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Mechano-biological adaptation of the pulmonary artery exposed to systemic conditions

Emma Vanderveken, Julie Vastmans, Piet Claus, Eric Verbeken, Heleen Fehervary, L. Van Hoof, Katrien Vandendriessche, Peter Verbrugghe, Nele Famaey, Filip Rega

2020Scientific Reports23 citationsDOIOpen Access PDF

Abstract

Cardiac surgeries may expose pulmonary arterial tissue to systemic conditions, potentially resulting in failure of that tissue. Our goal was to quantitatively assess pulmonary artery adaptation due to changes in mechanical environment. In 17 sheep, we placed a pulmonary autograft in aortic position, with or without macroporous mesh reinforcement. It was exposed to systemic conditions for 6 months. All sheep underwent 3 ECG-gated MRI's. Explanted tissue was subjected to mechanical and histological analysis. Results showed progressive dilatation of the unreinforced autograft, while reinforced autografts stabilized after two months. Some unreinforced pulmonary autograft samples displayed more aorta-like mechanical behavior with increased collagen deposition. The mechanical behavior of reinforced autografts was dominated by the mesh. The decrease in media thickness and loss of vascular smooth muscle cells was more pronounced in reinforced than in unreinforced autografts. In conclusion, altering the mechanical environment of a pulmonary artery causes changes in its mechano-biological properties.

Topics & Concepts

Pulmonary arteryAdaptation (eye)MedicineCardiologyInternal medicineBiologyNeuroscienceElasticity and Material ModelingCardiovascular Function and Risk FactorsCardiovascular Health and Disease Prevention
Mechano-biological adaptation of the pulmonary artery exposed to systemic conditions | Litcius