Spiramycin

Spiramycin
Clinical data
Routes of
administration
oral
ATC code J01FA02 (WHO) QJ51FA02 (WHO)
Legal status
Legal status
  • ℞ (Prescription only)
Identifiers
Synonyms 2-[(4R,5S,6S,7R,9R,10R,11E,13E,16R)-6-{[(2S,3R,4R,5S,6R)-5-{[(2S,5S,6S)-4,5-dihydroxy-4,6-dimethyloxan-2-yl]oxy}-4-(dimethylamino)-3-hydroxy-6-methyloxan-2-yl]oxy}-10-{[(2R,5S,6R)-5-(dimethylamino)-6-methyloxan-2-yl]oxy}-4-hydroxy-5-methoxy-9,16-dimethyl-2-oxo-1-oxacyclohexadeca-11,13-dien-7-yl]acetaldehyde
CAS Number 8025-81-8 YesY
PubChem (CID) 5356392
ChemSpider 4512090 YesY
UNII 71ODY0V87H YesY
KEGG D05908 YesY
ChEBI CHEBI:85260 N
ChEMBL CHEMBL1256397 N
NIAID ChemDB 007350
E number E710 (antibiotics)
ECHA InfoCard 100.029.476
Chemical and physical data
Formula C43H74N2O14
Molar mass 843.053 g/mol
3D model (Jmol) Interactive image
Solubility in water Insoluble in water; Very soluble in acetonitrile and methanol; Almost completely(>99.5) in ethanol. mg/mL (20 °C)
 NYesY (what is this?)  (verify)

Spiramycin is a macrolide antibiotic and antiparasitic It is used to treat toxoplasmosis and various other infections of soft tissues. Although used in Europe, Canada and Mexico,[1] spiramycin is still considered an experimental drug in the United States, but can sometimes be obtained by special permission from the FDA for toxoplasmosis in the first trimester of pregnancy.[2]

Spiramycin has been used in Europe since the year 2000 under the trade name "Rovamycine", produced by Rhone-Poulenc Rorer and Famar Lyon, France and Eczacibasi Ilae, Turkey. It also goes under the name Rovamycine in Canada (distributed by OdanLaboratories), where it is mostly marketed to dentists for mouth infections.

Spiramycin is a 16-membered ring macrolide. It was discovered in 1952 as a product of Streptomyces ambofaciens. As a preparation for oral administration it has been used since 1955, in 1987 also the parenteral form was introduced into practice. The antibiotic action involves inhibition of protein synthesis in the bacterial cell during translocation. Resistance to spiramycin can develop by several mechanisms and its prevalence is to a considerable extent proportional to the frequency of prescription in a given area. The antibacterial spectrum comprises Gram-positive cocci and rods, Gram-negative cocci and also Legionellae, mycoplasmas, chlamydiae, some types of spirochetes, Toxoplasma gondii and Cryptosporidium species. Enterobacteria, pseudomonads and pathogenic moulds are resistant. Its action is mainly bacteriostatic, on highly sensitive strains it exerts a bactericide action. As compared with erythromycin, it is in vitro weight for weight 5 to 20 less effective, an equipotential therapeutic dose is, however, only double. This difference between the effectiveness in vitro and in vivo is explained above all by the great affinity of spiramycin to tissues where it achieves concentrations many times higher than serum levels. An important part is played also by the slow release of the antibiotic from the tissue compartment, the marked action on microbes in sub-inhibition concentrations and the relatively long persisting post-antibiotic effect. Its great advantage is the exceptionally favourable tolerance-gastrointestinal and general. It is available for parenteral and oral administration

References

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