Statements in which the resource exists as a subject.
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KANTREX (Injection, Solution)
dailymed-instance:dosage
Kanamycin Injection may be given intramuscularly or intravenously. The patient's pretreatment body weight should be obtained for calculation of the correct dosage. The dosage of an aminoglycoside in obese patients should be based on an estimate of the lean body mass. The status of renal function should be determined by measurement of serum creatinine concentration or calculation of the endogenous creatinine clearance rate. The blood urea nitrogen (BUN) level is much less reliable for this purpose. Renal function should be reassessed frequently during therapy. It is desirable to measure both peak and trough serum concentrations intermittently during therapy since both concentrations are used to determine the adequacy and safety of the dose and to adjust the dosage during treatment. Peak serum concentrations (30 to 90 minutes after injection) above 35��g per mL and trough concentrations (just prior to the next dose) above 10��g per mL should be avoided.<br/>Intramuscular Route: Inject deeply into the upper outer quadrant of the gluteal muscle. The recommended dose for adults or children is 15 mg/kg/day in two equally divided dosages administered at equally divided intervals; ie, 7.5 mg/kg q 12h. If continuously high blood levels are desired, the daily dose of 15 mg/kg may be given in equally divided doses every 6 or 8 hours. Treatment of patients in the heavier weight classes, ie, 100 kg, should not exceed 1.5 g/day. In patients with impaired renal function, it is desirable to follow therapy by appropriate serum assays. If this is not feasible, a suggested method is to reduce the frequency of administration in patients with renal dysfunction. The interval between doses may be calculated with the following formula: Serum creatinine (mg/100 mL) x 9 = Dosage Interval (in hours); eg, if the serumcreatinine is 2 mg, the recommended dose (7.5 mg/kg) should be administered every18 hours. Changes in creatinine concentration during therapy would, of course,necessitate changes in the dosage frequency. It is desirable to limit the duration of treatment with kanamycin to short term. The usual duration of treatment is 7 to 10 days. Total daily dose by all routes of administration should not exceed 1.5 g/day. If longer therapy is required, measurement of kanamycin peak and trough serum concentrations is particularly important as a basis for determining the adequacy and safety of the dose. These patients should be carefully monitored for changes in renal, auditory, and vestibular function. Dosage should be adjusted as needed. The risks of toxicity multiply as the length of treatment increases. At the recommended dosage level, uncomplicated infections due to kanamycin-susceptible organisms should respond to therapy in 24 to 48 hours. If definite clinical response does not occur within 3 to 5 days, therapy should be stopped and the antibiotic susceptibility pattern of the invading organism should be rechecked. Failure of the infectionto respond may be due to resistance of the organism or to the presence of septic foci requiring surgical drainage.<br/>Intravenous Administration: The dose should not exceed 15 mg/kg per day and must be administered slowly. The solution for intravenous use is prepared by adding the contents of a 500-mg vial to 100 to 200 mL of sterile diluent such as Normal Saline or 5% Dextrose in Water, or the contents of a 1.0-g vial to 200 to 400 mL of sterile diluent. The appropriate dose is administered over a 30- to 60-minute period. The total daily dose should be divided into 2 or 3 equally divided doses. In pediatric patients the amount of diluent used should be sufficient to infuse the kanamycin sulfate over a 30- to 60-minute period. Kanamycin Injection, USP should not be physically mixed with other antibacterial agents but each should be administered separately in accordance with its recommended route of administration and dosage schedule.<br/>Intraperitoneal Use: (Following exploration for established peritonitis or after peritoneal contamination due to fecal spill during surgery.) Adults: 500 mg diluted in 20 mL sterile distilled water may be instilled through a polyethylene catheter sutured into the wound at closure. If possible, instillation should be postponed until the patient has fully recovered from the effects of anesthesia and muscle-relaxing drugs (see duration of treatment statement above and WARNING box). Serum levels should be carefully monitored during treatment.<br/>Aerosol Treatment: 250 mg 2 to 4 times a day. Withdraw 250 mg (1.0 mL) from a 500-mg vial and dilute it with 3 mL Physiological Saline and nebulize. Serum levels should be carefully monitored during treatment.<br/>Other Routes of Administration: KANTREX Injection in concentrations of 0.25 percent (2.5 mg/mL) has been used as an irrigating solution in abscess cavities, pleural space, peritoneal and ventricular cavities. Possible absorption of KANTREX by such routes must be taken into account and dosage adjustments should be arranged so that a maximum total dose of 1.5 g/day by all routes of administration is not exceeded. Serum levels should be carefully monitored during treatment.<br/>STABILITY: Occasionally, some vials may darken during the shelf life of the product, but this does not indicate a loss of potency. Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration, whenever container and solution permit.
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Kanamycin sulfate is an aminoglycoside antibiotic produced by Streptomyces kanamyceticus. It is CHNO���2HSO.D-Streptamine, O-3-amino-3-deoxy-��-D-glucopyranosyl���(1���6)-O- [6-amino-6-deoxy-��-D-glucopyranosyl- (1���4)]-2-deoxy, sulfate 1:2 (salt). It consists of two amino sugars glycosidically linked to deoxystreptamine. Kanamycin Injection, USP, sterile solution for parenteral administration, contains respectively; kanamycin sulfate 75 mg, 500 mg, and 1.0 g; sodium bisulfite, an antioxidant, 0.099%, 0.66%, and 0.45%; and sodium citrate, 0.33% 2.2%, and 2.2% with pH of each dosage form adjusted to 4.5 with sulfuric acid. Vial headspace contains nitrogen.
dailymed-instance:clinicalP...
The drug is rapidly absorbed after intramuscular injection and peak serum levels are generally reached within approximately one hour. Doses of 7.5 mg/kg give mean peak levels of 22��g/mL. At 8 hours following a 7.5 mg/kg dose, mean serum levels are 3.2��g/mL. The serum half-life is 2��hours. Intravenous administration of kanamycin over a period of one hour resulted in serum concentrations similar to those obtained by intramuscular administration. Kanamycin diffuses rapidly into most body fluids including synovial and peritoneal fluids and bile. Significant levels of the drug appear in cord blood and amniotic fluid following intramuscular administration to pregnant patients. Spinal fluid concentrations in normal infants are approximately 10 to 20 percent of serum levels and may reach 50 percent when the meninges are inflamed. Studies in normal adult patients have shown only trace levels of kanamycin in spinal fluid. No data are available on adults with meningitis. The drug is excreted almost entirely by glomerular filtration and is not reabsorbed by the renal tubules. Hence, high concentrations are attained in the nephron, and the urine may contain levels 10 to 20 times higher than those in serum. Little, if any, metabolic transformation occurs. Renal excretion is extremely rapid. In patients with normal renal function, approximately one-half of the administered dose is cleared within 4 hours and excretion is complete within 24 to 48 hours. Patients with impairedrenal function or with diminished glomerular filtration pressure excrete kanamycin more slowly. Such patients may build up excessively high blood levels which greatly increase the risk of ototoxic reactions. In severely burned patients the half-life may be significantly decreased and resulting serum concentrations may be lower than anticipated from the mg per kg dose.<br/>Microbiology: Kanamycin sulfate is a bactericidal antibiotic which acts by inhibiting the synthesis of protein in susceptible microorganisms. Kanamycin sulfate is active in vitro against many strains of Staphylococcus aureus (including penicillinase and non penicillinase-producing strains), Staphylococcus epidermidis, N. gonorrhoeae, H. influenzae, E. coli, Enterobacter aerogenes, Shigella and Salmonella species, K. pneumoniae, Serratia marcescens, Providencia species, Acinetobacter species and Citrobacter freundii and Citrobacter species, and many strains of both indole-positive and indole-negative Proteus strains that are frequently resistant to other antibiotics. Aminoglycosides have a low order of activity against most gram-positive organisms including Streptococcus pyogenes, Streptococcus pneumoniae and enterococci. In vitro studies have demonstrated that an aminoglycoside combined with an antibiotic which interferes with cell wall synthesis (ie, Penicillin G or ampicillin) affects some Group D streptococcal strains synergistically. Bacteriological testing and tests for antibiotic synergism are necessary. Enzymatic inactivation of deoxystreptamine is the principal mechanism of resistance.<br/>Susceptibility Testing: Quantitative methods for susceptibility testing that require measurement of zone diameters give the most precise estimates of antibiotic susceptibility. One such procedure has been recommended for use with discs to test susceptibility to kanamycin. Interpretation involves correlation of the diameters obtained in the disc test with minimal inhibitory concentration (MIC) values for kanamycin. Reports from the laboratory give results of the standardized single disc susceptibility test (Bauer, et al., Am. J. Clin. Path. 1966; 45:493 and Federal Register 37:20525-20529, 1972), using a 30-��g kanamycin disc should be interpreted according to the following criteria: Organisms producing zones of 18 mm or greater, or MIC's of 16��g or less are considered susceptible, indicating that the test organism is likely to respond to therapy. Resistant organisms produce zones of 14 mm or less or MIC's of 16��g or greater. A report of���resistant���from the laboratory indicates that the infecting organism is not likely to respond to therapy. Zones greater than 14 mm and less than 18 mm, or MIC's of greater than 16��g and less than 65��g, indicate intermediate susceptibility. A report of���intermediate���susceptibility suggests that the organism would be susceptible if the infection is confined to tissues and fluids (eg, urine), in which high antibiotic levels are attained. Control organisms are recommended for susceptibility testing. Each time the test is performed one or more of the following organisms should be included: Escherichia coli ATCC 15922, Staphylococcus aureus ATCC 25923 and Pseudomonas aeruginosa ATCC 27853. The control organisms should produce zones of inhibition within the following ranges:
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A history of hypersensitivity or toxic reaction to one aminoglycoside may also contraindicate the use of any other aminoglycoside, because of the known cross-sensitivity and cumulative effects of drugs in this category. THIS DRUG IS NOT INDICATED IN LONG-TERM THERAPY (eg Tuberculosis) BECAUSE OF THE TOXIC HAZARD ASSOCIATED WITH EXTENDED ADMINISTRATION.
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KANTREX INJECTION (Kanamycin Injection, USP) NDC 0015-3503-20���1 g per 3 mL This product contains dry natural rubber.
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WARNING: Patients treated with aminoglycosides by any route should be under close clinical observation because of the potential toxicity associated with their use. As with other aminoglycosides, the major toxic effects of kanamycin sulfate are its action on the auditory and vestibular branches of the eighth nerve and the renal tubules. Neurotoxicity is manifested by bilateral auditory toxicity which often is permanent and, sometimes, by vestibular ototoxicity. Loss of high frequency perception usually occurs before there is noticeable clinical hearing loss and can be detected by audiometric testing. There may not be clinical symptoms to warn of developing cochlear damage. Vertigo may occur and may be evidence of vestibular injury. Other manifestations of neurotoxicity may include numbness, skin tingling, muscle twitching, and convulsions. The risk of hearing loss increases with the degree of exposure to either high peak or high trough serum concentrations and continues to progress after drug withdrawal. Renal impairment may be characterized by decreased creatinine clearance, the presence of cells or casts, oliguria, proteinuria, decreased urine specific gravity, or evidence of increasing nitrogen retention (increasing BUN, NPN, or serum creatinine). The risks of severe ototoxic and nephrotoxic reactions are sharply increased in patients with impaired renal function and in those with normal renal function who receive high doses or prolonged therapy. Renal and eighth nerve function should be closely monitored, especially in patients with known or suspected reduced renal function at the onset of therapy, and also in those whose renal function is initially normal but who develop signs of renal dysfunction during therapy. Serum concentrations of parenterally administered aminoglycosides should be monitored when feasible to assure adequate levels and to avoid potentially toxic levels. Urine should be examined for decreased specific gravity, increased excretion of protein and the presence of cells or casts. Blood urea nitrogen, serum creatinine, or creatinine clearance should be measured periodically. Serial audiograms should be obtained when feasible in patients old enough to be tested, particularly high risk patients. Evidence of ototoxicity (dizziness, vertigo, tinnitus, roaring in the ears, and hearing loss) or nephrotoxicity requires dosage adjustment or discontinuance of the drug. Neuromuscular blockade with respiratory paralysis may occur when kanamycin sulfate is instilled intraperitoneally concomitantly with anesthesia and muscle-relaxing drugs. Neuromuscular blockade has been reported following parenteral injection and the oral use of aminoglycosides. The possibility of the occurrence of neuromuscular blockade and respiratory paralysis should be considered if aminoglycosides are administered by any route, especially in patients receiving anesthetics, neuromuscular-blocking agents such as tubocurarine, succinylcholine, decamethonium, or in patients receiving massive transfusions of citrate-anticoagulated blood. If blockage occurs, calcium salts may reduce these phenomena but mechanical respiratory assistance may be necessary. The concurrent and/or sequential systemic, oral, or topical use of kanamycin and other potentially nephrotoxic, and/or neurotoxic drugs, particularly polymyxin B, bacitracin, colistin, amphotericin B, cisplatin, vancomycin, and all other aminoglycosides (including paromomycin) should be avoided because the toxicity may be additive. Other factors which may increase patient risk of toxicity are advanced age and dehydration. Kanamycin sulfate should not be given concurrently with potent diuretics (ethacrynic acid, furosemide, meralluride sodium, sodium mercaptomerin, or mannitol). Some diuretics themselves cause ototoxicity, and intravenously administered diuretics may enhance aminoglycoside toxicity by altering antibiotic concentrations in serum and tissue.
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General: Neurotoxic and nephrotoxic antibiotics may be almost completely absorbed from body surfaces (except the urinary bladder) after local irrigation and after topical application during surgical procedures. The potential toxic effects of antibiotics administered in this fashion (oto- and nephrotoxicity, neuromuscular blockade, respiratory paralysis) should be considered. . Increased nephrotoxicity has been reported following concomitant administration of aminoglycoside antibiotics with some cephalosporins. Aminoglycosides should be used with caution in patients with neuromuscular disorders such as myasthenia gravis, Parkinsonism, or infant botulism, since these drugs may aggravate muscle weakness because of their potential curare-like effect on neuromuscular function. Elderly patients may have a decrease in renal function which may not be evident in the results of routine screening tests, such as BUN or serum creatinine levels. Measurement of creatinine clearance or an estimate based on published nomograms or equations may be more useful. Monitoring of renal function during treatment with kanamycin, as with other aminoglycosides, is particularly important in such patients. Because of high concentrations of kanamycin sulfate in the urinary excretory system, patients should be well hydrated before treatment to prevent irritation of the renal tubules. NOTE: The risk of toxic reactions is low in well-hydrated patients with normal kidney function, who receive a total dose of 15 g of kanamycin or less. Treatment with kanamycin may result in overgrowth of nonsusceptible organisms. If this occurs kanamycin should be discontinued and appropriate therapy initiated.<br/>Laboratory Tests: Tests of eighth cranial nerve functions: Serial audiometric tests are suggested, particularly when renal function is impaired and/or prolonged aminoglycoside therapy is required; such tests should also be repeated periodically after treatment if there is evidence of a hearing deficit or vestibular abnormalitiesbefore or during therapy, or when consecutive or concomitant use of other potentially ototoxic drug is unavoidable. Test of renal function: It should be emphasized that since renal function may alter appreciably during therapy, renal function should be tested daily or more frequently. Urine should be examined for increased excretion of protein and for presence of cells and casts, keeping in mind the effects of the primary illness on these tests. One or more of the following laboratorymeasurements should be obtained at the onset of therapy, frequently during therapy, and at, or shortly after, the end of therapy: Creatinine clearance rate (either carefully measured or estimated from publishednomograms or equations based on patient's age, sex, body weight, and serialcreatinine concentrations) (preferred over BUN). Serum creatinine concentration (preferred over BUN). Blood urea nitrogen (BUN). More frequent testing is desirable if renal function is changing. If signs of renal irritation appear, such as casts, white or red cells, and albumin, hydration should be increased and a reduction in dosage may be desirable . These signs usually disappear when treatment is completed. However, if azotemia or a progressive decrease of urine output occurs, treatment should be stopped.<br/>Drug Interactions: In vitro mixing of an aminoglycoside with beta-lactam-type antibiotics (penicillins or cephalosporins) may result in a significant mutual inactivation. Even when an aminoglycoside and a penicillin-type drug are administered separately by different routes, a reduction in aminoglycoside serum half-life or serum levels has been reported in patients with impaired renal function and in some patients with normal renal function. Usually, such inactivation of the aminoglycoside is clinically significant only in patients with severely impaired renal function (see also Laboratory Test Interactions). See WARNING box regarding concurrent use of potent diuretics, concurrent and/or sequential use of other neurotoxic and/or nephrotoxic antibiotics, and for other essential information.<br/>Laboratory Test Interactions: Concomitant cephalosporin therapy may spuriously elevate creatinine determinations. The inactivation between aminoglycosides and beta-lactam antibiotics described in Drug Interactions may continue in specimens of body fluids collected for assay, resulting in inaccurate, false low aminoglycoside readings. Such specimens should be properly handled, ie assayed promptly, frozen, or treated with beta-lactamase.<br/>Carcinogenesis, Mutagenesis, Impairment of Fertility: Studies have not been performed with kanamycin to determine its effect in carcinogenesis, mutagenesis, or impairment of fertility.<br/>Pregnancy Category D:<br/>Nursing Mothers: Kanamycin sulfate is excreted in minute amounts in human milk. Because of the potential for serious adverse reactions from aminoglycosides in nursing infants, a decision should be made whether to discontinue nursing or to discontinue the drug taking into account the importance of the drug to the mother.<br/>Pediatric Use: Aminoglycosides should be used with caution in prematures and neonates because of the renal immaturity of these patients and the resulting prolongation of serum half-life of these drugs.
dailymed-instance:overdosag...
In the event of overdosage or toxic reaction, hemodialysis or peritoneal dialysis will aid in the removal of kanamycin from the blood. In the newborn infant, exchange transfusion may also be considered.
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kanamycin
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KANTREX (Injection, Solution)
dailymed-instance:adverseRe...
Kanamycin has the potential to induce auditory and sometimes vestibular toxicity, renal toxicity, and neuromuscular blockade. The risks are higher for patients with a present or past history of renal impairment (especially if hemodialysis is required): for those receiving concomitant or sequential treatment with other ototoxic or nephrotoxic drugs or rapid acting diuretic agents given intravenously (ethacrynic acid, furosemide, and mannitol), and for patients treated for longer periods and/or with higher doses than recommended.<br/>Ototoxicity: Toxic effects of kanamycin on the eighth cranial nerve can result in partially reversible or irreversible bilateral loss of hearing, loss of balance, or both. Tinnitus or vertigo may or may not be experienced. Cochlear damage is usually manifested initially by small changes in audiometric test results at the high frequencies and may not be associated with subjective hearing loss. Vestibular dysfunction is usually manifestedby nystagmus, vertigo, nausea, vomiting, or acute Meniere's syndrome.<br/>Nephrotoxicity: Albuminuria, presence of red and white cells, and granular casts; azotemia and oliguria have been reported. Renal function changes are usually reversible when the drug is discontinued. Renal impairment may be characterized by a rise in serum creatinine and may be accompanied by oliguria, presence of casts, cells, and protein in the urine, by rising levels of BUN or by decrease in creatinine clearance.<br/>Neuromuscular Blockade: Acute muscular paralysis and apnea can occur following treatment with aminoglycoside antibiotics. Neurotoxicity can occur after intrapleural and interperitoneal instillation of large doses of an aminoglycoside; however, the reaction has followed intravenous, intramuscular, and even the oral administration of these agents.<br/>Other: Some local irritation or pain may follow the intramuscular injection of kanamycin. Other adverse reactions of the drug reported on rare occasions are skin rash, drug fever, headache, paresthesia, nausea, vomiting, and diarrhea. The���malabsorption syndrome���characterized by an increase in fecal fat, decrease in serum carotene, and fall in xylose absorption, reportedly has occurred with prolonged therapy.
dailymed-instance:indicatio...
Kanamycin is indicated in the short term treatment of serious infections caused by susceptible strains of the designated microorganisms below. Bacteriological studies to identify the causative organisms and to determine their susceptibility to kanamycin should be performed. Therapy may be instituted prior to obtaining theresults of susceptibility testing. Kanamycin may be considered as initial therapy in the treatment of infections where one or more of the following are the known or suspected pathogens: E. coli, Proteus species (both indole-positive and indole-negative), Enterobacter aerogenes, Klebsiella pneumoniae, Serratia marcescens, Acinetobacter species. The decision to continue therapy with the drug should be based on results of the susceptibility tests, the response of the infection to therapy,and the important additional concepts contained in the WARNING box above. In serious infections when the causative organisms are unknown, KANTREX may be administered as initial therapy in conjunction with a penicillin- or cephalosporin-type drug before obtaining results of susceptibility testing. If anaerobic organisms are suspected, consideration should be given to using other suitable antimicrobial therapy in conjunction with kanamycin. Although kanamycin is not the drug of choice for staphylococcal infections, it may be indicated under certain conditions for the treatment of known or suspected staphylococcal disease. These situations include the initial therapy of severe infections where the organism is thought to be either a Gram-negative bacterium or a staphylococcus, infections due to susceptible strains of staphylococci in patients allergic to other antibiotics, and mixed staphylococcal/Gram-negative infections.
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KANTREX