Successful Salvage of Central Venous Catheters in Patients with Catheter-Related or Central Line-Associated Bloodstream Infections by Using a Catheter Lock Solution Consisting of Minocycline, EDTA, and 25% Ethanol

Raad, Issam; Chaftari, Anne-Marie; Zakhour, Ramia; Jordan, Mary Ann; Hamal, Zanaib Al; Jiang, Ying; Yousif, Ammar; Garoge, Kumait; Mulanovich, Victor E.; Viola, George M.; Kanj, Souha S.; Pravinkumar, Egbert; Rosenblatt, Joel; Hachem, Ray

doi:10.1128/aac.02565-15

Cited by 41 publications

(31 citation statements)

References 38 publications

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“…Given the devastating consequences if a biofilm infection persists, surgeons are undertaking earlier and more aggressive treatment, including revisiting ‘old’ last-resort antibiotics such as colistin 10 . Another established approach used for intravenous catheter-related infections is lock therapy 11 . Following a decision to treat rather than remove certain types of catheters, the potential to leave biofilms intact (but containing dead cells) includes the potential to promote colonization by other microorganisms.…”

Section: Current Therapeutic Approachesmentioning

confidence: 99%

Targeting microbial biofilms: current and prospective therapeutic strategies

et al. 2017

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Biofilm formation is a key virulence factor for a wide range of microorganisms that cause chronic infections. The multifactorial nature of biofilm development and drug tolerance imposes great challenges for the use of conventional antimicrobials, and indicates the need for multi-targeted or combinatorial therapies. In this review, we focus on current therapeutic strategies and those that are under development that target vital structural and functional traits of microbial biofilms and drug tolerance mechanisms, including the extracellular matrix and dormant cells. We emphasize strategies that are supported by in vivo or ex vivo studies, highlight emerging biofilm-targeting technologies, and provide a rationale for multi-targeted therapies that are aimed at disrupting the complex biofilm microenvironment.

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Section: Current Therapeutic Approachesmentioning

confidence: 99%

Targeting microbial biofilms: current and prospective therapeutic strategies

et al. 2017

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“…The in vitro biofilm eradication model highly correlated with clinical microbiological eradication from catheter cultures obtained from CLABSI patients that had their catheters locked for 2 h daily with a minocycline-EDTA-ethanol lock solution (13). We reported the efficacy of 0.01% glyceryl trinitrate (GTN; nitroglyc-erin)-7% citrate-20% ethanol as a potential ACLS.…”

mentioning

confidence: 96%

In Vitro Assessment of the Antimicrobial Efficacy of Optimized Nitroglycerin-Citrate-Ethanol as a Nonantibiotic, Antimicrobial Catheter Lock Solution for Prevention of Central Line-Associated Bloodstream Infections

Reitzel

Rosenblatt

Hirsh-Ginsberg

et al. 2016

Antimicrob Agents Chemother

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cThe rapid, broad-spectrum, biofilm-eradicating activity of the combination of 0.01% nitroglycerin, 7% citrate, and 20% ethanol and its potential as a nonantibiotic, antimicrobial catheter lock solution (ACLS) were previously reported. Here, a nitroglycerincitrate-ethanol (NiCE) ACLS optimized for clinical assessment was developed by reducing the nitroglycerin and citrate concentrations and increasing the ethanol concentration. Biofilm-eradicating activity was sustained when the ethanol concentration was increased from 20 to 22% which fully compensated for reducing the citrate concentration from 7% to 4% as well as the nitroglycerin concentration from 0.01% to 0.0015% or 0. C entral line-associated bloodstream infections (CLABSIs) pose a significant public health problem in the United States. More than 7 million patients require central venous access each year, resulting in an estimated 250,000 CLABSIs, approximately 30,000 attributable deaths (1), and substantial treatment costs of at least $45,000 per infection (2). The majority of CLABSIs occur in chronically catheterized patients, such as cancer, hemodialysis, or critical care patients. Long-term catheters, such as central venous catheters (CVCs), peripherally inserted central catheters (PICCs), ports, and dialysis catheters, are susceptible to internal colonization of the catheter lumens due to repeated catheter manipulation and infusions. Biofilm formation on the catheter surfaces can serve as the primary source of CLABSI and can be highly resistant to eradication by systemic antibiotic therapy. Several bundled measures have been proposed for both treatment and prevention of CLABSIs, most of which center around reducing and preventing colonization at the skin insertion site or at connections (3). While bundles have been shown to decrease the risk of CLABSI in short-term CVCs (Ͻ30 days of dwell time), approximately 90% of CLABSIs in longer-term catheters are luminally sourced (4, 5). While antimicrobial coatings exist that do cover luminal surfaces, the duration of protection is limited to only a few weeks (6). Because disinfecting antimicrobial catheter lock solutions (ACLSs) can be repetitively instilled, they have emerged as another approach to prevent luminally sourced CLABSIs.Antimicrobial lock therapy solutions for preventing CLABSI have been reported to include prophylactic applications of antibiotics, antifungals, or antiseptics such as ethanol (EtOH) (7,8). The development of microbial resistance is of great concern with prophylactic antibiotic ACLSs (9). Alternatively, high-concentration antiseptic ethanol ACLSs have been studied. An ACLS consisting of 70% ethanol was not effective in decreasing intraluminal CLABSI and was associated with adverse events such as dizziness (10). Ethanol ACLSs with concentrations of greater than 30% have also been associated with clotting, transient dizziness, and compromising catheter integrity in polyurethane catheters (11). Use of ethanol locks with ethanol concentrations greater than 28% has been further advised ...

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“…Because there is no RCT to compare the effect of EDTA in preventing CRT. Moreover, a major concern related to CLSs is the increasing need for thrombolytic interventions to maintain catheter patency (Sofroniadou et al, 2017;Raad et al, 2016). So, there should be more research on CRT in the future.…”

Section: Discussionmentioning

confidence: 99%

“…A limitation of this study is that seven of the studies included (Raad et al, 2016;Moghaddas et al, 2015;Dümichen et al, 2012;Boersma et al, 2015;Souweine et al, 2015;Goossens et al, 2013;Wouters et al, 2018) were deemed to have a high overall risk of bias (13.5%). In three of these (Raad et al, 2016;Dümichen et al, 2012;Souweine et al, 2015), this was due to the high risk of bias resulting from the failure to blind participants or outcome assessment, and in another three (Boersma et al, 2015;Goossens et al, 2013;Wouters et al, 2018), it was due to the attrition rate, which was greater than 5% of the total sample size. In the remaining study, the risk was high because the random method used the first letter of the name (Moghaddas et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

Comparative efficacy of various antimicrobial lock solutions for preventing catheter-related bloodstream infections: A network meta-analysis of 9099 patients from 52 randomized controlled trials

Dang

Rui-juan

et al. 2019

International Journal of Infectious Diseases

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Objectives: It remains uncertain which catheter lock solution (CLS) to prevent catheter-related bloodstream infections (CRBSI) works best and is safest for patients. This study was performed to compare the efficacy of different CLSs for the prevention of CRBSI and ranked these CLSs for practical consideration. Methods: The PubMed, Web of Science, Embase, and MEDLINE databases, earlier relevant meta-analyses, and the reference lists of included studies were searched. The primary outcome was CRBSI; secondary outcomes were catheter-related thrombosis and exit-site infections. A network meta-analysis was performed to estimate odds ratios (ORs) with 95% confidence intervals (CIs). Results: A total of 52 randomized controlled trials involving 9099 patients and evaluating 13 CLSs (single and combinations) were included. With regard to the quality of the evidence, the risk of bias was typically low or unclear (45 out of 52 trials, 86.5%). In the network meta-analysis, saline (OR 8.44, 95% CI 2.19-32.46), gentamicin + citrate (OR 2.92, 95% CI 1.32-6.42), ethanol (OR 5.33, 95% CI 1.22-23.32), and cloxacillin + heparin (OR 2.07, 95% CI 1.19-5.49) were associated with a greater effect on CRBSI than heparin. Conclusions: This network meta-analysis showed that minocycline-ethylenediaminetetraacetic acid (EDTA) seemed to be the most effective for the prevention of CRBSI and exit-site infection, and cefotaxime + heparin seemed to be the most effective for catheter-related thrombosis.

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Successful Salvage of Central Venous Catheters in Patients with Catheter-Related or Central Line-Associated Bloodstream Infections by Using a Catheter Lock Solution Consisting of Minocycline, EDTA, and 25% Ethanol

Cited by 41 publications

References 38 publications

Targeting microbial biofilms: current and prospective therapeutic strategies

Targeting microbial biofilms: current and prospective therapeutic strategies

In Vitro Assessment of the Antimicrobial Efficacy of Optimized Nitroglycerin-Citrate-Ethanol as a Nonantibiotic, Antimicrobial Catheter Lock Solution for Prevention of Central Line-Associated Bloodstream Infections

Comparative efficacy of various antimicrobial lock solutions for preventing catheter-related bloodstream infections: A network meta-analysis of 9099 patients from 52 randomized controlled trials

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