2014
DOI: 10.1007/s10544-014-9839-3
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Smart central venous port for early detection of bacterial biofilm related infections

Abstract: Central venous catheters (CVC) are commonly used in clinical practice to improve a patient's quality of life. Unfortunately, there is an intrinsic risk of acquiring an infection related to microbial biofilm formation inside the catheter lumen. It has been estimated that 80 % of all human bacterial infections are biofilm-associated. Additionally, 50 % of all nosocomial infections are associated with indwelling devices. Bloodstream infections account for 30-40 % of all cases of severe sepsis and septic shock, an… Show more

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Cited by 24 publications
(24 citation statements)
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“…Current prevention methods which include modifications of the inner surface by antithrombotics and antibacterial agents [2], [7], [15]- [18] are so far not sufficiently effective [1]. Only recently [19] the use of the electrochemical impedance spectroscopy has led to the development of a biosensor which can monitor the formation of a biofilm layer at the port of a venous catheter, located just under the skin. The catheter with a port similar to a tunneled catheter left entirely under the skin helps to prevent the infection which is often observed in catheters described by the authors of this study.…”
Section: Introductionmentioning
confidence: 99%
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“…Current prevention methods which include modifications of the inner surface by antithrombotics and antibacterial agents [2], [7], [15]- [18] are so far not sufficiently effective [1]. Only recently [19] the use of the electrochemical impedance spectroscopy has led to the development of a biosensor which can monitor the formation of a biofilm layer at the port of a venous catheter, located just under the skin. The catheter with a port similar to a tunneled catheter left entirely under the skin helps to prevent the infection which is often observed in catheters described by the authors of this study.…”
Section: Introductionmentioning
confidence: 99%
“…The fibrin sheath formed mainly by proteins on the surface of the catheter within 24 hours of its insertion into the patient's circulation promotes the subsequent adhesion of pathogens [1]. However, numerous scientists [19], [22]- [25] used bacterial cultures (neglecting the influence of the proteins) for providing a characterization of biofilm growth, e.g. Paredes et al used S. epidermidis [19], [22] and S. aureus [23], Ben-Yoav et al used E. coli [24], and Taeyoung et al used Pseudomonas aeruginosa [25].…”
Section: Introductionmentioning
confidence: 99%
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“…Biofilm-related infections develop on mucosal surfaces and include lung infections of Cystic Fibrosis (CF) patients, chronic obstructive pulmonary diseases, otitis media, sinusitis, and chronic wound infections (10)(11)(12)(13)(14). Biofilms also commonly develop on the surfaces of medical implant devices including catheters, prosthesis, pacemakers, and intrauterine devices, to name a few, and are responsible for 50% of nosocomial infections that occur when patients have indwelling medical devices (15). Medical implants or devices such as an indwelling catheter or a respiratory apparatus are particularly susceptible to biofilm formation because the host immune response is reduced in areas of the body in contact with foreign devices (16).…”
Section: Introductionmentioning
confidence: 99%