Mechanical failure of the Bjork-Shiley valve. Incidence, clinical presentation, and management

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Mechanical failure of the Bjork-Shiley valve. Incidence, clinical presentation, and management

D Lindblom, VO Bjork and BK Semb

The experience after implantation of 3,334 Bjork-Shiley valves over a 15 year period is described. With a 99.2% follow-up (covering 17,511 patient-years, mean follow-up time 6.3 years) and an autopsy rate of 75% among all fatalities, altogether 19 cases of mechanical failure were documented. There were no mechanical failures among the standard Delrin Bjork-Shiley valve (n = 271), the aortic standard Pyrolyte Bjork- Shiley (n = 739), or the Monostrut Bjork-Shiley valve (n = 377). One of the mitral standard Pyrolyte valves (n = 430) fractured. Among the 1,461 convexo-concave valves, 18 fractured (6/884 with an opening angle of 60 degrees and 12/577 with an opening angle of 70 degrees). The actuarial incidence of mechanical failure at 5 years was 0.6% (with an upper 95% confidence limit of 1.2%) for the 60 degree convexo-concave valve and 2.8% (upper 95% confidence limit of 4.4%) for the 70 degree convexo-concave valve (p less than 0.01). Two groups of valves were especially affected by this complication; the 23 mm aortic 60 degree convexo-concave valve (5 year actuarial incidence 2.2%, upper 95% confidence limit 4.7%) and the 29 to 31 mm mitral 70 degree convexo- concave valve (8.3%, upper 95% confidence limit 14.2%). The hazard function presently indicates a constant (60 degree convexo-concave) or decreasing (70 degree convexo-concave) tendency for mechanical failure. The time interval between the first symptom of mechanical failure and circulatory collapse was significantly (p less than 0.01) shorter after aortic failure than after mitral failure, and no patient with a fractured aortic prosthesis survived long enough to undergo reoperation. The incidence of mechanical failure among patients dying suddenly (but with an autopsy) was 9.6% (95% confidence limits 4.9%- 16.6%), and most cases of sudden death were unrelated to the prosthesis. The management of patients with suspected mechanical failure is described. Prophylactic re-replacements are discussed but cannot be generally recommended at present.

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				R. Z. Omar, L. S. Morton, S. Murad, and K. M. Taylor Use of flexibility tests in the manufacturing process of 60{degrees} bjork-shiley convexo-concave valves and the risk of outlet strut fracture J. Thorac. Cardiovasc. Surg., September 1, 2003; 126(3): 832 - 836. [Abstract] [Full Text] [PDF]

				L Morton, S Murad, R Z Omar, and K Taylor Importance of emergency identification schemes Emerg. Med. J., November 1, 2002; 19(6): 584 - 586. [Abstract] [Full Text] [PDF]

				R Z Omar, L S Morton, D A Halliday, E M Danns, M T Beirne, W J Blot, and K M Taylor Outlet strut fracture of Bjork-Shiley convexo concave heart valves: the UK cohort study Heart, July 1, 2001; 86(1): 57 - 62. [Abstract] [Full Text] [PDF]

				R. Z. Omar, L. S. Morton, M. Beirne, W. J. Blot, P. V. Lawford, R. Hose, and K. M. Taylor Outlet strut fracture of Bjork-Shiley convexo-concave valves: Can valve-manufacturing characteristics explain the risk? J. Thorac. Cardiovasc. Surg., June 1, 2001; 121(6): 1143 - 1149. [Abstract] [Full Text] [PDF]

				O. Lund, S. L. Nielsen, H. Arildsen, L. B. Ilkjaer, and H. K. Pilegaard Standard aortic St. Jude valve at 18 years: performance profile and determinants of outcome Ann. Thorac. Surg., May 1, 2000; 69(5): 1459 - 1465. [Abstract] [Full Text] [PDF]

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				M. Kallewaard, A. Algra, J. Defauw, Y. v. d. Graaf, and for the Bjork-Shiley Study Group WHICH MANUFACTURING CHARACTERISTICS ARE PREDICTORS OF OUTLET STRUT FRACTURE IN LARGE SIXTY-DEGREE BJ�RK-SHILEY CONVEXO-CONCAVE MITRAL VALVES? J. Thorac. Cardiovasc. Surg., April 1, 1999; 117(4): 766 - 775. [Abstract] [Full Text] [PDF]

				W. Vongpatanasin, L. D. Hillis, and R. A. Lange Prosthetic Heart Valves N. Engl. J. Med., August 8, 1996; 335(6): 407 - 416. [Full Text] [PDF]

				A. M. Walker, D. P. Funch, S. I. Sulsky, and N. A. Dreyer Patient Factors Associated With Strut Fracture in Bjork-Shiley 60� Convexo-Concave Heart Valves Circulation, December 1, 1995; 92(11): 3235 - 3239. [Abstract] [Full Text]

				D. Lindblom Valve thrombosis and strut fracture with the Bjork-Shiley valve J. Thorac. Cardiovasc. Surg., July 1, 1994; 108(1): 177 - 178. [Full Text]

				M.H. De Maeyer, R.E. Ranquin, P.A. Van Den Heuvel, F.L. Van Den Branden, H.A. D'Heer, Ph.A. Van Cauwelaert, and G.A. Parizel Diagnosis and Management of Acute Prosthetic Valve Disc Dislodgement: Case Reports Vascular and Endovascular Surgery, January 1, 1990; 24(1): 49 - 53. [Abstract] [PDF]

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Mechanical failure of the Bjork-Shiley valve. Incidence, clinical presentation, and management