Non-invasive MRI-based mathematical models showed statistically significant differences in reflected wave power ratio and distal resistance according to pulmonary hypertension disease status.
Observational (n=35)
Can non-invasive MRI imaging combined with mathematical models accurately diagnose pulmonary hypertension compared to invasive right heart catheterization?
Non-invasive MRI combined with mathematical modeling shows potential as a diagnostic tool for pulmonary hypertension, correlating with invasive right heart catheterization findings.
Pulmonary hypertension(PH) is a disorder characterised by increased mean pulmonary arterial pressure. Currently, the diagnosis of PH relies upon measurements taken during invasive right heart catheterisation (RHC). This paper describes a process to derive diagnostic parameters using only non-invasive methods based upon MRI imaging alone. Simultaneous measurements of main pulmonary artery (MPA) anatomy and flow are interpreted by 0D and 1D mathematical models, in order to infer the physiological status of the pulmonary circulation. Results are reported for 35 subjects, 27 of whom were patients clinically investigated for PH and eight of whom were healthy volunteers. The patients were divided into 3 sub-groups according to the severity of the disease state, one of which represented a negative diagnosis (NoPH), depending on the results of the clinical investigation, which included RHC and complementary MR imaging. Diagnostic indices are derived from two independent mathematical models, one based on the 1D wave equation and one based on an RCR Windkessel model. Using the first model it is shown that there is an increase in the ratio of the power in the reflected wave to that in the incident wave (Wpb/Wptotal) according to the classification of the disease state. Similarly, the second model shows an increase in the distal resistance with the disease status. The results of this pilot study demonstrate that there are statistically significant differences in the parameters derived from the proposed models depending on disease status, and thus suggest the potential for development of a non-invasive, image-based diagnostic test for pulmonary hypertension.
Lungu et al. (Tue,) conducted a observational in Pulmonary hypertension (n=35). MRI model-based non-invasive diagnostic parameters vs. Invasive right heart catheterisation was evaluated on Diagnostic indices derived from 1D wave equation and RCR Windkessel model. Non-invasive MRI-based mathematical models showed statistically significant differences in reflected wave power ratio and distal resistance according to pulmonary hypertension disease status.