PhD and MSc Theses
PhD and MSc Theses, since 1988
Student’s Name |
Graduation Year |
Degree |
Abstracts |
Research Name |
Nof Eliram |
2021 |
PhD |
Abstracts |
Exploring Ventilator-Induced Lung Injury in Vitro in Reconstructed Airway Platforms |
Kirma Shani Noa |
2021 |
PhD |
|
Pulmonary in Vitro Platforms of Upper Airwayst for Cytotoxicity and Drug Delivery Assays |
Ostrovski Yan |
2019 |
PhD |
|
Targeted Delivery of Inhalation Medicine using Magnetic Particles |
Shachar Berman Lihi |
2019 |
PhD |
|
Transport and Deposition of Non-Spherical Particles in the Lung Depths |
Stauber Hagit |
2017 |
PhD |
Abstracts |
In vitro Microfluidic Models of Alveolar Capillary Microcirculation |
Tenenbaum-Katan Janna |
2016 |
PhD |
Abstracts |
Pulmonary Alveolar Flow Physiology: From Fetal to Childhood Airways |
Hofemeier Philipp |
2016 |
PhD |
Abstracts |
Computational Simulations of Inhaled Aerosols in the Pulmonary Acinar Region |
Fishler Ramy |
2015 |
PhD |
Abstracts |
Microfluidic Models for Studying Pulmonary Acinar Transport Phenomena |
Abu Ahmad Leen |
2022 |
MSc |
Abstracts |
Transport and Deposition of Excipient Enhanced Aerosols in the Lungs of an Infant |
Zidan Hikaia |
2022 |
MSc |
Abstracts |
Advanced Lung-On-Chip Platforms for Respiratory Inhalation Assays of Infection and Inflammation |
Friedman Lee |
2021 |
MSc |
Abstracts |
Lung-On-Chip Platforms for Pro-Inflammatory Airway Assays |
Begin Alon |
2020 |
MSc |
Abstracts |
Bubbles Characterizations Of Microwave Tissue Ablation in Patients |
Heller-Algazi Metar |
2020 |
MSc |
Abstracts |
Computational Fluid Dynamics as a Framework for Respiratory Therapy Reasearch |
Koren Yelena |
2014 |
MSc |
Abstracts |
Motility Phenotyping of Model Organism C. Elegans Using Scale-Invariant Feature Transform (SIFT) |
Greenblum Ayala |
2013 |
MSc |
Abstracts |
Statistical Learning Methods for Segmentation Problems in the Model Organism C. elegans |
Loyevsky Amir |
2020 |
MSc |
Abstracts |
Time-Resolved, Tomographic Measurements of Oscillatory Respiratory Flows in an Upper Airway Model |