París M M, Shelton S, Trujillo M, Hickey S M, McCracken G H
University of Texas Southwestern Medical Center at Dallas, USA.
Antimicrob Agents Chemother. 1996 Jan;40(1):122-6. doi: 10.1128/AAC.40.1.122.
Although penicillin resistance among Streptococcus pneumoniae strains is increasing in many areas, resistance to clindamycin remains low. In our well-characterized rabbit meningitis model, we conducted experiments to evaluate the bacteriologic efficacy of clindamycin after a penicillin- and cephalosporin-resistant S. pneumoniae strain was intracisternally inoculated. Animals received a loading intravenous dose of 30 mg of clindamycin per kg of body weight and then two doses of 20 mg/kg given 5 h apart. In addition to clindamycin, some animals received dexamethasone (DXM) with or without ceftriaxone. The concentrations of clindamycin in cerebrospinal fluid were from 8.9 to 12.8% of the concomitant concentrations in serum and were unaffected by DXM administration. Mean changes in CFU (log10 per milliliter) at 10 and 24 h were -3.7 and -6.1, respectively, for clindamycin-treated rabbits, -3.6 and -6.3 for clindamycin-DXM-treated rabbits, -3.9 and -5.8, respectively, for clindamycin-ceftriaxone-treated rabbits, and -5.0 and -6.7, respectively, for clindamycin-ceftriaxone-DXM-treated rabbits. By 24 h all but one of the cultures of cerebrospinal fluid (that from a clindamycin-DXM-treated rabbit) were sterile. Because of the potential risk for clindamycin-treated rabbits to develop macrolide-lincosamide resistance, we attempted, unsuccessfully, to induce clindamycin resistance in vitro in two S. pneumoniae strains. Although clindamycin therapy might be effective in selected patients with multiple-drug-resistant pneumococcal meningitis who have failed conventional treatments, clinical experience is necessary before it can be recommended.
尽管在许多地区肺炎链球菌菌株对青霉素的耐药性在增加,但对克林霉素的耐药性仍然较低。在我们特征明确的兔脑膜炎模型中,我们进行了实验,以评估在脑池内接种一株对青霉素和头孢菌素耐药的肺炎链球菌后克林霉素的细菌学疗效。动物静脉注射负荷剂量为每千克体重30毫克克林霉素,然后每隔5小时给予两剂20毫克/千克。除克林霉素外,一些动物接受了地塞米松(DXM),有的还联合头孢曲松。脑脊液中克林霉素的浓度为血清中相应浓度的8.9%至12.8%,且不受地塞米松给药的影响。对于接受克林霉素治疗的兔子,在10小时和24小时时CFU(每毫升log10)的平均变化分别为-3.7和-6.1,接受克林霉素-DXM治疗的兔子为-3.6和-6.3,接受克林霉素-头孢曲松治疗的兔子分别为-3.9和-5.8,接受克林霉素-头孢曲松-DXM治疗的兔子分别为-5.0和-6.7。到24小时时,除了一份脑脊液培养物(来自一只接受克林霉素-DXM治疗的兔子)外,其余所有培养物均无菌。由于接受克林霉素治疗的兔子有产生大环内酯-林可酰胺耐药性的潜在风险,我们试图在体外诱导两株肺炎链球菌产生克林霉素耐药性,但未成功。尽管克林霉素治疗可能对某些常规治疗失败的多重耐药肺炎球菌性脑膜炎患者有效,但在推荐使用之前还需要临床经验。