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J Thorac Cardiovasc Surg 1999;117:1222-1223
© 1999 Mosby, Inc.

BRIEF COMMUNICATIONS

NO-REACT* ANTICALCIFICATION TISSUE TREATMENT RESULTS WITH STENTLESS HEART VALVES IN TWO ADOLESCENTS

From the Departments of Cardiac Surgery^a and Pediatric ^b and Adult Cardiology,^c and Rambam Medical Center, Haifa, Faculty of Medicine, Technion, Israel Institute of Technology, Haifa, Israel.

*No-React is a trademark of Shelhigh Inc, Millburn, NJ.

Received for publication Oct 5, 1998. Accepted for publication Dec 15, 1998. Address for reprints: Simcha Milo, MD, Department of Cardiac Surgery, Rambam Medical Center, Haifa 31096, Israel.

Implantation of prosthetic heart valves in children is challenging. Calcification may lead to mechanical failure. ¹ The No-React formula, (Shelhigh Inc, Millburn, NJ), a new tissue preservation process applied to a wide range of bioprosthetic products, involves treating the tissue with glutaraldehyde, which is rinsed out, and then impregnating it with heparin and surfactant. This process supposedly prevents mineral deposition within the implants.

The No-React process was shown to have anticalcification properties in a subcutaneous implantation model of treated tissues in rats. ² We therefore began in 1994 a clinical study at the Rambam Medical Center in Haifa, Israel, on the use of No-React products. We report here our experience with 2 children in whom porcine BioCor heart valves (BioCor, Belohorizonte, Brazil) treated with No-React were implanted.

Clinical summaries

PATIENT 1. A 13-year-old girl with a long history of rheumatic heart disease and a recent history of suspected bacterial endocarditis was admitted to our institution on December 10, 1994, with congestive heart failure. Echocardiograms showed vegetations on and gross incompetence of the mitral and aortic valves.

On December 27, 1994, we replaced the mitral and aortic valves with 2 porcine stentless valves treated with No-React. Results of blood and tissue culture were negative. The patient's clinical condition improved. Reduction in the size of the left ventricle caused a slight prolapse of the anterior mitral leaflet and a mild degree of mitral incompetence. She was readmitted on May 14, 1997, with severe congestive heart failure, atrial fibrillation, and severe mitral and aortic regurgitation. We replaced both valves with mechanical bileaflet prostheses. The explanted mitral valve, which was calcified and immobile, had almost fixed leaflets and 1 of the chordae tendineae was torn (Fig 1). The stentless aortic valve had 1 torn cusp and mild calcification. The No-React pericardial patch that had been used to enlarge the aortic root was severely adherent on both sides to the surrounding structures. The patient was discharged on the ninth day after the operation.

View larger version (118K): [in this window] [in a new window]   Fig. 1 Heavily calcified explanted stentless BioCor mitral bioprosthesis treated with No-React as viewed from (A) left atrial side and (B) left ventricular side. Note thickening and rupture of chordae tendineae.

Discussion

In our study the time from implantation to explantation of the 2 stentless porcine mitral valves treated with No-React and the 1 stentless aortic valve ranged between 26 and 29 months, similar to the duration reported for glutaraldehyde-preserved bioprostheses used in children. ³

The finding of native valve endocarditis in both our patients raises the question of whether implantation of any bioprosthesis in an infected, inflamed area might enhance biodegradation. We found that the explanted stentless mitral valves were significantly more calcified and immobile than were the aortic valves. In the first patient the torn cusp, which indicates biodegradation, ⁴ was the indication for replacement rather than calcification. The uncalcified aortic valve in the second patient was not replaced. Whether the difference in the rate of calcification between the mitral and aortic No-React bioprostheses is selective or dependent on design remains unclear. The tissue overgrowth on the chordae tendineae was similar to that seen in prosthetic chordal replacement with polytetrafluoroethylene* or in other bioprostheses preserved in glutaraldehyde after failure. Both sides of the No-React pericardial patch used to enlarge the aortic root had massive adhesions.

We based our study on studies in the juvenile rat model. ² Because of our poor outcome we question the validity of the rat model for predicting calcification in children. In a recent comparative study Shen and associates ⁵ reported that the rabbit subcutaneous model was a better predictor of clinical outcome with respect to calcification than was the rat model. Our findings raise questions regarding the anticalcification properties of the No-React process, especially in adolescents.

Acknowledgments

We thank Rebecca Bartow, PhD, for editorial consultation and our dedicated laboratory technician, Mr Alexander Chikovaney, for preparing the explanted material for this publication.

Footnotes

* Gore-Tex patch; Gore-Tex is a registered trademark of W. L. Gore & Associates, Inc., Flagstaff, Ariz.

References

1. Schoen FJ. Approach to the analysis of cardiac valve prostheses as surgical pathology or autopsy specimens. Cardiovasc Pathol 1995;4:241-55.
   
2. Abolhoda A, Yu S, Oyarzun R, et al. No-React detoxification process: a superior anticalcification method for bioprostheses. Ann Thorac Surg 1996;62:1724-30.[Abstract/Free Full Text]
   
3. Antunes MJ, Santos LP. Performance of glutaraldehyde-preserved porcine bioprosthesis as a mitral valve substitute in young population group. Ann Thorac Surg 1984;37:387-92.[Abstract]
   
4. Bodnar E, Wain WH, Heberman S. Assessment and comparison of the performance of cardiac valves. Ann Thorac Surg 1982;34:146-56. [Abstract]
   
5. Shen SH, Quintero LJ, Loher J, et al. Evaluation of in vivo models for studying calcification behavior of commercially available bovine pericardium [abstract]. Use of pericardium in cardiac surgery, the Royal Society of Medicine; 1997 Oct; London.
   

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