In Situ Expansion, Differentiation and Electromechanical Coupling of Human Cardiac Muscle in a 3D Bioprinted, Chambered Organoid [1]
Quite refreshing well-written experimental paper leaving promises of artificial organoids.
Quite refreshing well-written experimental paper leaving promises of artificial organoids.
Links
[1] https://www.ctsnet.org/jans/situ-expansion-differentiation-and-electromechanical-coupling-human-cardiac-muscle-3d
[2] https://www.ctsnet.org/home/aprotopapas
[3] https://www.ahajournals.org/doi/abs/10.1161/CIRCRESAHA.119.316155
[4] https://www.ctsnet.org/taxonomy/heart-failure
[5] https://www.ctsnet.org/taxonomy/mechanical-circulatory-assistance
[6] https://www.ctsnet.org/taxonomy/vad
[7] https://www.ctsnet.org/tags/transplantation
[8] https://www.ctsnet.org/tags/transplantation-heart
[9] https://www.ctsnet.org/categories/cardiac
[10] https://www.ctsnet.org/taxonomy2018/heart-failure
[11] https://www.ctsnet.org/taxonomy2018/mechanical-circulatory-assistance
[12] https://www.ctsnet.org/taxonomy2018/single-ventricle-and-palliative-procedures
[13] https://www.ctsnet.org/taxonomy2018/mechanical-support-and-transplantation
[14] https://www.ctsnet.org/taxonomy2018/transplant
[15] https://www.ctsnet.org/taxonomy2018/heart-transplant
[16] https://www.ctsnet.org/taxonomy2018/medical-technology