Kuzucu Cigdem, Durmaz Riza, Otlu Baris, Aktas Elif, Gulcan Hande, Cizmeci Zeynep
Department of Clinical Microbiology, Inonu University Faculty of Medicine, Malatya, Turkey.
New Microbiol. 2008 Jul;31(3):401-8.
The aim of this study was to assess species distribution, antifungal susceptibility and clonal relationships among Candida strains isolated from a group of pediatric/neonatal intensive care (PICU/NICU) patients that had a very high mortality rate (76%). The cases of 21 patients (19 with candidemia, 2 with Candida meningitides) treated over a 1-year period in a Turkish hospital PICU and NICU were retrospectively analyzed. Twenty-eight Candida isolates were detected from blood (20), cerebrospinal fluid (CSF) (2) and other specimens (6). Candida species were identified using the API ID 32C System. Susceptibility testing was done (all 28 isolates) for amphotericin B, fluconazole and itraconazole using the broth microdilution method. Arbitrarily primed polymerase chain reaction (AP-PCR) was used for molecular typing of the 3 most common ones; C. albicans (15), C. parapsilosis (6), and C. pelliculosa (4). Electrophoretic karyotyping (EK) was done to check clonal identity obtained by AP-PCR. Of the 20 blood isolates, 8 (40%) were C. albicans, 12 (60%) were non-albicans Candida, and one of the 2 CSF isolates was C. albicans. The overall species distribution was as follows: 15 C. albicans isolates, 6 C. parapsilosis isolates, 4 C. pelliculosa isolates, 2 C. famata isolates and 1 C tropicalis isolate. Amphotericin B had the best antifungal activity with a MIC90 of 0.125 microg/ml, and the rates of susceptibility to fluconazole and itraconazole were 93% and 82%, respectively. AP-PCR revealed 11 genotypes (4 were identical pairs, 7 were distinct) among the 15 C. albicans isolates, 2 genotypes (5 were classified in the same type) among the 6 C. parapsilosis isolates, and 4 separate genotypes for the 4 C. pelliculosa isolates. Karyotyping results correlated well with the AP-PCR findings. As indicated in the previous research, our results confirmed that non-albicans Candida species have become more frequently causative agents for invasive fungal infections in the ICU. Transmission of C. albicans and C. pelliculosa was relatively low, but transmission of C. parapsilosis was high, suggesting that more effective control and very strict treatment protocols are needed for patients having high mortality and invasive fungal infection in ICU.
本研究的目的是评估从一组死亡率极高(76%)的儿科/新生儿重症监护病房(PICU/NICU)患者中分离出的念珠菌菌株的物种分布、抗真菌药敏性及克隆关系。对一家土耳其医院的PICU和NICU在1年期间治疗的21例患者(19例念珠菌血症,2例念珠菌性脑膜炎)的病例进行了回顾性分析。从血液(20份)、脑脊液(CSF)(2份)和其他标本(6份)中检测到28株念珠菌分离株。使用API ID 32C系统鉴定念珠菌菌种。采用肉汤微量稀释法对所有28株分离株进行了两性霉素B、氟康唑和伊曲康唑的药敏试验。对3种最常见的念珠菌;白色念珠菌(15株)、近平滑念珠菌(6株)和薄膜念珠菌(4株),采用随机引物聚合酶链反应(AP-PCR)进行分子分型。进行了电泳核型分析(EK)以检查通过AP-PCR获得的克隆一致性。在20份血液分离株中,8株(40%)为白色念珠菌,12株(60%)为非白色念珠菌,2份CSF分离株中有1份为白色念珠菌。总体物种分布如下:15株白色念珠菌分离株、6株近平滑念珠菌分离株、4株薄膜念珠菌分离株、2株季也蒙念珠菌分离株和1株热带念珠菌分离株。两性霉素B具有最佳的抗真菌活性,MIC90为0.125μg/ml,对氟康唑和伊曲康唑的药敏率分别为93%和82%。AP-PCR显示15株白色念珠菌分离株中有11种基因型(4对相同,7种不同),6株近平滑念珠菌分离株中有2种基因型(5株归为同一类型),4株薄膜念珠菌分离株有4种不同基因型。核型分析结果与AP-PCR结果相关性良好。如先前研究所示,我们的结果证实非白色念珠菌菌种已成为ICU侵袭性真菌感染更常见的病原体。白色念珠菌和薄膜念珠菌的传播相对较低,但近平滑念珠菌的传播较高,这表明对于ICU中死亡率高且有侵袭性真菌感染的患者,需要更有效的控制和非常严格的治疗方案。
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