From the Departments of Anesthesiology and Pathology, Immunology, and Laboratory Medicine, University of Florida College of Medicine, Gainesville, Florida; Deceased.
Anesth Analg. 2014 Feb;118(2):333-343. doi: 10.1213/ANE.0000000000000059.
Contamination of a central venous catheter may occur through use of conventional open-lumen stopcock devices (COLDs), or disinfectable, needleless, closed connectors (DNCCs). We investigated the effectiveness of a new universal IV access cleaning device (Site-Scrub) compared with 70% isopropyl alcohol prep pads for sanitizing COLDs or DNCCs inoculated with common catheter-associated pathogens.
Site-Scrub was compared with 70% alcohol prep pads for sanitizing contaminated female Luer lock COLD or DNCC filled with sterile saline or propofol and 2 common bacterial central venous catheter contaminants (Staphylococcus epidermidis or Pseudomonas aeruginosa). Devices were contaminated using a glove touch (COLD and DNCC) or syringe tip (COLD). The primary end point of the study was colony-forming units (CFU) after 24 hours.
The use of glove touch contamination, the contaminants, S epidermidis and P aeruginosa, produced CFU in saline-filled COLDs treated with the Site-Scrub, but not in those treated with alcohol pads (P < 0.001). Similar results were observed with propofol-filled COLDs (P < 0.001). For DNCCs filled with saline or propofol, both alcohol and Site-Scrub effectively reduced CFU growth compared with contaminated controls (P < 0.001). When COLDs were contaminated by treated syringe tips, there was no significant evidence of reduction in CFU growth by using either alcohol pads or Site-Scrub compared with contaminated controls.
These data suggest that when the inner surface of the COLD is contaminated, both alcohol pads and Site-Scrub were not significantly effective in decontaminating the COLD. When the COLD rim is contaminated, however, alcohol pads outperform Site-Scrub. DNCCs were uniformly decontaminated with either treatment. Future work should focus on better access systems because current COLDs are difficult to decontaminate.
中心静脉导管的污染可能是由于使用传统的开放式内腔开关装置(COLDs)或可消毒的无针密闭连接器(DNCCs)引起的。我们研究了一种新的通用静脉接入清洗装置(Site-Scrub)与 70%异丙醇消毒垫相比,对污染的女性鲁尔锁 COLD 或 DNCC 进行消毒的效果,这些 COLD 或 DNCC 接种了常见的导管相关病原体。
将 Site-Scrub 与 70%酒精消毒垫进行比较,以消毒污染的女性鲁尔锁 COLD 或 DNCC,这些 COLD 或 DNCC 充满无菌生理盐水或丙泊酚,并接种了两种常见的细菌中心静脉导管污染物(表皮葡萄球菌或铜绿假单胞菌)。使用手套触摸(COLD 和 DNCC)或注射器尖端(COLD)进行污染。该研究的主要终点是 24 小时后的菌落形成单位(CFU)。
使用手套触摸污染、污染物表皮葡萄球菌和铜绿假单胞菌,在经 Site-Scrub 处理的充满生理盐水的 COLD 中产生 CFU,但在经酒精垫处理的 COLD 中没有(P<0.001)。在充满丙泊酚的 COLD 中也观察到类似的结果(P<0.001)。对于充满生理盐水或丙泊酚的 DNCC,酒精和 Site-Scrub 均能有效降低 CFU 生长,与污染对照相比差异有统计学意义(P<0.001)。当 COLD 被处理过的注射器尖端污染时,与污染对照相比,使用酒精垫或 Site-Scrub 均未显著减少 CFU 生长。
这些数据表明,当 COLD 的内表面被污染时,酒精垫和 Site-Scrub 都不能有效地对 COLD 进行去污。然而,当 COLD 边缘被污染时,酒精垫的效果优于 Site-Scrub。两种处理方法都能均匀地对 DNCC 进行消毒。未来的工作应集中在更好的接入系统上,因为目前的 COLD 很难进行去污。