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SHR Neuro Cancer Cardio Lipid Metab Microb

Schima, H; Stoiber, M; Schlöglhofer, T; Hartner, Z; Haberl, T; Zimpfer, D.
Repair of left ventricular assist device driveline damage directly at the transcutaneous exit site.
Artif Organs. 2014; 38(5):422-5 Doi: 10.1111/aor.12170 (- Case Report)
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Co-authors Med Uni Graz: Zimpfer Daniel
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Abstract:: With increasing support duration of cardiac assist devices, transcutaneous drivelines remain a weak point of the therapy. First, they can be an entry point for infections, and second, cable lesions and even electrical failures due to material fatigue and eventual carelessness can occur. We report a case of a damaged outer sheath of a ventricular assist device driveline cable directly at the exit site, where the standard repair procedure with self-fusing tape may lead to biocompatibility problems and irritation of the entrance through the skin. Therefore, a new procedure was developed using a special sleeve expander tool and a highly expandable latex tubing to stabilize the defect in a flexible and biocompatible manner. A patient experienced a fracture of the outer sheath of a HeartWare HVAD driveline directly at the skin entrance (approximately 15 mm long, 5 mm distal from the skin). The metal strands and the electrical functionality were yet not affected, therefore, a pump exchange was not indicated. After considering several conventional solutions for repair as not applicable, a new approach was developed: a sleeve expander tool was applied, which allowed radial stretching of the latex tubing. After preparations of the tool and the cable site, the pump was briefly disconnected, the tubing was moved over the connector and was released at the site of fracture. The problem could be solved by keeping the cable's flexibility and without additional risks to the skin. Within a still ongoing (5-month) follow-up, the skin entrance returned to perfect condition and no further intervention was necessary. In conclusion, this method allows a quick stabilization and repair of damaged driveline isolations even near the exit site, resulting in a biocompatible surface and consistent flexibility of the cable.
Find related publications in this database (using NLM MeSH Indexing): Aged - administration & dosage; Heart-Assist Devices - administration & dosage; Hemodynamics - administration & dosage; Humans - administration & dosage; Male - administration & dosage; Prosthesis Design - administration & dosage; Prosthesis Failure - administration & dosage
Find related publications in this database (Keywords): Ventricular assist device; Transcutaneous driveline; Cable repair