Abstract
OBJECTIVES: We sought to evaluate compliance and flow of the ascending aorta of patients with decellularized aortic homografts compared to donor age-matched healthy controls. METHODS: Male patients and donor age-matched male healthy controls were included. Cardiac function was evaluated by retrospectively electrocardiography-gated cine balanced steady-state free precession magnetic resonance imaging (MRI). Time-resolved 2- and 3-dimensional phase-contrast sequences were used to determine relative area change and pulse wave velocity as surrogate parameters for vessel compliance as well as maximum blood flow velocity. RESULTS: Thirteen patients were matched according to the age of their homograft donor (median 42 years, interquartile range [IQR] 32-50) to 7 healthy controls (median 40 years, IQR 36-48). Time to post-operative MRI was 3.33 (1.33-4.50) years. Relative area change in the proximal ascending aorta was significantly lower in the homograft group compared to healthy controls (26%, IQR 23-44 vs 38%, IQR 24-44, P < .001), with no significant difference observed in the distal ascending aorta (22%, IQR 22-33 vs 34%, IQR 22-41, P = .438). Maximum blood flow velocity in the proximal ascending aorta was significantly higher in the homograft group compared to healthy controls (168 cm s-1, IQR 148-188 vs 115 cm s-1, IQR 114-120, P = .009). CONCLUSIONS: Decellularized aortic homograft patients seem to have a reduced compliance of the proximal ascending aorta compared to donor age-matched healthy controls. This may be attributable to the in vitro decellularization process or post-operative graft degeneration. These findings highlight the ultimate need for follow-up data to understand the long-term in vivo effects of decellularized human tissue. This study is a follow-up study of the patients included in the ARISE Study registered on ClinicalTrials.gov (NCT02527629). For the purposes of this manuscript, healthy individuals were subsequently recruited to serve as the control group.