Having completed his undergraduate degree in Mechanical Engineering from Istanbul Technical University (ITU), Dr. Senol Piskin received his master's and doctorate degrees from ITU Informatics Institute, Computational Science and Engineering Departmentg. He worked as a postdoctoral researcher for 3 years at Koç University Mechanical Engineering and Biomedical Engineering departments. Then he worked as a researcher and lecturer in the Departments of Mechanical Engineering and Biomedical Engineering at the University of Texas for nearly 3 years. He works in the field of health sciences, specifica...
Having completed his undergraduate degree in Mechanical Engineering from Istanbul Technical University (ITU), Dr. Senol Piskin received his master's and doctorate degrees from ITU Informatics Institute, Computational Science and Engineering Departmentg. He worked as a postdoctoral researcher for 3 years at Koç University Mechanical Engineering and Biomedical Engineering departments. Then he worked as a researcher and lecturer in the Departments of Mechanical Engineering and Biomedical Engineering at the University of Texas for nearly 3 years. He works in the field of health sciences, specifically on are healthcare technologies, numerical and experimental modeling of cardiovascular systems, surgical planning, medical device design, biomimetics, microflow tools, biomaterials, biomechanics, rheology. He works with cardiovascular surgeons, cardiologists and radiologists. In this way, he carries out patient-specific modeling, simulation and designs using robotics and extended reality tools. Besides academic studies, he also carried out activities in the field of entrepreneurship and established a start-up company. The company has received various supports from Turkey and the EU. He has patents and patent applications besides his articles. He is a referee in journals such as European Heart Journal, Annals of Biomedical Engineering, Artificial Organs, Cardiovascular Engineering and Technology, Journal of Biomechanics.
From Experiments to Simulation: Shear-Induced Responses of Red Blood Cells to Different Oxygen Saturation Levels ,2020
Hemodynamics of patient-specific aorta-pulmonary shunt configurations ,2017
Ex Vivo Regional Mechanical Characterization of Porcine Pulmonary Arteries ,2021
Design, Development, and Temporal Evaluation of a Magnetic Resonance Imaging-Compatible In Vitro Circulation Model Using a Compliant Abdominal Aortic Aneurysm Phantom ,2021
Patient-Specific Computational Analysis of Hemodynamics in Adult Pulmonary Hypertension ,2021
Author`s Reply ,2018
Tetralogy of Fallot Surgical Repair: Shunt Configurations, Ductus Arteriosus and the Circle of Willis ,2017
Increased Energy Loss Due to Twist and Offset Buckling of the Total Cavopulmonary Connection ,2017
The effect of modified Blalock-Taussig shunt anastomosis angle and pulmonary artery diameter on pulmonary flow ,2018
Tetralogy of Fallot Surgical Repair: Shunt Configurations, Ductus Arteriosus and the Circle of Willis ,2017
Reports
The effect of modified blalock taussing shunt anastomosis angle and pulmonary artery diameter on pulmonary flow - ARNAZ AHMET,PİŞKİN ŞENOL,YALÇINBAŞ YUSUF KENAN,PEKKAN KEREM,SARIOĞLU CAFER TAYYAR
The effect of modified blalock taussing shunt anastomosis angle and pulmonary artery diameter on pulmonary flow. - ARNAZ AHMET,PİŞKİN ŞENOL,YALÇINBAŞ YUSUF KENAN,PEKKAN KEREM,SARIOĞLU CAFER TAYYAR
