Jump to ContentJump to Main Navigation

Online

99,00 € / $149.00*

* Prices subject to change. Shipping costs will be added if applicable.
Publication Date:
March 2011
ISSN:
1862-278X
DOI:
10.1515/bmt.2011.006

See all formats and pricing

Online
Individual Subscription Online only
Euro [D] 99.00
RRP for USA, Canada, Mexico
US$ 149.00 *
Print
Individual Subscription Online only
Euro [D] 506.00
RRP for USA, Canada, Mexico
US$ 759.00 *
Print + Online
Individual Subscription Online only
Euro [D] 608.00
RRP for USA, Canada, Mexico
US$ 911.00 *
*Prices subject to change. Shipping costs will be added if applicable.

Biomedical Engineering / Biomedizinische Technik

Editor-in-Chief: Dössel, Olaf

Editorial Board Member: Augat, Peter / Bösiger, Peter / Gehring, Hartmut / Haueisen, Jens / Leonhardt, Steffen / Niederlag, Wolfgang / Radermacher, Klaus M. / Schmitz, Georg / Witte, Herbert / Boenick, Ulrich / Lenthe, Harry / Penzel, Thomas / Clasbrummel, Bernhard / Robitzki, Andrea A. / Scholz, Jörg / Snedeker, Jess G. / Wintermantel, Erich / Jockenhoevel, Stefan / Gilly, Hermann / Werner, Jürgen / Plank, Gernot / Stieglitz, Thomas

6 Issues per year

Increased IMPACT FACTOR 2011: 0.855
5-year IMPACT FACTOR: 0.745
Rank 56 out of 72 in category Biomedical Engineering and rank 20 out of 23 in category Medical Informatics in the 2011 Thomson Reuters Journal Citation Report/Science Edition

VolumeIssuePage

Issues

Ahead of print >

Volume 58 (2013)

Volume 57 (2012)

Volume 56 (2011)

Volume 55 (2010)

Volume 54 (2009)

Volume 53 (2008)

Volume 52 (2007)

Volume 51 (2006)

Volume 50 (2005)

Volume 49 (2004)

Volume 48 (2003)

Volume 47 (2002)

Volume 46 (2001)

Volume 45 (2000)

Volume 44 (1999)

Volume 43 (1998)

Volume 42 (1997)

Volume 41 (1996)

Volume 40 (1995)

Volume 39 (1994)

Volume 38 (1993)

Volume 37 (1992)

Volume 36 (1991)

Volume 35 (1990)

Volume 34 (1989)

Volume 33 (1988)

Volume 32 (1987)

Volume 31 (1986)

Volume 30 (1985)

Volume 29 (1984)

Volume 28 (1983)

Volume 27 (1982)

Volume 26 (1981)

Volume 25 (1980)

Volume 24 (1979)

Volume 23 (1978)

Volume 22 (1977)

Volume 21 (1976)

Volume 20 (1975)

Volume 19 (1974)

Volume 18 (1973)

Volume 17 (1972)

Volume 16 (1971)

Volume 15 (1970)

Volume 14 (1969)

Volume 13 (1968)

Volume 12 (1967)

Volume 11 (1966)

Volume 10 (1965)

Volume 9 (1964)

Volume 8 (1963)

Volume 7 (1962)

Volume 6 (1961)

Volume 5 (1960)

Volume 4 (1959)

Volume 3 (1958)

Volume 2 (1957)

Volume 1 (1956)

Most Downloaded Articles

  1. Table of contents / Inhaltsverzeichnis
  2. UWB microwave imaging of heterogeneous breast phantoms by Helbig, M./ Dahlke, K./ Hilger, I./ Kmec, M. and Sachs, J.
  3. Is the MS Kinect suitable for motion analysis? by Weber, Immanuel/ Koch, Johannes/ Meskemper, Joshua/ Friedl, Kim/ Heinrich, Kai and Hartmann, Ulrich
  4. The effect of different guide wires on the trackability of coronary stent delivery systems by Brandt, C./ Schmidt, W./ Behrens, P. and Schmitz, K.-P.
  5. Service Oriented Architecture Based Web Application Model for Collaborative Biomedical Signal Analysis by Mahmud, Mufti/ Rahman, M. Mostafizur/ Travalin, Davide/ Raif, Pawel and Hussain, Amir

30,00 € / $42.00*

30,00 € / $42.00

Get Access to Full Text
(PDF, 370 KB)

Experimental analysis of tensile force of individualized stents for microvascular anastomoses

1 / Katrin Schütz1 / Florian Bauer1 / Klaus-Dietrich Wolff1 / Tibor Schuster2 / René Opitz3 / Erich Wintermantel3 / Stefan Pfeifer3

1Department of Oral and Maxillofacial Surgery, Technische Universität München, München, Germany

2Institute for Medical Statistics and Epidemiology (IMSE), Technische Universität Müchen, München, Germany

3Department of Mechanical Engineering, Technische Universität München, München, Germany

Corresponding author: Dr. Denys John Loeffelbein, Department of Oral and Maxillofacial Surgery, Technische Universität München, Ismaninger Str. 22, D-81675 München, Germany Phone: +49-89-4140-2929 Fax: +49-89-4140-4993

Citation Information: Biomedizinische Technik/Biomedical Engineering. Volume 56, Issue 2, Pages 107–113, ISSN (Online) 1862-278X, ISSN (Print) 0013-5585, DOI: 10.1515/bmt.2011.006, March 2011

Publication History:
Received:
2010-09-15
Accepted:
2011-02-16
Published Online:
2011-03-03

Abstract

The aim of this project was to investigate the fundamental idea of the possibility of anastomosing small blood vessels in microvascular transplant procedures by an individualized stent known from coronary angioplasty. We investigated the influence of length, dilation and differences in fabrication of the newly developed balloon-expandable stent on the tensile force of stented anastomoses. Various gripping devices were tested and validated to investigate how the length, dilatation and differences in fabrication of the newly developed stent influence the tensile force of the stented anastomosis. Overall, 66 arteries of thiel-fixed human cadavers were investigated, divided into 11 groups. The median tensile force in sutured anastomoses was 2.96 N. The stented anastomoses with 24 mm stents and Ø 3.5 mm dilation attained approximately two-thirds of Fmax-values compared with conventional sutured anastomoses. If the stent was less dilated or had a shorter length, the maximum tensile force of the anastomosis was lower. Recent developments with an inversely oriented stent structure are expected to achieve even higher tensile force values. Further research in stent design to reduce leakage is necessary. A reduction of stent and catheter dimension is also needed to enhance the implantation method.

Keywords: microsurgery; stented anastomoses; tensile force analysis

Comments (0)

Please log in or register to comment.