Follow
Aibhlin Esparza Ph.D
Title
Cited by
Cited by
Year
A review on wearable photoplethysmography sensors and their potential future applications in health care
D Castaneda, A Esparza, M Ghamari, C Soltanpur, H Nazeran
International journal of biosensors & bioelectronics 4 (4), 195, 2018
10602018
Engineering approaches for cardiac organoid formation and their characterization
B Joddar, SL Natividad-Diaz, AE Padilla, AA Esparza, SP Ramirez, ...
Translational Research 250, 46-67, 2022
232022
Development of in vitro cardiovascular tissue models within capillary circuit microfluidic devices fabricated with 3D stereolithography printing
A Esparza, N Jimenez, B Joddar, S Natividad-Diaz
Springer Nature Applied Sciences 5 (240), 2023
72023
Human stem cell-based 3D in vitro angiogenesis models for preclinical drug screening applications
A Esparza, N Jimenez, EA Borrego, S Browne, SL Natividad-Diaz
Molecular Biology Reports 51 (1), 260, 2024
32024
Materials Characterization of Stereolithography 3D Printed Polymer to Develop a Self-Driven Microfluidic Device for Bioanalytical Applications
BL Stark, M Gamboa, A Esparza, TJ Cavendar-Word, D Bermudez, ...
ACS Applied Bio Materials, 2024
22024
Engineered 3D Cardiovascular Tissue Models Within Dynamic Microfluidic Platforms for Personalized Medicine Applications
S Natividad-Diaz, B Joddar, W Poon, A Esparza, EA Borrego, BL Stark
Journal of Interdisciplinary Histopathology, 2023
22023
Development of 3D human cardiovascular and cancer tissue model within a self-driven microfluidic platform for preclinical drug screening
AA Esparza
The University of Texas at El Paso, 2024
2024
Materials Characterization of Vat Photopolymerization Ultra Violet Laser Printed Polymer for Microfluidic Platform Development
B Stark, M Gamboa, A Esparza, TJ Cavender-Word, D Bermudez, ...
Available at SSRN 4558470, 0
3D Stereolithography printed self-driven microfluidic platform for dynamic culture of Cardiovascular tissue models
S Natividad-Diaz, B Joddar, A Esparza, N Jimenez
The system can't perform the operation now. Try again later.
Articles 1–9