Optical coherence tomography monitoring of angioplasty balloon inflation in a deployment tester
Optical coherence tomography monitoring of angioplasty balloon inflation in a deployment tester
Authors: Hamed Azarnoush, Sébastien Vergnole, Rafik Bourezak, Benoit Boulet, Guy Lamouche
Description: We present an innovative integration of an intravascular optical coherence tomography probe into a computerized balloon deployment system to monitor the balloon inflation process. The high-resolution intraluminal imaging of the balloon provides a detailed assessment of the balloon quality and, consequently, a technique to improve the balloon manufacturing process. A custom-built swept-source optical coherence tomography system is used for real-time imaging. A semicompliant balloon with a nominal diameter of 4 mm is fabricated for the experiments. Imaging results correspond to balloon deployment in air and inside an artery phantom. A characterization of the balloon diameter, wall thickness, compliance, and elastic modulus is provided, based on image segmentation. Using the images obtained from the probe pullback, a three-dimensional visualization of the inflated balloon is presented.