Zusammenfassung
Durch Fortschritte in der Technik ist es möglich, miniaturisierte Langzeitunterstützungssysteme zu entwickeln. Diese kleineren Pumpen können häufig in einer minimal-invasiven Operation ohne Einsatz der Herz-Lungen-Maschine und unter Vermeidung einer medianen Sternotomie implantiert werden. Dieser Artikel gibt mittels einer Studienanalyse einen Überblick über die aktuell vorhandenen und ggf. in Zukunft erhältlichen minimal-invasiv implantierbaren Linksherzunterstützungssysteme.
Abstract
Due to advances in engineering and device technology, it is possible to miniaturize long-term cardiac support devices. These smaller pumps can often be implanted during minimally invasive surgery without using a heart-lung machine and avoiding a median sternotomy. This article gives an overview of the minimally invasive implantable left ventricular assist devices that are currently available in studies or will be available in the future.
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Literatur
Rogers JG et al (2010) Continuous flow left ventricular assist device improves functional capacity and quality of life of advanced heart failure patients. J Am Coll Cardiol 55(17):1826–1834
Rogers JG et al (2011) Cost-effectiveness analysis of continuous flow left ventricular assist devices as destination therapy. Circ Heart Fail 5(1):10–16
Rose EA et al (2001) Long-term use of a left ventricular assist device for end-stage heart failure. N Engl J Med 345(20):1435–1443
Adamson RM et al (2011) Clinical strategies and outcomes in advanced heart failure patients older than 70 years of age receiving the HeartMate II left ventricular assist device: a community hospital experience. J Am Coll Cardiol 57(25):2487–2495
Park SJ et al (2012) Outcomes in advanced heart failure patients with left ventricular assist devices for destination therapy. Circ Heart Fail 5(2):241–248
Anyanwu AC (2011) Technique for less invasive implantation of Heartmate II left ventricular assist device without median sternotomy. Semin Thorac Cardiovasc Surg 23(3):241–244
Schmitto JD et al (2011) Implantation of a centrifugal pump as a left ventricular assist device through a novel, minimized approach: upper hemisternotomy combined with anterolateral thoracotomy. J Thorac Cardiovasc Surg 143(2)511–513
Selzman CH, Sheridan BC (2007) Off-pump insertion of continuous flow left ventricular assist devices. J Card Surg 22(4):320–322
Maybaum S et al (2002) Partial loading of the left ventricle during mechanical assist device support is associated with improved myocardial function, blood flow and metabolism and increased exercise capacity. J Heart Lung Transplant 21(4):446–454
Morley D et al (2007) Hemodynamic effects of partial ventricular support in chronic heart failure: results of simulation validated with in vivo data. J Thorac Cardiovasc Surg 133(1):21–28
Meyns B et al (2008) First human use of partial left ventricular heart support with the Circulite synergy micro-pump as a bridge to cardiac transplantation. Eur Heart J 29(20):2582
Meyns B et al (2009) Proof of concept: hemodynamic response to long-term partial ventricular support with the synergy pocket micro-pump. J Am Coll Cardiol 54(1):79–86
Meyns BP et al (2011) Clinical benefits of partial circulatory support in New York Heart Association Class IIIB and Early Class IV patients. Eur J Cardiothorac Surg 39(5):693–698
Klotz S et al (2010) Partial mechanical long-term support with the CircuLite Synergy pump as bridge-to-transplant in congestive heart failure. Thorac Cardiovasc Surg 58(Suppl 2):173–178
Sales VL, McCarthy PM (2010) Understanding the C-pulse device and its potential to treat heart failure. Curr Heart Fail Rep 7(1):27–34
Hayward CS et al (2010) Chronic extra-aortic balloon counterpulsation: first-in-human pilot study in end-stage heart failure. J Heart Lung Transplant 29(12):1427–1432
Bartoli CR et al (2010) A novel subcutaneous counterpulsation device: acute hemodynamic efficacy during pharmacologically induced hypertension, hypotension, and heart failure. Artif Organs 34(7):537–545
Flint KM et al (2012) Frailty and the selection of patients for destination therapy left ventricular assist device. Circ Heart Fail 5(2):286–293
Legget ME et al (2005) Extra-aortic balloon counterpulsation: an intraoperative feasibility study. Circulation 112(Suppl 9):126–131
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Klotz, S. Mechanische kardiale Langzeitunterstützungssysteme mit minimal-invasiver Operationstechnik. Z Herz- Thorax- Gefäßchir 26, 245–252 (2012). https://doi.org/10.1007/s00398-012-0936-4
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DOI: https://doi.org/10.1007/s00398-012-0936-4
Schlüsselwörter
- Kardiales Unterstützungssystem
- Linksventrikulär
- Minimal-invasive Operationstechnik
- Partielle Herzunterstützung
- Überprüfung