Stanford University
Showing 1,121-1,140 of 1,649 Results
-
Carlos Jose Rodriguez Santiago
Ph.D. Student in Chemical Engineering, admitted Autumn 2022
BioCarlos Rodriguez Santiago is a Chemical Engineering PhD candidate working in the lab of Dr. Judith Shizuru to develop protein therapeutics that will facilitate hematopoietic stem cell transplantation without the need for chemotherapy or radiation. His PhD thesis work is at the intersection of immunology, oncology, and protein engineering. Carlos is also a Sarafan CheM-H Lipshultz Graduate Fellow participating in the Chemistry/Biology Interface (CBI) Predoctoral training program which aims to cultivate interactions and thinking across disciplinary lines to enable innovations that improve human health.
Prior to his PhD work, Carlos helped found the Protein Engineering Knowledge Center (PEKC) at Stanfords Innovative Medicines Accelerator (IMA). There he collaborated with researchers to discover and engineer antibodies against therapeutically relevant targets. Several antibodies discovered by Carlos have officially been licensed out for further therapeutic development. -
Kacper Rogala
Assistant Professor of Structural Biology and of Chemical and Systems Biology
Current Research and Scholarly InterestsOur team is fascinated by how cells make growth decisions — to grow or not to grow. In order to grow, cells require nutrients, and we are unraveling how cells use specialized protein sensors and transporters to sense and traffic nutrients in between various compartments. We use approaches from structural biology, chemical biology, biophysics, biochemistry, and cell biology — to reveal the mechanisms of basic biological processes, and we develop chemical probes that modulate them.
-
Stephan Rogalla, M.D. Ph.D.
Clinical Assistant Professor, Medicine - Gastroenterology & Hepatology
Affiliate, Medicine - Med/Gastroenterology and HepatologyCurrent Research and Scholarly InterestsThe research interest of myself and my lab are in the field of early cancer detection using targeted molecular spies to highlight (pre)cancerous lesions. We as well aim to improve precision medicine in autoimmune disorders like inflammatory bowel disease and oncology.
-
Albert "A.J." Rogers, MD, MBA, FAHA
Instructor, Medicine - Cardiovascular Medicine
BioDr. Rogers is a board-certified, fellowship-trained cardiologist with the Cardiac Arrhythmia Service at Stanford Health Care. He is also an instructor of medicine in the Division of Cardiovascular Medicine, Department of Medicine at Stanford University School of Medicine.
As a clinical cardiac electrophysiologist, Dr. Rogers’ training includes evaluating issues involving electrical activity in the heart and how these can lead to an abnormal heart rhythm (arrhythmia). His expertise includes mapping regions in the heart associated with arrhythmias and then applying a minimally invasive therapy (ablation) that targets the responsible areas causing the problem. He also performs procedures to implant cardiac devices, such as pacemakers and defibrillators, designed to synchronize heart contractions and reset irregular heartbeats.
Dr. Rogers specializes in the diagnosis and treatment of atrial fibrillation, ventricular tachycardia, and other arrhythmias. In collaboration with Stanford Medicine cardiovascular surgeons, he performs hybrid surgical-catheter ablation procedures as a more permanent treatment for persistent forms of atrial fibrillation and for inappropriate sinus tachycardia. During this procedure, ablation therapy is applied to areas both inside and outside of the heart responsible for the arrhythmia.
As a physician-researcher, Dr. Rogers’ translational research applies biomedical engineering and machine learning approaches to explore the mechanisms underlying cardiac arrhythmia. These efforts include research funded by the National Institutes of Health and the American Heart Association to investigate novel methods for diagnosing and treating heart rhythm disorders. Dr. Rogers has over 10 years of experience with medical technology innovation and development.
Dr. Rogers serves as associate editor of the Journal of Invasive Cardiovascular Electrophysiology. He is also a peer reviewer for multiple prestigious journals, including Heart Rhythm, The Lancet: Digital Health, the Journal of the American College of Cardiology: Clinical Electrophysiology, and Frontiers in Physiology. He has been an invited guest speaker at national and international meetings, including those for the American Heart Association and the European Cardiac Arrythmia Society. -
Angela Rogers
Professor of Medicine (Pulmonary and Critical Care)
Current Research and Scholarly InterestsWe use genetics and genomics methodologies to identify novel ARDS pathobiology; we hope that this will enable identification of novel biomarkers, phenotypes, and treatments for the disease. We are building a plasma biobank of critically ill patients at Stanford, with a particular focus on metabolic changes in critical illness.
-
D. Brian Rogers
Ph.D. Student in Earth System Science, admitted Autumn 2020
Masters Student in Earth System Science, admitted Autumn 2022BioBrian is a doctoral student in Earth System Science working with Dr. Kate Maher. Brian is interested in developing robust monitoring, reporting, and verification frameworks for open-system carbon dioxide removal (CDR) technologies. He is currently focusing on extending the utility of reactive transport models to address uncertainties in enhanced rock weathering as a CDR strategy.
-
Justin S. Rogers
Research Oceanographer, Civil and Environmental Engineering
Staff, Program-Fringer O.BioPh.D. Civil & Environmental Engineering, Stanford University, 2016
M.S. Civil & Environmental Engineering, University of Wisconsin-Madison, 2006
B.S. Civil Engineering (Minor in Chemistry), University of Arizona, 2004
Research interests:
-Coastal resilience, risk, sea level rise, extreme events, compound hazards
-Impact of climate change on human and natural systems in coastal and nearshore environments
-Core model development for coastal applications, storm surge, tropical cyclones, flood risk, bottom boundary layers, turbulence, and multiscale physics.
I leverage the power of cloud computing, HPC systems and modern code frameworks, and adapt multiple analysis methods including dynamical models, machine learning, statistical methods, and field observations.
