Add to ORKGIn development and differentiation, morphological changes often accompany mechanical changes [1], but it is unclear whether or when cells in embryos sense tissue elasticity. The earliest embryo is uniformly pliable, while adult tissues vary widely in mechanics from soft brain and stiff heart to rigid bone [2]. However, cell sensitivity to microenvironment elasticity is debated based in part on results from complex three-dimensional culture models [3]. Regenerative cardiology provides strong motivation to clarify any cell-level sensitivities to tissue elasticity because rigid postinfarct regions limit pumping by the adult heart [4]. Here, we focus on the spontaneously beating embryonic heart and sparsely cultured cardiomyocytes, including ce...
Cardiac tissue development and pathology have been shown to depend sensitively on microenvironmental...
SummaryStem cell-derived cardiomyocytes represent unique tools for cell- and tissue-based regenerati...
Neonatal mice have been shown to regenerate their hearts during a transient window of time of approx...
SummaryIn development and differentiation, morphological changes often accompany mechanical changes ...
While adult heart muscle is the least regenerative of tissues, embryonic cardiomyocytes are prolifer...
While adult heart muscle is the least regenerative of tissues, embryonic cardiomyocytes are prolifer...
This thesis addresses the questions of when and how mechanical stiffness arises during embryonic hea...
This thesis addresses the questions of when and how mechanical stiffness arises during embryonic hea...
Tissue-specific elastic modulus (E), or 'stiffness,' arises from developmental changes in the extrac...
Human embryonic stem cells (hESC) and hESC-derived cardiomyocytes (hESC-CM) hold great promise for t...
Cardiomyocyte and stroma cell cross-talk is essential for the formation of collagen-based engineered...
During embryonic morphogenesis, the heart undergoes a complex series of cellular phenotypic maturati...
Development of the embryonic heart involves an intricate network of biochemical and genetic cues to ...
Early in embryogenesis, the heart begins its rhythmic contractions as a tube that helps perfuse the ...
<p>Stem cell-derived cardiomyocytes represent unique tools for cell- and tissue-based regenerative t...
Cardiac tissue development and pathology have been shown to depend sensitively on microenvironmental...
SummaryStem cell-derived cardiomyocytes represent unique tools for cell- and tissue-based regenerati...
Neonatal mice have been shown to regenerate their hearts during a transient window of time of approx...
SummaryIn development and differentiation, morphological changes often accompany mechanical changes ...
While adult heart muscle is the least regenerative of tissues, embryonic cardiomyocytes are prolifer...
While adult heart muscle is the least regenerative of tissues, embryonic cardiomyocytes are prolifer...
This thesis addresses the questions of when and how mechanical stiffness arises during embryonic hea...
This thesis addresses the questions of when and how mechanical stiffness arises during embryonic hea...
Tissue-specific elastic modulus (E), or 'stiffness,' arises from developmental changes in the extrac...
Human embryonic stem cells (hESC) and hESC-derived cardiomyocytes (hESC-CM) hold great promise for t...
Cardiomyocyte and stroma cell cross-talk is essential for the formation of collagen-based engineered...
During embryonic morphogenesis, the heart undergoes a complex series of cellular phenotypic maturati...
Development of the embryonic heart involves an intricate network of biochemical and genetic cues to ...
Early in embryogenesis, the heart begins its rhythmic contractions as a tube that helps perfuse the ...
<p>Stem cell-derived cardiomyocytes represent unique tools for cell- and tissue-based regenerative t...
Cardiac tissue development and pathology have been shown to depend sensitively on microenvironmental...
SummaryStem cell-derived cardiomyocytes represent unique tools for cell- and tissue-based regenerati...
Neonatal mice have been shown to regenerate their hearts during a transient window of time of approx...