Holographic interferometry for In Vitro investigation of bioprosthetic valves

Armin W. Geiger; Alexander M. Zarubin; Marc Hertel; Anke Fahrenkamp; Gert von Bally; Hans H. Scheld

doi:10.1007/BF02043508

International Journal of Angiology, Table of Contents

Int J Angiol 1995; 4(1): 46-50
DOI: 10.1007/BF02043508

Original Articles

Holographic interferometry for In Vitro investigation of bioprosthetic valves

Armin W. Geiger¹ , Alexander M. Zarubin² , Marc Hertel¹ , Anke Fahrenkamp³ , Gert von Bally² , Hans H. Scheld¹

¹Department of Thoracic and Cardiovascular Surgery, University of Muenster, Muenster, Germany
²Institute of Experimental Audiology, Laboratory of Biophysics, University of Muenster, Muenster, Germany
³Institute of Pathology, University of Muenster, Muenster, Germany

Presented at the 35th World Congress, International College of Angiology, Copenhagen, Denmark, July 1993

Abstract

PDF Download

Abstract

Dysfunction of heart valve prostheses—mechanical as well as biological—is a common problem in cardiac surgery. The reasons for the valve failures are still not well understood. Biological valves especially have an unsatisfactory durability; degeneration and calcification very often lead to the failure of the valves. In our opinion, hidden defects present in the valve material prior to implantation of the valves is a plausible explanation for the dysfunction. Hitherto there has been no technique to detect these defects without destructing the specimen. Holographic interferometry proved to be applicable for in vitro evaluation of mechanical heart valve prostheses. In the present paper we describe application of this method to biological valves. Nine porcine bioprostheses and four fresh porcine aortic valves were investigated by means of holographic interferometry. In eight of nine bioprostheses, the results showed irregularities of the leaflet structure which depend on anomalies of the connective tissue of the leaflets of the valves. To make sure that these findings are not due to normal variations of the morphology, the investigations were carried out with fresh and unfixated porcine aortic valves. In the latter, no such anomalies of the structure were detected. The results obtained confirm the above hypothesis on the origin of the later valve dysfunction. Thus, holographic interferometry tests of bioprostheses prior to their implantation prevent the use of potentially dysfunctional valves.

PDF (1070 kb)