Stanford University
Showing 23,621-23,640 of 37,003 Results
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Peter Nonso Nwokoye
MD Student with Scholarly Concentration in Bioengineering, expected graduation Spring 2027
BioPeter Nonso Nwokoye was born and raised in Nigeria and graduated summa cum laude with dual Bachelor of Science degrees in Chemistry and Biology from Barry University. During his undergraduate studies, he worked on the synthesis of selective muscarinic receptor agonists and antagonists. In 2021, he was awarded the prestigious Gates Cambridge Scholarship to study at King's College, University of Cambridge. There, under the mentorship of Professor Anthony Davenport, he researched the expression and signaling of the apelin receptor and its endogenous agonists, Elabela and Apelin, in glioblastoma stem cells. This experience sparked his interest in developing novel methods to deorphanize orphan Class A GPCRs. After several months of intensive computational research, Peter developed a complex, multi-layered bioinformatic tool that he has used to identify likely endogenous ligands of orphan GPCRs, focusing on peptide ligands found in annotated uncharacterized open reading frames in the human genome. In his free time, he enjoys soccer, running, meditating, and teaching. Peter is excited about pursuing a career as a physician-scientist.
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Fridah Nyakundi
Ph.D. Student in Environment and Resources, admitted Autumn 2021
BioI am a Ph.D. candidate in Environment and Resources at Stanford University’s Emmett Interdisciplinary Program in Environment and Resources (E-IPER). My research sits at the intersection of environmental and natural resource economics and land system science, applying remote sensing and economic methods to understand how natural resource use shapes livelihoods and ecosystems in low- and middle-income countries. Currently, my doctoral work focuses on the risks and decision-making strategies in aquaculture systems, with a case study on Nile Tilapia cage farming in Lake Victoria. While aquaculture is the subject of my current research, my broader interests span natural resource management (NRM) economics, agriculture and environmental economics, land system science, and food systems resilience. Before graduate school, I spent five years at the International Centre for Tropical Agriculture (CIAT), supporting the design and execution of large-scale impact assessments and leading the setup of data systems for the Africa research team. I have been a fellow at Environment for Development (EfD) Kenya since 2017, contributing to applied water and resource economics research.
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Cliona O Doherty
Postdoctoral Scholar, Psychology
BioClíona is a postdoc with Cameron Ellis’ Scaffolding of Cognition Team and Dan Yamin’s NeuroAILab. She earned her PhD from Trinity College Dublin, where she worked on developing cognitive computational methods for infant neuroimaging with Prof. Rhodri Cusack. Her bachelor’s degree in Neuroscience was also completed at Trinity College Dublin. Clíona is interested in how human infants learn to be so intelligent with such efficiency, how this can be modelled using the latest advances in AI, and how these methods can inform our understanding of the developing mind.
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Dáibhid Ó Maoiléidigh, PhD
Assistant Professor of Otolaryngology - Head & Neck Surgery (OHNS)
Current Research and Scholarly InterestsThe Ó Maoiléidigh group employs mathematical and computational approaches to better understand normal hearing and hearing impairment. Because complete restoration of auditory function by artificial devices or regenerative treatments will only be possible when experiments and computational modeling align, we work closely with experimental laboratories. Our goal is to understand contemporary experimental observations, to make experimentally testable predictions, and to motivate new experiments. We are pursuing several projects.
Hair-Bundle Mechanics
Auditory and balance organs rely on hair cells to convert mechanical vibrations into electrical signals for transmission to the brain. In response to the quietest sounds we can hear, the hair cell's mechanical sensor, the hair bundle, moves by less than one-billionth of a meter. To determine how this astounding sensitivity is possible, we construct computational models of hair-bundle mechanics. By comparing models with experimental observations, we are learning how a hair bundle's geometry, material properties, and ability to move spontaneously determine its function.
Cochlear Mechanics
The cochlea contains the auditory organ that houses the sensory hair cells in mammals. Vibrations in the cochlea arising from sound are amplified more than a thousandfold by the ear's active process. New experimental techniques have additionally revealed that the cochlea vibrates in a complex manner in response to sound. We use computational models to interpret these observations and to make hypotheses about how the cochlea works. -
Connor Galen O'Brien
Postdoctoral Medical Fellow, Cardiovascular Medicine
BioDr. O'Brien is a native of Menlo Park, CA. He attended medical school at Columbia University College of Physicians and Surgeons. At Columbia he was elected to both Alpha Omega Alpha and Gold Humanism Honors Societies. He completed an Internal Medicine residency as well as fellowship in Cardiovascular Medicine at Stanford University. In his third year of fellowship, he was selected Chief Cardiology Fellow.
He is currently a post-doctoral fellow performing regenerative medicine research, specifically studying the role of exosomes in treating cardiomyopathy. In addition to his basic science research, he is also involved in human clinical trials investigating the role of stem cells in treating various forms of cardiomyopathy.
