Stanford University
Showing 461-480 of 670 Results
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Rosita Primavera
Basic Life Research Scientist, Rad/Pediatric Radiology
BioDr. Rosita Primavera is a Basic Life Research Scientist at Stanford University in the Department of Radiology/Pediatric Radiology. With an MD in Chemistry and Pharmaceutical Technology and a PhD in Cellular and Molecular Biotechnologies, she brings a robust educational background to her research endeavors. Dr. Primavera has extensive experience in developing nano- and micro-drug delivery systems (DDS) as well as 3D platforms aimed at treating various diseases.
Her training includes a variety of techniques for creating drug delivery systems and 3D platforms, utilizing both synthetic and natural materials, and employing methods such as top-down and bottom-up fabrication. Over the past few years, Dr. Primavera's research interests have increasingly focused on diabetes. She has received extensive training in handling and processing pancreatic islets from multiple sources, including mice, rats, and humans, equipping her with the expertise needed to conduct both in vitro and in vivo experiments involving diabetic animal models. Dr. Primavera is focused on developing an on-command system that mimics pancreatic islet function. Her current research further investigates the role of 3D bioscaffolds in pancreatic islet transplantation, along with the involvement of mesenchymal stem cells in diabetes treatment. She is particularly interested in innovative cellular approaches, such as co-transplantation of islets alone, within cutting-edge bioscaffolds, or in conjunction with stem cells. Through her work, Dr. Primavera aims to enhance therapeutic strategies for diabetes and improve patient outcomes. -
Carlos Puchol
Facilities Specialist 1, Rad/Radiology Finance and Administration
Current Role at StanfordFacilities Specialist 1 in the Department of Radiology, in the School Of Medicine
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Mona Ranade
Clinical Associate Professor, Radiology
BioMona Ranade, MD is a radiologist specializing in Vascular & Interventional Radiology and is currently a Clinical Associate Professor of Radiology at Stanford University. She is a board-certified interventional radiologist with a clinical and academic focus on venous thromboembolism (DVT and PE), peripheral arterial disease, superficial venous disease, and women’s interventional health.
She completed her residency in Diagnostic Radiology at the Medical College of Wisconsin (2012–2016) and a fellowship in Vascular & Interventional Radiology at Mount Sinai Hospital in New York (2016–2017). She began her career in academic medicine at the Mount Sinai Health System, where she practiced from 2017 to 2020, followed by five years on faculty at UCLA Health (2020–2025) prior to joining Stanford.
Dr. Ranade is recognized as a thought leader in the treatment of deep vein thrombosis and pulmonary embolism, with extensive experience in managing complex venous disease. She has participated in several clinical trials in this space and currently serves as the national principal investigator for the APEX-AV IDE trial evaluating the AngioDynamics AlphaVac device. Her scholarly work includes multiple peer-reviewed and non–peer-reviewed publications that have advanced clinical understanding and techniques in venous intervention.
In addition to her venous expertise, Dr. Ranade has a strong clinical focus on arterial disease, including the treatment of claudication and critical limb ischemia. She is also highly experienced in the treatment of superficial vein disease, offering comprehensive, minimally invasive options to improve both clinical outcomes and quality of life for her patients.
Dr. Ranade has a deep commitment to improving care for women through minimally invasive therapies, with special research and clinical interests in DVT, PE, and arterial disease in women, as well as uterine fibroids, adenomyosis, and pelvic congestion syndrome. Her work seeks to address the unique presentations and treatment needs of female patients across a range of vascular and interventional conditions.
A proponent of patient-centered innovation, Dr. Ranade has championed procedural advancements such as radial artery access to improve safety, comfort, and recovery. Her approach integrates evidence-based care with a focus on individualized treatment.
Dr. Ranade’s clinical leadership, research contributions, and advocacy for women’s health continue to influence the evolving landscape of interventional radiology. -
Jianghong Rao
Professor of Radiology (Molecular Imaging Program at Stanford) and, by courtesy, of Chemistry
Current Research and Scholarly InterestsProbe chemistry and nanotechnology for molecular imaging and diagnostics
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Eduardo Pontes Reis
Affiliate, Rad/Integrative Biomedical Imaging Informatics at Stanford
BioI'm a visiting scholar at Stanford AIMI Center, working in the intersection of Artificial Intelligence and Medicine. My purpose is to contribute to our understanding of intelligence. And our best chance to achieve this is through AI.
Research highlights:
- Published BRAX, the Brazilian Chest X-ray Dataset - https://www.nature.com/articles/s41597-022-01608-8
- Open-sourced the PyTorch implementation of ConVIRT (Y Zhang et al), a contrastive learning method for radiologic images and text (before CLIP) - https://github.com/edreisMD/ConVIRT-pytorch
- Released Brain Hemorrhage Annotations - Brain Hemorrhage Extended - BHX (https://physionet.org/content/bhx-brain-bounding-box)
At Hospital Israelita Albert Einstein:
- Started the Health Story project, a medical history timeline to support research and a more personalized clinical practice
- Ran the development of AI algorithms for diseases of national importance: Tuberculosis, COVID, Melanoma and Head CT -
Allan L. Reiss
Howard C. Robbins Professor of Psychiatry and Behavioral Sciences and Professor of Radiology
Current Research and Scholarly InterestsMy laboratory, the Center for Interdisciplinary Brain Sciences Research (CIBSR), focuses on multi-level scientific study of individuals with typical and atypical brain structure and function. Data are obtained from genetic analyses, structural and functional neuroimaging studies, assessment of endocrinological status, neurobehavioral assessment, and analysis of pertinent environmental factors. Our overarching focus is to model how brain disorders arise and to develop disease-specific treatments.
