Covalent binding of aminopropanehydroxydiphosphonate to glutaraldehyde residues in pericardial bioprosthetic tissue: stability and calcification inhibition studies.

Calcification has limited the clinical utility of bioprosthetic heart valves fabricated from either glutaraldehyde-pretreated bovine pericardium or porcine aortic valves. Aminopropanehydroxydiphosphonate (APDP), covalently bound to residual aldehyde groups in glutaraldehyde-treated pericardial bioprosthetic tissue, has been shown to inhibit cardiovascular calcification in the rat subdermal model. Using 3H-labeled glutaraldehyde (GLUT) at a concentration of 0.02 M and 0.14 M 14C-labeled APDP, we assessed the effects of GLUT incubation temperature (4 degrees or 25 degrees C) and pH of the GLUT incubation solution (pH 4.0, 7.4, or 10.0) on the GLUT incorporation step and subsequent APDP binding (24 hr 25 degrees C) into bioprosthetic valve (BPV) tissue (bovine pericardium). Increased incorporation of GLUT and APDP occurred at lower GLUT incubation temperature (GLUT, 346.05 +/- 1.9 nM/mg, 4 degrees C vs 259.76 +/- 1.39 nM/mg, 25 degrees C; APDP, 57.56 +/- 4.43 nM/mg, 4 degrees C vs 36.36 +/- 0.46 nM/mg, mean +/- standard error, at 25 degrees C). There also was a greater incorporation of GLUT but not APDP at the higher glutaraldehyde pretreatment pH (GLUT, pH 10.0, 213.73 +/- 73 nM/mg vs pH 4, 132.08 +/- 43 nM/mg; APDP, pH 10.0, 51.41 +/- 12 nM/mg vs pH 4.0, 49.97 +/- 6 nM/mg). In vivo studies revealed that all groups with treated BPV implanted for 21 days in male 3-week-old CD rats demonstrated a loss of both GLUT (12-50%) and APDP (48-64%) compared to preimplant content. BPV implant calcification was significantly inhibited in all groups treated with APDP compared to control Ca2+ (5.54 +/- 2.1-9.64 + 1.2 micrograms/mg, APDP pretreated, vs 93.64 +/- 11.65 micrograms/mg, control; P less than or equal to 0.001) despite the progressive loss of both GLUT and APDP with time. It is concluded that preincubation of BPV tissue in GLUT at lower temperature (4 degrees C) and higher pH (10.0) enhanced BPV GLUT uptake and subsequent APDP covalent binding. In addition, in the rat subdermal model, BPV tissue calcification was markedly inhibited by APDP, despite a significant loss of bound drug.