Coronary blood flow simulation system and method based on computational fluid dynamics
A technology of coronary blood flow and computational fluid dynamics, applied in the field of computer simulation, can solve problems such as increasing medical costs, increasing the risk of death of patients, and suffering of patients, so as to reduce psychological and physical pain, reduce the risk of death, medical costs, efficiency and The effect of high reliability
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Embodiment 1
[0040] Clinically, examination is required to obtain information such as the size, shape, location, degree of danger, and whether it affects the blood supply of the coronary artery injury in the patient's heart. Among them, the techniques used to assess coronary artery injury of the heart can be divided into two categories: invasive examination and non-invasive examination. Invasive examination is an invasive examination, which undoubtedly brings harm to the patient's body, causes the patient's psychological and physical pain, increases medical costs and increases the risk of death of the patient. Therefore, non-invasive inspection has become a research hotspot to solve the above defects to a certain extent.
[0041] Non-invasive tests include: electrocardiogram, examination of cardiac injury markers, exercise stress test, single-photon emission computed tomography (SPECT) and positron emission tomography (PET) of myocardial perfusion ), these detection techniques indirectly ...
Embodiment 2
[0105] Such as figure 2 As shown, the present invention also provides a coronary blood flow simulation method based on computational fluid dynamics, comprising steps:
[0106] acquiring a sequence of computed tomography images of the human cardiovascular system;
[0107] extracting computed tomography data of coronary vessels according to the computed tomography image sequence of the human cardiovascular system, and performing three-dimensional reconstruction on the extracted image sequence to obtain a three-dimensional coronary artery model;
[0108] Performing preprocessing required for fluid dynamics calculations on the three-dimensional coronary artery model, including grid division, loading calculation settings, and boundary condition parameters;
[0109] Solve the three-dimensional flow control equation of blood in the coronary artery, and output the calculation results, the calculation results include one or more of pressure, blood flow reserve fraction, and blood flow ...
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