在因铜绿假单胞菌血流感染而考虑关闭新生儿重症监护病房的决策中使用DNA指纹识别技术。
Use of DNA fingerprinting in decision making for considering closure of neonatal intensive care units because of Pseudomonas aeruginosa bloodstream infections.
作者信息
Schutze Gordon E, Gilliam Craig H, Jin Shouguang, Cavenaugh Connie K, Hall R Whit, Bradsher Robert W, Jacobs Richard F
机构信息
Department of Pediatrics, School of Medicine, University of Arkansas for Medical Sciences, Little Rock, AR, USA.
出版信息
Pediatr Infect Dis J. 2004 Feb;23(2):110-4. doi: 10.1097/01.inf.0000109222.90464.aa.
BACKGROUND
Bloodstream infections with Pseudomonas aeruginosa have been well-described in neonatal intensive care units (NICU) and have resulted in the temporary closure of some nurseries to new admissions. Nosocomial transmission of these infections has been verified by fingerprint analysis of the isolates. We utilized molecular fingerprinting to identify the source of bloodstream infections in an NICU and used this information to apply infection control measures that allowed the nursery to stay open and continue to accept referrals.
METHODS
In June 1998 three premature infants transferred to our hospital (Hospital A) from Hospitals B and C had bloodstream infections with P. aeruginosa. Subsequently one additional neonate transferred from Hospital B was colonized with P. aeruginosa. Random amplification of polymorphic deoxyribonucleic acid (RAPD) was performed on the four isolates. All transfers from Hospital B were cultured, and surveillance programs were instituted in Hospitals A and B. Targeted infection control measures for all transfers were implemented.
RESULTS
The four isolates were the same clone by RAPD. Investigation of the environment in Hospital A did not identify any source of the organism. Surveillance cultures on 49 neonates at Hospital A revealed only one patient colonized at an endotracheal tube. This patient was also a transfer from Hospital B. Results from Hospital B identified 4 of 40 (10%) neonates colonized. All isolates were clones identical with the bloodstream isolates from the neonates with bloodstream infections. Infection control measures for all babies transferred from Hospital B resulted in no new cases of P. aeruginosa bacteremia during the next 5 years.
CONCLUSIONS
The use of molecular fingerprinting of isolates of P. aeruginosa allowed for a prompt and directed infection control plan to be implemented in Hospitals A and B. It also allowed the NICU in Hospital A to continue to accept referrals from other hospitals and to implement a targeted infection control plan for patients transferred from Hospital B.
背景
铜绿假单胞菌血流感染在新生儿重症监护病房(NICU)中已有详细描述,并导致一些新生儿病房暂时停止接收新入院患儿。通过对分离菌株的指纹分析已证实这些感染的医院内传播。我们利用分子指纹技术确定一家NICU中血流感染的源头,并利用这些信息实施感染控制措施,使新生儿病房得以继续开放并接收转诊患儿。
方法
1998年6月,3名从医院B和C转至我院(医院A)的早产儿发生了铜绿假单胞菌血流感染。随后,另一名从医院B转来的新生儿被铜绿假单胞菌定植。对这4株分离菌株进行了多态性脱氧核糖核酸(RAPD)随机扩增。对所有从医院B转来的患儿进行培养,并在医院A和B开展监测项目。对所有转来的患儿实施针对性感染控制措施。
结果
通过RAPD分析,这4株分离菌株为同一克隆。对医院A的环境调查未发现该病菌的任何源头。对医院A的49名新生儿进行监测培养,仅发现1例患儿在气管内导管处定植。该患儿也是从医院B转来的。医院B的结果显示,40名新生儿中有4名(10%)被定植。所有分离菌株均与发生血流感染的新生儿的血流分离菌株为同一克隆。对所有从医院B转来的婴儿采取的感染控制措施使接下来的5年里未出现新的铜绿假单胞菌血症病例。
结论
对铜绿假单胞菌分离菌株进行分子指纹分析使得医院A和B能够迅速实施针对性的感染控制计划。这也使医院A的NICU能够继续接收其他医院的转诊患儿,并对从医院B转来的患者实施针对性感染控制计划。
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