Aminoglycoside: Difference between revisions
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==Aminoglycoside== | |||
Aminoglycosides are a class of antibiotics used primarily to treat aerobic [[Gram-negative bacteria|Gram-negative bacterial]] infections. They are derived from various species of [[Streptomyces]] and [[Micromonospora]]. Aminoglycosides are known for their bactericidal activity, which is achieved by inhibiting bacterial protein synthesis. | |||
==Mechanism of Action== | |||
Aminoglycosides exert their antibacterial effects by binding to the 30S subunit of the bacterial [[ribosome]]. This binding interferes with the initiation complex of protein synthesis, causes misreading of mRNA, and ultimately leads to the production of nonfunctional or toxic peptides. The disruption of protein synthesis is lethal to bacteria, making aminoglycosides bactericidal. | |||
==Pharmacokinetics== | |||
Aminoglycosides are not absorbed from the gastrointestinal tract, so they are usually administered intravenously or intramuscularly. They are distributed in extracellular fluid and have poor penetration into the central nervous system. Aminoglycosides are primarily excreted by the kidneys, and their half-life can be prolonged in patients with renal impairment. | |||
==Clinical Uses== | |||
Aminoglycosides are used to treat serious infections caused by aerobic Gram-negative bacteria, including [[Pseudomonas aeruginosa]], [[Escherichia coli]], [[Klebsiella pneumoniae]], and [[Enterobacter]]. They are often used in combination with other antibiotics, such as [[beta-lactam antibiotics]], to enhance their efficacy and broaden the spectrum of activity. | |||
==Adverse Effects== | |||
The use of aminoglycosides is associated with several potential adverse effects: | |||
* '''Ototoxicity''': Aminoglycosides can cause damage to the inner ear, leading to hearing loss and balance disturbances. This effect is often irreversible. | |||
* '''Nephrotoxicity''': These antibiotics can cause kidney damage, which is usually reversible upon discontinuation of the drug. | |||
* '''Neuromuscular blockade''': Aminoglycosides can interfere with neuromuscular transmission, potentially leading to muscle weakness and respiratory depression. | |||
==Resistance== | |||
Bacterial resistance to aminoglycosides can occur through several mechanisms: | |||
* '''Enzymatic modification''': Bacteria can produce enzymes that modify the aminoglycoside molecule, rendering it ineffective. | |||
* '''Altered target site''': Mutations in the ribosomal binding site can reduce the affinity of aminoglycosides for the ribosome. | |||
* '''Efflux pumps''': Some bacteria can actively pump aminoglycosides out of the cell, reducing their intracellular concentration. | |||
==Related Pages== | |||
* [[Antibiotic]] | |||
* [[Gram-negative bacteria]] | |||
* [[Protein synthesis]] | |||
* [[Streptomyces]] | |||
* [[Micromonospora]] | |||
{{Antibiotics}} | |||
[[Category:Antibiotics]] | |||
[[Category:Aminoglycosides]] | |||
Latest revision as of 00:37, 19 February 2025
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Streptomycin -
2-Deoxystreptamine -
Kanamycin A -
Amikacin -
Tobramycin -
Dibekacin -
Gentamicin C2 -
Sisomicin -
Netilmicin -
Neomycin B and C -
Paromomycin -
Streptomycin
Aminoglycoside[edit]
Aminoglycosides are a class of antibiotics used primarily to treat aerobic Gram-negative bacterial infections. They are derived from various species of Streptomyces and Micromonospora. Aminoglycosides are known for their bactericidal activity, which is achieved by inhibiting bacterial protein synthesis.
Mechanism of Action[edit]
Aminoglycosides exert their antibacterial effects by binding to the 30S subunit of the bacterial ribosome. This binding interferes with the initiation complex of protein synthesis, causes misreading of mRNA, and ultimately leads to the production of nonfunctional or toxic peptides. The disruption of protein synthesis is lethal to bacteria, making aminoglycosides bactericidal.
Pharmacokinetics[edit]
Aminoglycosides are not absorbed from the gastrointestinal tract, so they are usually administered intravenously or intramuscularly. They are distributed in extracellular fluid and have poor penetration into the central nervous system. Aminoglycosides are primarily excreted by the kidneys, and their half-life can be prolonged in patients with renal impairment.
Clinical Uses[edit]
Aminoglycosides are used to treat serious infections caused by aerobic Gram-negative bacteria, including Pseudomonas aeruginosa, Escherichia coli, Klebsiella pneumoniae, and Enterobacter. They are often used in combination with other antibiotics, such as beta-lactam antibiotics, to enhance their efficacy and broaden the spectrum of activity.
Adverse Effects[edit]
The use of aminoglycosides is associated with several potential adverse effects:
- Ototoxicity: Aminoglycosides can cause damage to the inner ear, leading to hearing loss and balance disturbances. This effect is often irreversible.
- Nephrotoxicity: These antibiotics can cause kidney damage, which is usually reversible upon discontinuation of the drug.
- Neuromuscular blockade: Aminoglycosides can interfere with neuromuscular transmission, potentially leading to muscle weakness and respiratory depression.
Resistance[edit]
Bacterial resistance to aminoglycosides can occur through several mechanisms:
- Enzymatic modification: Bacteria can produce enzymes that modify the aminoglycoside molecule, rendering it ineffective.
- Altered target site: Mutations in the ribosomal binding site can reduce the affinity of aminoglycosides for the ribosome.
- Efflux pumps: Some bacteria can actively pump aminoglycosides out of the cell, reducing their intracellular concentration.
Related Pages[edit]
