Physiological flow simulation in residual human stenoses after coronary angioplasty

To evaluate the local hemodynamic implications of coronary artery balloon angioplasty computational fluid dynamics (CFD) was applied in a group Of patients previously reported by [Wilson et al. (1988), 77, pp. 873-885] with representative stenosis geometry post-angioplasty and with measured values of coronary flow reserve returning to a normal range (3.6+/-0.3). During undisturbed flow in the absence of diagnostic catheter sensors within the lesions the computed mean pressure drop Delta(p) over tilde was only about 1 mmHg at basal flow and increased moderately to about 8 mmHg for hyperemic flow. Corresponding elevated levels of mean wall shear stress in the midthroat region of the residual stenoses, which are common after angioplasty procedures, increased from about 60 to 290 dynes/cm(2) during hyperemia. The computations ((R) over bare(e) similar or equal to 100-400; alpha (e) = 2.25) indicated that the pulsatile flow field was principally quasi-steady during the cardiac cycle but there was phase lag in the pressure drop-mean velocity (Deltap - (u) over bar) relation. Time-averaged pressure drop values, Delta(p) over tilde, were about 20 percent higher than calculated pressure drop values, Deltap(s), for steady flow, similar to previous in vitro measurements by Cho et al. (1983). In the throat region, viscous effects were confined to the near-wall region and entrance effects were evident during the cardiac cycle. Proximal to the lesion, velocity profiles deviated from parabolic shape at lower velocities during the cardiac cycle. The flow field was very complex in the oscillatory separated flow reattachment region in the distal vessel where pressure recovery occurred These results may also serve as a useful reference against catheter-measured pressure drops and velocity ratios (hemodynamic endpoints) and arteriographic (anatomic) endpoints post-angioplasty. Some comparisons to previous studies of flow through stenoses models are also shown for perspective purposes. [S0148-0731(00)00304-6].