofovir should be avoided with concurrent or recent use of a nephrotoxic agent; patients receiving concomitant nephrotoxic agents should be carefully monitored for changes in serum creatinine and phosphorus.
Doxacurium: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Efavirenz; Emtricitabine; Tenofovir: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs. (Moderate) Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Tenofovir should be avoided with concurrent or recent use of a nephrotoxic agent; patients receiving concomitant nephrotoxic agents should be carefully monitored for changes in serum creatinine and phosphorus.
Efavirenz; Lamivudine; Tenofovir Disoproxil Fumarate: (Moderate) Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Tenofovir should be avoided with concurrent or recent use of a nephrotoxic agent; patients receiving concomitant nephrotoxic agents should be carefully monitored for changes in serum creatinine and phosphorus.
Elvitegravir; Cobicistat; Emtricitabine; Tenofovir Alafenamide: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs.
Elvitegravir; Cobicistat; Emtricitabine; Tenofovir Disoproxil Fumarate: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs. (Moderate) Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Tenofovir should be avoided with concurrent or recent use of a nephrotoxic agent; patients receiving concomitant nephrotoxic agents should be carefully monitored for changes in serum creatinine and phosphorus.
Emtricitabine: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs.
Emtricitabine; Rilpivirine; Tenofovir alafenamide: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs.
Emtricitabine; Rilpivirine; Tenofovir disoproxil fumarate: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs. (Moderate) Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Tenofovir should be avoided with concurrent or recent use of a nephrotoxic agent; patients receiving concomitant nephrotoxic agents should be carefully monitored for changes in serum creatinine and phosphorus.
Emtricitabine; Tenofovir alafenamide: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs.
Emtricitabine; Tenofovir disoproxil fumarate: (Moderate) Monitor for changes in serum creatinine and adverse reactions, such as lactic acidosis or hepatotoxicity if emtricitabine is administered in combination with nephrotoxic agents, such as aminoglycosides. Consider the potential for drug interaction prior to and during concurrent use of these medications. Both emtricitabine and aminoglycosides are excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. While no drug interactions due to competition for renal excretion have been observed, coadministration of these medications may increase concentrations of both drugs. (Moderate) Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Tenofovir should be avoided with concurrent or recent use of a nephrotoxic agent; patients receiving concomitant nephrotoxic agents should be carefully monitored for changes in serum creatinine and phosphorus.
Entecavir: (Moderate) Because entecavir is primarily eliminated by the kidneys and aminoglycosides can affect renal function, concurrent administration with aminoglycosides may increase the serum concentrations of entecavir and adverse events. The manufacturer of entecavir recommends monitoring for adverse effects when these drugs are coadministered.
Ethacrynic Acid: (Moderate) The risk of ototoxicity or nephrotoxicity secondary to aminoglycosides may be increased by the addition of concomitant therapies with similar side effects, including loop diuretics. If loop diuretics and aminoglycosides are used together, it would be prudent to monitor renal function parameters, serum electrolytes, and serum aminoglycoside concentrations during therapy. Audiologic monitoring may be advisable during high dose therapy or therapy of long duration, when hearing loss is suspected, or in selected risk groups (e.g., neonates).
Ethiodized Oil: (Moderate) Because the use of other nephrotoxic drugs, such as aminoglycoside antibiotics, is an additive risk factor for nephrotoxicity in patients receiving radiopaque contrast agents, concomitant use should be avoided when possible.
Fluphenazine: (Minor) When used for the treatment of nausea and vomiting, antiemetic phenothiazines may effectively mask symptoms that are associated with ototoxicity induced by aminoglycosides.
Foscarnet: (Major) The risk of renal toxicity may be increased if foscarnet is used in conjunction with other nephrotoxic agents such as aminoglycosides.
Furosemide: (Moderate) The risk of ototoxicity or nephrotoxicity secondary to aminoglycosides may be increased by the addition of concomitant therapies with similar side effects, including loop diuretics. If loop diuretics and aminoglycosides are used together, it would be prudent to monitor renal function parameters, serum electrolytes, and serum aminoglycoside concentrations during therapy. Audiologic monitoring may be advisable during high dose therapy or therapy of long duration, when hearing loss is suspected, or in selected risk groups (e.g., neonates).
Gallium Ga 68 Dotatate: (Major) Avoid concomitant use of mannitol and aminoglycosides, if possible. Concomitant administration of systemic therapy may increase the risk of ototoxicity and nephrotoxicity. In addition, systemic mannitol may alter the serum and tissue concentrations of aminoglycosides and increase the risk for aminoglycoside toxicity. If use together is necessary, monitor renal function and serum aminoglycoside concentrations. Audiologic monitoring may be advisable during high dose therapy or therapy of long duration, when hearing loss is suspected, or in selected risk groups (e.g., neonates). Studies to evaluate a potential interaction between inhaled formulations of mannitol and tobramycin have not been conducted.
Gallium: (Contraindicated) Concurrent use of gallium nitrate with other potentially nephrotoxic drugs, such as aminoglycosides, may increase the risk for developing severe renal insufficiency. If use of an aminoglycoside is indicated, gallium nitrate administration should be discontinued, and hydration for several days after administration of the aminoglycoside is recommended. Serum creatinine concentrations and urine output should be closely monitored during and subsequent to this period. Gallium nitrate should be discontinued if the serum creatinine concentration exceeds 2.5 mg/dl.
Ganciclovir: (Major) Concurrent use of nephrotoxic agents, such as the aminoglycosides, with ganciclovir should be done cautiously to avoid additive nephrotoxicity.
Ginger, Zingiber officinale: (Minor) Ginger may mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by aminoglycosides. Antiemetics block the histamine or acetylcholine response that causes nausea due to vestibular emetic stimuli such as motion.
Gold: (Minor) Both aminoglycosides and gold compounds can cause nephrotoxicity. Auranofin has been reported to cause a nephrotic syndrome or glomerulonephritis with proteinuria and hematuria. Monitor renal function carefully during concurrent therapy.
Hyaluronidase, Recombinant; Immune Globulin: (Moderate) Immune globulin (IG) products have been reported to be associated with renal dysfunction, acute renal failure, osmotic nephrosis, and death. Patients predisposed to acute renal failure include patients receiving known nephrotoxic drugs like aminoglycosides. Coadminister IG products at the minimum concentration available and the minimum rate of infusion practicable. Closely monitor renal function.
Hyoscyamine; Methenamine; Methylene Blue; Phenyl Salicylate; Sodium Biphosphate: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Ibandronate: (Moderate) Theoretically, coadministration of intravenous ibandronate with other potentially nephrotoxic drugs like the aminoglycosides may increase the risk of developing nephrotoxicity.
Ibuprofen lysine: (Moderate) Use caution in combining ibuprofen lysine with renally eliminated medications, like aminoglycosides, as ibuprofen lysine may reduce the clearance of aminoglycosides. Closely monitor renal function and adjust aminoglycoside doses based on renal function and serum aminoglycoside concentrations as clinically indicated.
Immune Globulin IV, IVIG, IGIV: (Moderate) Immune globulin (IG) products have been reported to be associated with renal dysfunction, acute renal failure, osmotic nephrosis, and death. Patients predisposed to acute renal failure include patients receiving known nephrotoxic drugs like aminoglycosides. Coadminister IG products at the minimum concentration available and the minimum rate of infusion practicable. Closely monitor renal function.
Inotersen: (Moderate) Use caution with concomitant use of inotersen and aminoglycosides due to the risk of glomerulonephritis and nephrotoxicity.
Iodixanol: (Moderate) Because the use of other nephrotoxic drugs, such as aminoglycoside antibiotics, is an additive risk factor for nephrotoxicity in patients receiving radiopaque contrast agents, concomitant use should be avoided when possible.
Iohexol: (Moderate) Because the use of other nephrotoxic drugs, such as aminoglycoside antibiotics, is an additive risk factor for nephrotoxicity in patients receiving radiopaque contrast agents, concomitant use should be avoided when possible.
Iopamidol: (Moderate) Because the use of other nephrotoxic drugs, such as aminoglycoside antibiotics, is an additive risk factor for nephrotoxicity in patients receiving radiopaque contrast agents, concomitant use should be avoided when possible.
Iopromide: (Moderate) Because the use of other nephrotoxic drugs, such as aminoglycoside antibiotics, is an additive risk factor for nephrotoxicity in patients receiving radiopaque contrast agents, concomitant use should be avoided when possible.
Ioversol: (Moderate) Because the use of other nephrotoxic drugs, such as aminoglycoside antibiotics, is an additive risk factor for nephrotoxicity in patients receiving radiopaque contrast agents, concomitant use should be avoided when possible.
Isosulfan Blue: (Moderate) Because the use of other nephrotoxic drugs, such as aminoglycoside antibiotics, is an additive risk factor for nephrotoxicity in patients receiving radiopaque contrast agents, concomitant use should be avoided when possible.
Lamivudine; Tenofovir Disoproxil Fumarate: (Moderate) Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Tenofovir should be avoided with concurrent or recent use of a nephrotoxic agent; patients receiving concomitant nephrotoxic agents should be carefully monitored for changes in serum creatinine and phosphorus.
Magnesium Salicylate: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Mannitol: (Major) Avoid concomitant use of mannitol and aminoglycosides, if possible. Concomitant administration of systemic therapy may increase the risk of ototoxicity and nephrotoxicity. In addition, systemic mannitol may alter the serum and tissue concentrations of aminoglycosides and increase the risk for aminoglycoside toxicity. If use together is necessary, monitor renal function and serum aminoglycoside concentrations. Audiologic monitoring may be advisable during high dose therapy or therapy of long duration, when hearing loss is suspected, or in selected risk groups (e.g., neonates). Studies to evaluate a potential interaction between inhaled formulations of mannitol and tobramycin have not been conducted.
Meclizine: (Minor) Meclizine and other antiemetics should be used carefully with aminoglycosides because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo).
Meperidine; Promethazine: (Minor) Antiemetics, like promethazine, should be used carefully with aminoglycosides because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo). These agents block the histamine or acetylcholine response that causes nausea due to vestibular (inner ear) emetic stimuli such as motion.
Mesoridazine: (Minor) When used for the treatment of nausea and vomiting, antiemetic phenothiazines may effectively mask vestibular symptoms (e.g. dizziness, tinnitus, or vertigo) that are associated with ototoxicity induced by various medications, including the aminoglycosides.
Mivacurium: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Neuromuscular blockers: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Non-Ionic Contrast Media: (Moderate) Because the use of other nephrotoxic drugs, such as aminoglycoside antibiotics, is an additive risk factor for nephrotoxicity in patients receiving radiopaque contrast agents, concomitant use should be avoided when possible.
Oral Contraceptives: (Moderate) It would be prudent to recommend alternative or additional contraception when oral contraceptives (OCs) are used in conjunction with antibiotics. It was previously thought that antibiotics may decrease the effectiveness of OCs containing estrogens due to stimulation of metabolism or a reduction in enterohepatic circulation via changes in GI flora. One retrospective study reviewed the literature to determine the effects of oral antibiotics on the pharmacokinetics of contraceptive estrogens and progestins, and also examined clinical studies in which the incidence of pregnancy with OCs and antibiotics was reported. It was concluded that the antibiotics ampicillin, ciprofloxacin, clarithromycin, doxycycline, metronidazole, ofloxacin, roxithromycin, temafloxacin, and tetracycline did not alter plasma concentrations of OCs. Antituberculous drugs (e.g., rifampin) were the only agents associated with OC failure and pregnancy. Based on the study results, these authors recommended that back-up contraception may not be necessary if OCs are used reliably during oral antibiotic use. Another review concurred with these data, but noted that individual patients have been identified who experienced significant decreases in plasma concentrations of combined OC components and who appeared to ovulate; the agents most often associated with these changes were rifampin, tetracyclines, and penicillin derivatives. These authors concluded that because females most at risk for OC failure or noncompliance may not be easily identified and the true incidence of such events may be under-reported, and given the serious consequence of unwanted pregnancy, that recommending an additional method of contraception during short-term antibiotic use may be justified. During long-term antibiotic administration, the risk for drug interaction with OCs is less clear, but alternative or additional contraception may be advisable in selected circumstances. Data regarding progestin-only contraceptives or for newer combined contraceptive deliveries (e.g., patches, rings) are not available.
Pamidronate: (Moderate) Coadministration of pamidronate with other nephrotoxic drugs, such as aminoglycosides, may increase the risk of developing nephrotoxicity following pamidronate administration, even in patients who have normal renal function.
Pancuronium: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Pentamidine: (Major) Additive nephrotoxicity may be seen with the combination of pentamidine and other agents that cause nephrotoxicity, such as systemic aminoglycosides. Renal function and aminoglycoside concentratons should be closely monitored.
Perphenazine: (Minor) When used for the treatment of nausea and vomiting, antiemetic phenothiazines may effectively mask symptoms that are associated with ototoxicity induced by the aminoglycosides.
Perphenazine; Amitriptyline: (Minor) When used for the treatment of nausea and vomiting, antiemetic phenothiazines may effectively mask symptoms that are associated with ototoxicity induced by the aminoglycosides.
Phenobarbital; Hyoscyamine; Atropine; Scopolamine: (Minor) Antiemetics, like scopolamine, should be used carefully with amikacin because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo). These agents block the histamine or acetylcholine response that causes nausea due to vestibular (inner ear) emetic stimuli such as motion.
Polymyxin B: (Major) The concomitant use of systemic Polymyxin B with systemic aminoglycosides increases the risk of nephrotoxicity, ototoxicity, and neurotoxicity. Since polymyxins and aminoglycosides are both eliminated by the kidney, coadministration may increase serum concentrations of either drug class. Monitor patients for changes in renal function if these drugs are coadministered. Additionally, neuromuscular blockade has been associated with both polymyxins and aminoglycosides, and is more likely to occur in patients with renal dysfunction.
Promethazine: (Minor) Antiemetics, like promethazine, should be used carefully with aminoglycosides because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo). These agents block the histamine or acetylcholine response that causes nausea due to vestibular (inner ear) emetic stimuli such as motion.
Promethazine; Dextromethorphan: (Minor) Antiemetics, like promethazine, should be used carefully with aminoglycosides because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo). These agents block the histamine or acetylcholine response that causes nausea due to vestibular (inner ear) emetic stimuli such as motion.
Promethazine; Phenylephrine: (Minor) Antiemetics, like promethazine, should be used carefully with aminoglycosides because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo). These agents block the histamine or acetylcholine response that causes nausea due to vestibular (inner ear) emetic stimuli such as motion.
Pyridostigmine: (Moderate) Aminoglycosides have been associated with neuromuscular blockade when used as an abdominal irrigant intraoperatively. Although the risk of neuromuscular blockade is remote with parenteral aminoglycoside therapy, these antibiotics should be used cautiously in myasthenic patients. This represents a pharmacodynamic interaction with cholinesterase inhibitors when used to treat myasthenia gravis, rather than a pharmacokinetic interaction.
Rapacuronium: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Rocuronium: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Salicylates: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Salsalate: (Minor) Due to the inhibition of renal prostaglandins by salicylates, concurrent use of salicylates and other nephrotoxic agents like the aminoglycosides may lead to additive nephrotoxicity.
Scopolamine: (Minor) Antiemetics, like scopolamine, should be used carefully with amikacin because they can mask symptoms of ototoxicity (e.g., nausea secondary to vertigo). These agents block the histamine or acetylcholine response that causes nausea due to vestibular (inner ear) emetic stimuli such as motion.
Streptozocin: (Moderate) Because streptozocin is nephrotoxic, concurrent or subsequent administration of other nephrotoxic agents, including aminoglycosides, could exacerbate the renal insult.
Succinylcholine: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Tacrolimus: (Moderate) Additive nephrotoxicity is possible if aminoglycosides are used with tacrolimus. Care should be taken in using tacrolimus with other nephrotoxic drugs. Assessment of renal function in patients who have received tacrolimus is recommended, as the tacrolimus dosage may need to be reduced
Telavancin: (Major) Concurrent or sequential use of telavancin with other potentially nephrotoxic drugs (e.g., systemic aminoglycosides) may lead to additive nephrotoxicity. Televancin is closely related to vancomycin. In one clinical study, vancomycin coadministration, high aminoglycoside trough levels, and heart failure independently predicted acute kidney injury during aminoglycoside treatment. Closely monitor renal function and adjust telavancin doses based on creatinine clearance/renal function, and aminoglycoside doses based on renal function and serum aminoglycoside concentrations as clinically indicated.
Tenofovir Alafenamide: (Moderate) Tenofovir-containing products, should be avoided with concurrent or recent use of a nephrotoxic agent, such as aminoglycosides. Tenofovir is primarily excreted via the kidneys by a combination of glomerular filtration and active tubular secretion. Coadministration of tenofovir alafenamide with drugs that are eliminated by active tubular secretion may increase concentrations of tenofovir, and/or the co-administered drug. Drugs that decrease renal function may also increase concentrations of tenofovir. Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Monitor patients receiving concomitant nephrotoxic agents for changes in serum creatinine and phosphorus, and urine glucose and protein.
Tenofovir, PMPA: (Moderate) Renal impairment, which may include hypophosphatemia, has been reported with the use of tenofovir with a majority of the cases occurring in patients who have underlying systemic or renal disease or who are concurrently taking nephrotoxic agents. Tenofovir should be avoided with concurrent or recent use of a nephrotoxic agent; patients receiving concomitant nephrotoxic agents should be carefully monitored for changes in serum creatinine and phosphorus.
Thioridazine: (Minor) When used for the treatment of nausea and vomiting, antiemetic phenothiazines may effectively mask vestibular symptoms that are associated with ototoxicity induced by various medications, including the aminoglycosides.
Torsemide: (Moderate) The risk of ototoxicity or nephrotoxicity secondary to aminoglycosides may be increased by the addition of concomitant therapies with similar side effects, including loop diuretics. If loop diuretics and aminoglycosides are used together, it would be prudent to monitor renal function parameters, serum electrolytes, and serum aminoglycoside concentrations during therapy. Audiologic monitoring may be advisable during high dose therapy or therapy of long duration, when hearing loss is suspected, or in selected risk groups (e.g., neonates).
Trifluoperazine: (Minor) When used for the treatment of nausea and vomiting, antiemetic phenothiazines may mask symptoms that are associated with ototoxicity induced by the aminoglycosides.
Trimethobenzamide: (Minor) Because of trimethobenzamide's antiemetic pharmacology, the drug may effectively mask dizziness, tinnitus, or vertigo that are associated with ototoxicity induced by various medications, including the aminoglycosides. Clinicians should be aware of this potential interaction and take it into consideration when monitoring for aminoglycoside-induced side effects.
Tubocurarine: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Urea: (Moderate) The risk of ototoxicity or nephrotoxicity secondary to aminoglycosides may be increased by the addition of concomitant therapies with similar side effects, including urea. In addition, urea may alter the serum and tissue concentrations of tobramycin, thereby, increasing the risk for aminoglycoside toxicities. If possible, avoid concurrent use. If these drugs must be used together, it would be prudent to monitor renal function, serum electrolytes, and serum aminoglycoside concentrations. Audiologic monitoring may be advisable during high dose therapy or therapy of long duration, when hearing loss is suspected, or in selected risk groups (e.g., neonates).
Valacyclovir: (Moderate) Additive nephrotoxicity is possible if systemic aminoglycosides are used with valacyclovir. Carefully monitor renal function during concomitant therapy.
Valganciclovir: (Major) Concurrent use of nephrotoxic agents, such as aminoglycosides, with valganciclovir should be done cautiously to avoid additive nephrotoxicity.
Vancomycin: (Major) Concomitant use of parenteral vancomycin with other nephrotoxic drugs, such as aminoglycosides, can lead to additive nephrotoxicity. Both vancomycin and aminoglycosides may cause ototoxicity as well. In a clinical study, vancomycin coadministration, high aminoglycoside trough concentrations, and heart failure independently predicted acute kidney injury during aminoglycoside treatment. Renal function should be monitored closely, and vancomycin and aminoglycoside doses should be adjusted according to serum concentrations as clinically indicated.
Vecuronium: (Moderate) Concomitant use of neuromuscular blockers and systemic aminoglycosides may prolong neuromuscular blockade. The use of a peripheral nerve stimulator is strongly recommended to evaluate the level of neuromuscular blockade, to assess the need for additional doses of neuromuscular blocker, and to determine whether adjustments need to be made to the dose with subsequent administration.
Voclosporin: (Moderate) Concomitant use of voclosporin and aminoglycosides may result in additive nephrotoxicity. Monitor for renal toxicity if concomitant use is required.
Zalcitabine, ddC: (Moderate) Drugs such as parenteral aminoglycosides may increase the risk of developing peripheral neuropathy or other zalcitabine-associated adverse events by interfering with the renal clearance of zalcitabine and thereby raising systemic drug exposure. Coadministration of these drugs with zalcitabine requires frequent clinical and laboratory monitoring, with dosage adjustment for any significant change in renal function.
Zoledronic Acid: (Moderate) Since zoledronic acid is eliminated by the kidney, coadministration of zoledronic acid with other potentially nephrotoxic drugs may increase serum concentrations of either zoledronic acid and/or these coadministered drugs. Theoretically, the chronic coadministration of zoledronic acid with other nephrotoxic drugs, such as aminoglycosides, may increase the risk of developing nephrotoxicity.