Carrier Systems for the Local Delivery of Antibiotics in Bone Infections

被引:0
作者
Kyriaki Kanellakopoulou
Evangelos J. Giamarellos-Bourboulis
机构
[1] Athens Medical School,4th Department of Internal Medicine
[2] Athens Medical School,1st Department of Propedeutic Medicine
[3] Sismanoglion General Hospital,4th Department of Internal Medicine
来源
Drugs | 2000年 / 59卷
关键词
PMMA; Antibacterial Agent; Bone Cement; Pefloxacin; Fleroxacin;
D O I
暂无
中图分类号
学科分类号
摘要
Carriers used for the local delivery of antibacterial agents may be classified as nonbiodegradable or biodegradable. A major representative of the former category are the polymethylmethacrylate (PMMA) beads often impregnated with gentamicin which have been commercially available for the last 2 decades. Examples of the latter category include the collagen-gentamicin sponge, apatitewollastonite glass ceramic blocks, hydroxyapatite blocks, polylactide/polyglycolide implants and the polylactate polymers. All of the above systems release antibiotics at concentrations exceeding those of the minimum inhibitory concentrations (MICs) for the most common pathogens of chronic osteomyelitis without releasing any antibiotic in the systemic circulation and without producing adverse effects. The major disadvantage of the PMMA beads is the need for their surgical removal at the completion of antibiotic release, which usually takes place 4 weeks after their implantation. The biodegradable carriers do not require surgical removal, and of those listed, the collagen-gentamicin sponge has been applied successfully over the last decade for bone infections. Among the other biodegradable systems which are still in experimental stages, polylactate polymers carrying quinolones seem very promising, since they are characterised by prolonged duration of release at concentrations 100 to 1000 times the MICs of the causative bacteria implicated in bone infections; preliminary results have shown these carriers to be very effective in the management of experimental osteomyelitis caused by methicillinresistant Staphylococcus aureus. Further development of such biodegradable systems will provide a novel approach in the future for the eradication of chronic osteomyelitis.
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页码:1223 / 1232
页数:9
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