1. Automatic Estimation of Coronary Blood Flow Velocity Step 1 for Developing a Tool to Diagnose Patients With Micro-Vascular Angina Pectoris
- Author
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Kjersti Engan, Trygve Eftestøl, Charlotte Sæland, Alf Inge Larsen, and Mahdieh Khanmohammadi
- Subjects
0301 basic medicine ,medicine.medical_specialty ,lcsh:Diseases of the circulatory (Cardiovascular) system ,kranspulsårer ,coronary flow reserve ,Cardiovascular Medicine ,030204 cardiovascular system & hematology ,Coronary artery disease ,Angina ,03 medical and health sciences ,symbols.namesake ,automatic segmentation ,angina pectoris ,0302 clinical medicine ,Internal medicine ,medicine ,kransarterier ,Original Research ,business.industry ,transthoracic doppler ,Coronary flow reserve ,X-ray angiography ,Blood flow ,hjerte- og karsykdommer ,medicine.disease ,Medical disciplines: 700::Clinical medical disciplines: 750::Cardiology: 771 [VDP] ,Coronary arteries ,blood flow velocity ,image registration ,030104 developmental biology ,medicine.anatomical_structure ,Flow velocity ,lcsh:RC666-701 ,symbols ,Cardiology ,Cardiology and Cardiovascular Medicine ,business ,Doppler effect ,coronary arteries ,Artery - Abstract
Aim: Our aim was to automatically estimate the blood velocity in coronary arteries using cine X-ray angiographic sequence. Estimating the coronary blood velocity is a key approach in investigating patients with angina pectoris and no significant coronary artery disease. Blood velocity estimation is central in assessing coronary flow reserve. Methods and Results: A multi-step automatic method for blood flow velocity estimation based on the information extracted solely from the cine X-ray coronary angiography sequence obtained by invasive selective coronary catheterization was developed. The method includes (1) an iterative process of segmenting coronary arteries modeling and removing the heart motion using a non-rigid registration, (2) measuring the area of the segmented arteries in each frame, (3) fitting the measured sequence of areas with a 7◦ polynomial to find start and stop time of dye propagation, and (4) estimating the blood flow velocity based on the time of the dye propagation and the length of the artery-tree. To evaluate the method, coronary angiography recordings from 21 patients with no obstructive coronary artery disease were used. In addition, coronary flow velocity was measured in the same patients using a modified transthoracic Doppler assessment of the left anterior descending artery. We found a moderate but statistically significant correlation between flow velocity assessed by trans thoracic Doppler and the proposed method applying both Spearman and Pearson tests. Conclusion: Measures of coronary flow velocity using a novel fully automatic method that utilizes the information from the X-ray coronary angiographic sequence were statistically significantly correlated to measurements obtained with transthoracic Doppler recordings. publishedVersion
- Published
- 2019