Hemodynamic Characterization of a Mouse Model for Investigating the Cellular and Molecular Mechanisms of Neotissue Formation in Tissue-Engineered Heart Valves

Hemodynamic Characterization of a Mouse Model for Investigating the Cellular and Molecular Mechanisms of Neotissue Formation in Tissue-Engineered Heart Valves

Decellularized allograft heart valves have been used as tissue-engineered heart valve (TEHV) scaffolds with promising results; however, little is known about the cellular mechanisms underlying TEHV neotissue formation. To better understand this phenomenon, we developed a murine model of decellulariz...

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Veröffentlicht in:Tissue engineering. Part C, Methods Methods, 2015-09, Vol.21 (9), p.987-994
Hauptverfasser: James, Iyore A., Yi, Tai, Tara, Shuhei, Best, Cameron A., Stuber, Alexander J., Shah, Kejal V., Austin, Blair F., Sugiura, Tadahisa, Lee, Yong-Ung, Lincoln, Joy, Trask, Aaron J., Shinoka, Toshiharu, Breuer, Christopher K.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Heart Transplantation
Heart Valve Prosthesis
Heart Valves - diagnostic imaging
Heart Valves - physiology
Heart Ventricles
Hemodynamics
Mice, Inbred C57BL
Models, Animal
Pressure
Pulmonary Valve - cytology
Pulmonary Valve - physiology
Tissue Engineering - methods
Ultrasonography
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Zusammenfassung:Decellularized allograft heart valves have been used as tissue-engineered heart valve (TEHV) scaffolds with promising results; however, little is known about the cellular mechanisms underlying TEHV neotissue formation. To better understand this phenomenon, we developed a murine model of decellularized pulmonary heart valve transplantation using a hemodynamically unloaded heart transplant model. Furthermore, because the hemodynamics of blood flow through a heart valve may influence morphology and subsequent function, we describe a modified loaded heterotopic heart transplant model that led to an increase in blood flow through the pulmonary valve. We report host cell infiltration and endothelialization of implanted decellularized pulmonary valves (dPV) and provide an experimental approach for the study of TEHVs using mouse models.
ISSN:1937-3384
1937-3392
DOI:10.1089/ten.tec.2015.0011