Modulation of the contractility of micropatterned myocardial cells with nanoscale forces using atomic force microscopy
The ability to modulate cardiomyocyte contractility is important for bioengineering
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
Modulation of the contractility of micropatterned myocardial cells with nanoscale forces using atomic force microscopy.
N Nagarajan, V Vyas, BD Huey, P Zorlutuna - Nanobiomedicine, 2016 - europepmc.org
The ability to modulate cardiomyocyte contractility is important for bioengineering
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
[PDF][PDF] Modulation of the contractility of micropatterned myocardial cells with nanoscale forces using atomic force microscopy
N Nagarajan, V Vyas, BD Huey, P Zorlutuna - 2016 - tissueeng.nd.edu
The ability to modulate cardiomyocyte contractility is important for bioengineering
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
Modulation of the contractility of micropatterned myocardial cells with nanoscale forces using atomic force microscopy
N Nagarajan, V Vyas, BD Huey… - …, 2016 - pubmed.ncbi.nlm.nih.gov
The ability to modulate cardiomyocyte contractility is important for bioengineering
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
[HTML][HTML] Modulation of the contractility of micropatterned myocardial cells with nanoscale forces using atomic force microscopy
N Nagarajan, V Vyas, BD Huey, P Zorlutuna - Nanobiomedicine, 2016 - ncbi.nlm.nih.gov
The ability to modulate cardiomyocyte contractility is important for bioengineering
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
[PDF][PDF] Modulation of the contractility of micropatterned myocardial cells with nanoscale forces using atomic force microscopy
N Nagarajan, V Vyas, BD Huey, P Zorlutuna - 2016 - researchgate.net
The ability to modulate cardiomyocyte contractility is important for bioengineering
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
[PDF][PDF] Modulation of the contractility of micropatterned myocardial cells with nanoscale forces using atomic force microscopy
N Nagarajan, V Vyas, BD Huey, P Zorlutuna - 2016 - researchgate.net
The ability to modulate cardiomyocyte contractility is important for bioengineering
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
Modulation of the contractility of micropatterned myocardial cells with nanoscale forces using atomic force microscopy.
N Nagarajan, V Vyas, BD Huey, P Zorlutuna - Nanobiomedicine, 2016 - europepmc.org
The ability to modulate cardiomyocyte contractility is important for bioengineering
applications ranging from heart disease treatments to biorobotics. In this study, we examined …
applications ranging from heart disease treatments to biorobotics. In this study, we examined …