Semi-automated heart valve morphometry and computational stress analysis from 3D images

Assignee

• The Trustees of the University of Pennsylvania · US

Inventors

• Benjamin M. Jackson · Wynnebrook Manor, US
• Robert C. Gorman · North Wales, US
• Joseph H. Gorman, III · North Wales, US
• Alison M. Pouch · Philadelphia, US
• Chandra M. Sehgal · Wayne, US
• Paul A. Yushkevich · Lansdowne, US
• Brian B. Avants · Philadelphia, US
• Hongzhi Wang · San Jose, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG06T2207/30048
• WIPO fieldMedical technology
• WIPO sectorInstruments

Abstract

A method is provided for measuring or estimating stress distributions on heart valve leaflets by obtaining three-dimensional images of the heart valve leaflets, segmenting the heart valve leaflets in the three-dimensional images by capturing locally varying thicknesses of the heart valve leaflets in three-dimensional image data to generate an image-derived patient-specific model of the heart valve leaflets, and applying the image-derived patient-specific model of the heart valve leaflets to a finite element analysis (FEA) algorithm to estimate stresses on the heart valve leaflets. The images of the heart valve leaflets may be obtained using real-time 3D transesophageal echocardiography (rt-3DTEE). Volumetric images of the mitral valve at mid-systole may be analyzed by user-initialized segmentation and 3D deformable modeling with continuous medial representation to obtain, a compact representation of shape. The regional leaflet stress distributions may be predicted in normal and diseased (regurgitant) mitral valves using the techniques of the invention.