Safety Evaluation of LB10522, a New Cephalosporin Antibiotic

  • Kim, Seong-Il (Biotech Research Institute, LG Chem. Research Park. LG Chemical LTD.) ;
  • Raffi Mikaelian (ITR Laboratories Canada Inc) ;
  • Kwak, Jin-Hwan (Biotech Research Institute, LG Chem. Research Park. LG Chemical LTD.) ;
  • Kim, In-Chull (Biotech Research Institute, LG Chem. Research Park. LG Chemical LTD.) ;
  • Lee, Chang-Ho (Biotech Research Institute, LG Chem. Research Park. LG Chemical LTD.)
  • Published : 1995.12.01

Abstract

All the pharmacological studies of LB17522 described here were carried out with high doses (fifteen to sixty times of the therapeutic dose) to determine an indication of potential side effects in clinical use in terms of the acute clinical signs, cardiovascular and central nervous system. LB10522 does not produce any observable clinical signs except for the symptoms such as moist eye, skin rash, slight salivation, vomitting, and slightly reduced activity. The effects of LB10522 on the hemodynamics and cardiac function of anesthetized beagle dogs are as follows; heart rates and mean arterial blood pressure had a tendency to increase mildly, which is a normal finding in anesthetized dogs. All the animals except for one showed relatively stable respiratory rates throughout the observation period. Each animal treated with LB10522 showed slight increase in the left cardiac work and left ventricular stroke work which are mainly related to corresponding increases in cardiac output. Femoral blood flow were shown to be increased in some animals treated with LB10522. The epileptogenic activities of various cephalosporins were assessed by a direct intracerebral injection of appropriate concentration of test articles. The CD$_{50}$ values (nmol) obtained from the analysis of the dose-response data are as follows; 78.2, 175.3, 156.3, and 53.5 for cefazolin, cephaloridine, ceftazidime, and LB 10522, respectively. LB10522 seems to be equipotent with cefazolin or to be three times more potent than cephaloridine and ceftazidime in causing adverse CNS stimulation. Taken into consideration all the information obtained, LB10522 is not supposed to induce much changes in the functions examined in these studies in man at therapeutic doses.s.

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