Authors: Tayama, Eiki¹; Ohashi, Yukihiko¹; Niimi, Yoshinari¹; Takami, Yoshiyuki¹; Ohtsuka, Goro¹; Nakata, Kin-ichi¹; Benkowski, Robert¹; Glueck, Julia A.¹; Nosé, Yukihiko¹

Source: Artificial Organs, Volume 22, Number 4, April 1998 , pp. 342-345(4)

Publisher: Blackwell Publishing

Abstract:

The significant amount of regurgitation produced by a stopped rotary blood pump is one of the major considerations for its use as an implantable left ventricular assist device (LVAD), especially if the pump accidentally stops. The installation of a valve is an option for the solution of this potential problem. However, this option may lead to thrombogenic problems, particularly if the valve motion is restricted. This in vitro study analyzes the valve performance and assesses the credibility of a rotary blood pump valve. A pulsatile pump was used as the natural heart and a centrifugal pump as the LVAD. The valve was positioned into the LVAD outflow. In the low speed range (<1,000 rpm in this test condition), normal valve motion was maintained. Also, the valve model provided a higher mean bypass flow than the model without a valve due to reduced regurgitation. However, the valve motion was drastically restricted when in the high speed range (>1,600 rpm in this condition). The pulsatile mode was applied to the LVAD by periodically changing the impeller speed (40 bpm); subsequently, a constant valve motion could be provided. A possibility exists that this pulsatile mode application could eliminate thrombosis formation around the valve. A conclusion was made that the combination of a valve and an LVAD in a pulsatile mode is considered to be a unique safety system for a rotary blood pump.

Keywords: Rotary blood pump; Left ventricular assist device; Safety system; Valve; Pulsatile; mode

Document Type: Original article

DOI: 10.1046/j.1525-1594.1998.05068.x

Affiliations: 1: Department of Surgery, Baylor College of Medicine, Houston, Texas, U.S.A.

Share this item with others: These icons link to social bookmarking sites where readers can share and discover new web pages.

• Website © 2009 Ingenta. Article copyright remains with the publisher, society or author(s) as specified within the article.
• Terms and Conditions
• Privacy Policy
• Information for advertisers

Click here for Page Help

Browse

Search

Electronic content Journal or book title

 

• Search history

Shopping cart

Tools

• Print
• Article access options
• Export
  • EndNote
  • BibT_EX
• Linking
  • IngentaConnect
  • OpenURL
  • DOI
• Alerting Options
  • Receive New Issue Alert
  • Latest TOC RSS Feed
  • Recent Issues RSS Feed
• Bookmark
  • Marked List
  • Add to Marked List
  • Social Bookmarking Links

Sign in

Text size: A | A | A | A