What is AMIKACIN B. BRAUN 10MG/ML Solution for infusion used for?

For the treatment of severe infections caused by bacteria susceptible to amikacin (see section 5.1), when less toxic antimicrobial agents are ineffective: nosocomial lower respiratory tract infections, including severe pneumonia, intra-abdominal infections, including peritonitis, complicated and recurrent urinary tract infections, skin and soft tissue infections, including poorly healing wound infections, bacterial endocarditis, post-operative intra-abdominal infections. Amikacin B.

What is the active ingredient in AMIKACIN B. BRAUN 10MG/ML Solution for infusion?

Amikacini sulfas (Amikacini sulfas)

What pharmaceutical form is AMIKACIN B. BRAUN 10MG/ML Solution for infusion available in?

AMIKACIN B. BRAUN 10MG/ML Solution for infusion: Roztwór do wstrzykiwań 250 mg/ml (domięśniowa, dożylna)

Is AMIKACIN B. BRAUN 10MG/ML Solution for infusion OTC or prescription only?

AMIKACIN B. BRAUN 10MG/ML Solution for infusion requires a doctor's prescription.

What are the side effects of AMIKACIN B. BRAUN 10MG/ML Solution for infusion?

All aminoglycosides have the potential to induce ototoxicity, renal toxicity, and neuromuscular blockade. These toxicities occur more frequently in patients with renal impairment, in patients treated with other ototoxic or nephrotoxic agents, and in patients treated for longer periods and/or at higher than recommended doses (see section 4.4). Adverse reactions for which at least a possible causal relationship with treatment exists are listed below by body system and absolute fr

Who should NOT take AMIKACIN B. BRAUN 10MG/ML Solution for infusion?

Hypersensitivity to amikacin or other aminoglycosides or to any of the excipients listed in section 6.1. A history of hypersensitivity or serious toxic reactions to aminoglycosides may contraindicate the use of any aminoglycoside, due to the known cross-sensitivity of patients to medicinal products in this class.

Does AMIKACIN B. BRAUN 10MG/ML Solution for infusion interact with other medications?

Beta-lactam antibiotic-containing products When an aminoglycoside- or penicillin-type product is administered concomitantly with amikacin in vivo by separate routes, a reduction in serum activity may occur. Other neurotoxic, ototoxic and nephrotoxic agents Due to the potential for additive effects, concurrent or sequential systemic or topical administration of other neurotoxic, ototoxic, or nephrotoxic agents should be avoided. The toxicity of amikacin may be increased by the following neuro- an

Can AMIKACIN B. BRAUN 10MG/ML Solution for infusion be used during pregnancy?

Pregnancy There are only limited data on the use of aminoglycosides in pregnant women. Aminoglycosides can cause foetal harm. Aminoglycosides cross the placenta, and cases of total, irreversible, bilateral congenital deafness have been reported in children whose mothers received streptomycin during pregnancy. Although adverse effects on the foetus or neonate have not been reported in women treated with other aminoglycosides, the potential for harm exists. If amikacin is used du

What ATC class does AMIKACIN B. BRAUN 10MG/ML Solution for infusion belong to?

AMIKACIN B. BRAUN 10MG/ML Solution for infusion: ATC J01GB06. ATC is the WHO Anatomical Therapeutic Chemical classification — it groups drugs by organ system and pharmacological mechanism.

AMIKACIN B. BRAUN 10MG/ML Solution for infusion

This information is for educational purposes only. It is not intended as medical advice. Always consult a qualified healthcare professional.

Pharmacotherapeutic group: Other aminoglycosides, ATC code: J01GB06 Amikacin is a semi-synthetic aminoglycoside antibiotic derived from kanamycin.‍‍‍‍‍‍‍‍‍‍‍‍‍ It is obtained by acylation of the C-1 amino group in the 2-deoxystreptamine moiety with 4-amino-2-hydroxybutyric acid. Mechanism of action Amikacin acts by inhibiting protein synthesis at bacterial ribosomes through interaction with ribosomal RNA and subsequent inhibition of reproduction in susceptible microorganisms. The result is a bactericidal effect. Pharmacokinetic/pharmacodynamic relationship Of the pharmacokinetic/pharmacodynamic parameters, the ratio of peak serum concentration (Cmax) to minimum inhibitory concentration (MIC) for the given pathogen is the most important predictor of the bactericidal effect of amikacin. A Cmax/MIC ratio of 8:1 or 10:1 is considered effective for killing bacteria and preventing regrowth. Amikacin exhibits a post-antibiotic effect both in vitro and in vivo. The post-antibiotic effect allows extension of the dosing interval without loss of efficacy against most Gram-negative bacilli. Mechanism(s) of resistance Resistance to amikacin may develop through the following mechanisms: Enzymatic inactivation: The most common resistance mechanism is enzymatic modification of aminoglycoside molecules. These are mediated by acetyltransferases, phosphotransferases, or nucleotidyltransferases, which are primarily encoded on plasmids. Due to its resistance to degradation by aminoglycoside-inactivating enzymes, amikacin has demonstrated efficacy against many bacterial species resistant to aminoglycosides. Reduced penetration and active efflux: This resistance mechanism is observed in Pseudomonas aeruginosa. Recent data indicate the emergence of a similar resistance mechanism in Acinetobacter spp. Target structure alteration: Ribosomal modifications are only occasionally observed as a cause of resistance. Partial cross-resistance between amikacin and other aminoglycosides exists. Susceptibility testing breakpoints The European Committee on Antimicrobial Susceptibility Testing (EUCAST) has established the following minimum inhibitory concentration (MIC) interpretive criteria for amikacin susceptibility testing: https://www.ema.europa.eu/documents/other/minimum-inhibitory-concentration-mic-breakpoints_en.xlsx Spectrum of activity of amikacin: The prevalence of acquired resistance may vary geographically and over time for selected species. Local resistance information is desirable, particularly when treating severe infections. If necessary, expert advice should be sought when the local prevalence of resistance is such that the utility of the agent is questionable for at least some types of infection. Generally susceptible species Aerobic Gram-positive microorganisms Staphylococcus aureus Staphylococcus haemolyticusStaphylococcus hominis 0 Aerobic Gram-negative microorganisms Acinetobacter pittii Citrobacter freundii Citrobacter koseri Enterobacter cloacae Escherichia coli Klebsiella aerogenes Klebsiella oxytoca Klebsiella pneumoniae Morganella morganii Proteus mirabilis Proteus vulgaris 0 Pseudomonas aeruginosa 1 Salmonella enterica 0 Serratia liquefaciens 0 Serratia marcescens Shigella spp. Species for which acquired resistance may be a problem Aerobic Gram-positive microorganisms Staphylococcus epidermidis Aerobic Gram-negative microorganisms Acinetobacter baumannii Intrinsically resistant organisms Aerobic Gram-positive microorganisms Enterococcus spp. Streptococcus spp. Aerobic Gram-negative microorganisms Burkholderia cepacia Stenotrophomonas maltophilia Anaerobes Bacteroides spp. Prevotella spp. Other microorganisms Chlamydia spp. Chlamydophila spp. Mycoplasma spp. Ureaplasma urealyticum 1 In specific patient populations, e.g. patients with cystic fibrosis, the proportion of resistant isolates is ≥10%. 0 At the time of publication of these tables, no updated data were available. Susceptibility is assumed based on primary literature, standard reference works, and treatment guidelines. Additional information: Aminoglycosides are suitable in combination with other antibiotics against Gram-positive cocci.

⚠️ Warnings

Caution is required when administering to patients with: renal impairment, hearing or vestibular impairment, neuromuscular disorders (e.g.‍‍‍‍‍‍‍‍‍‍‍‍‍ myasthenia gravis, parkinsonism, as muscle weakness may be exacerbated due to the curare-like effect by which amikacin may potentially act on the neuromuscular junction), and patients treated with other aminoglycosides immediately prior to the use of amikacin. Patients treated with parenteral aminoglycosides should be under close clinical observation because of the potential ototoxicity and nephrotoxicity associated with their use. Toxic effects of aminoglycosides, including amikacin, are more frequent in patients with renal impairment, when high doses are administered, and during prolonged treatment. The safety of treatment exceeding 14 days has not been established. Other factors that increase the risk of aminoglycoside toxicity include advanced age and dehydration. Neuro/ototoxicity Patients treated with aminoglycosides may develop neurotoxicity manifesting as vestibular and/or bilateral auditory ototoxicity. The risk of aminoglycoside-induced ototoxicity is higher in patients with renal impairment and in patients, including those who are otherwise healthy, whose therapy is prolonged to 5–7 days. High-frequency hearing loss usually appears first and can only be detected by audiometric testing. Vertigo may occur, which may be evidence of vestibular damage. Other manifestations of neurotoxicity may include numbness, tingling, muscle twitching, and convulsions. Patients with mitochondrial DNA mutations (particularly the 1555 A to G nucleotide substitution in the 12S rRNA gene) are at increased risk of ototoxicity even when serum aminoglycoside levels are within the recommended range during treatment. Alternative treatment options should be considered in these patients. In patients with a family history of relevant mutations or aminoglycoside-induced deafness, alternative treatment or genetic testing should be considered before administration. Patients who develop cochlear or vestibular damage may not experience any symptoms during treatment that would warn them of developing eighth nerve toxicity, and complete or partial irreversible bilateral deafness or severe vertigo may occur after discontinuation of the medicinal product. See also section 4.8. Aminoglycoside-induced ototoxicity is usually irreversible. Neuromuscular toxicity Neuromuscular blockade and respiratory paralysis have been reported following parenteral injection, topical application (such as orthopaedic or abdominal irrigation or local treatment of empyema), and oral use of aminoglycosides. The possibility of respiratory paralysis should be considered regardless of the route of administration of aminoglycosides, particularly in patients concurrently receiving medicinal products that cause neuromuscular blockade. See also section 4.5. If neuromuscular blockade occurs, calcium salts may reverse respiratory paralysis; however, mechanical ventilation may still be required. Neuromuscular blockade and muscular paralysis have been demonstrated in laboratory animals given high doses of amikacin. Renal toxicity Aminoglycosides are potentially nephrotoxic. Renal toxicity is independent of the plasma level obtained at peak concentration (Cmax). The risk of nephrotoxicity is higher in patients with renal impairment and in patients receiving high doses or undergoing prolonged therapy. Patients must be well hydrated during treatment, and renal function should be assessed by standard methods before initiation of therapy and daily during treatment. See section 4.2. Reduction of daily doses and/or extension of the dosing interval is necessary in the event of signs of renal dysfunction, such as: casts in urine, presence of leucocytes or erythrocytes in the urine, albuminuria, decreased creatinine clearance, decreased urine specific gravity, hyperazotaemia, increased BUN, rising serum creatinine, and oliguria. Treatment must be discontinued if azotaemia increases or if there is a progressive decrease in urine output. Patient monitoring Renal function and eighth cranial nerve function should be carefully monitored, particularly in patients with known or suspected renal impairment at the start of therapy, and also in patients whose renal function is initially normal but who develop renal impairment during therapy. Serum amikacin concentrations should be monitored whenever possible to ensure adequate levels and to avoid potentially toxic levels. Urine should be examined for decreased specific gravity, increased protein excretion, and the presence of cells or casts. Blood urea nitrogen, serum creatinine, or creatinine clearance should be measured at regular intervals. Serial audiograms should be obtained whenever possible in patients who are 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 discontinuation of this medicinal product or dosage adjustment. See section 4.8. Amikacin treatment should be discontinued if tinnitus occurs, if there is subjective hearing deterioration, or if repeated audiograms demonstrate significant loss of high-frequency tone perception. As with other antibiotics, use of amikacin may result in overgrowth of non-susceptible organisms. If this occurs, appropriate therapy should be initiated. Aminoglycosides applied locally as part of a surgical procedure are rapidly and almost completely absorbed (except from the urinary bladder). Irreversible deafness, renal failure, and death caused by neuromuscular blockade have been reported in association with irrigation of the surgical field with aminoglycoside preparations (regardless of the extent of irrigation). Macular infarction has been reported following intravitreal administration of amikacin (injection into the eye), leading in some cases to permanent loss of vision. Elderly patients Elderly patients may have reduced renal function that may not be apparent from routine screening tests such as BUN or serum creatinine. Determination of creatinine clearance may be more useful. Monitoring of renal function during aminoglycoside therapy is particularly important in elderly patients. Paediatric population Administration of aminoglycosides to premature infants and neonates requires caution due to the renal immaturity of these patients, resulting in prolonged serum half-life of these drugs. Special warnings/precautions regarding excipients This medicinal product contains 354 mg sodium per 100 ml, equivalent to 17.7% of the WHO recommended maximum daily dietary sodium intake of 2 g for an adult. Interference with laboratory tests When cephalosporins are administered concomitantly, serum creatinine tests may yield falsely elevated values. In samples (e.g. serum, cerebrospinal fluid, etc.) collected for aminoglycoside testing, mutual inactivation of amikacin and beta-lactam antibiotics may continue, leading to incorrect results. Samples should therefore be analysed immediately after collection or frozen, or beta-lactam antibiotics must be inactivated by adding beta-lactamase. Inactivation of aminoglycosides is clinically significant only in patients with severe renal impairment.

AMIKACIN B. BRAUN 10MG/ML Solution for infusion

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