School of Medicine
Showing 1,201-1,210 of 1,556 Results
-
Ashley Styczynski
Adjunct Clinical Assistant Professor, Medicine - Infectious Diseases
BioAshley Styczynski, MD, MPH, is an Adjunct Clinical Assistant Professor in the Division of Infectious Diseases & Geographic Medicine and Global Health Faculty Fellow, and a Medical Officer in the International Infection and Control Branch at the Centers for Disease Control and Prevention (CDC). Dr. Styczynski's research interests are in infectious disease epidemiology, global health, emerging infections, and antimicrobial resistance. She holds an MPH from Johns Hopkins Bloomberg School of Public Health and an MD from University of Illinois at Chicago. Prior to coming to Stanford for her infectious disease fellowship, she spent two years as an Epidemic Intelligence Service (EIS) Officer at the CDC. During her time as an EIS officer, Dr. Styczynski conducted outbreak investigations on Zika virus, vaccinia virus, and rabies. She is currently conducting research on antimicrobial resistance and interventions to reduce nosocomial infections within low-resource healthcare facilities globally.
List of publications: https://www.ncbi.nlm.nih.gov/myncbi/ashley.styczynski.1/bibliography/public/ -
Shih-Po Su
Postdoctoral Scholar, Ophthalmology
BioDr. Shih-Po Su is a Postdoctoral Research Fellow in the Department of Ophthalmology at Stanford University. He earned his Ph.D. in Biomedical Engineering from National Yang Ming Chiao Tung University (NYCU), Taiwan, in 2024. His doctoral research focused on the development of advanced optical imaging systems, including a three-dimensional near-infrared fluorescence and photoacoustic vascular imaging platform for preclinical applications.
Dr. Su has over a decade of experience in biomedical imaging, integrating optical system design, image analysis, and in vivo disease modeling. His research interests center on the interface of optical engineering and translational medicine, particularly in retinal ganglion cell (RGC) imaging and neuroprotective strategies for glaucoma. At Stanford, he is extending his expertise to short-wave infrared (SWIR/NIR-II) imaging and in vivo retinal functional imaging to establish sensitive biomarkers for neurodegeneration.
His recent work has advanced optical imaging and NIR-II contrast agents, including the co-development of polymer-dot probes for three-dimensional tumor and bone imaging (Chemical Science, 2022; Advanced Healthcare Materials, 2021) and an ultrabright polymer-dot platform for rotational stereo imaging (Advanced Healthcare Materials, 2024). He also designed integrated small-animal imaging systems combining bioluminescence tomography and ultrasound, as well as rotational stereo NIR-II fluorescence imaging (Optics Express, 2024; Journal of Biomedical Optics, 2023; Biosensors, 2022).
Dr. Su has received multiple international recognitions, including the Taiwan Science and Technology Hub@Stanford Postdoctoral Fellowship (2024), First Prize in the NYCU Annual Thesis Competition (2023), the Future Tech Award (MOST, 2022), and the MOST Pilot Scholarship Program (2019). His long-term goal is to develop regenerative medicine–based imaging and therapeutic platforms to address unmet clinical needs in neurodegenerative diseases and vision restoration. -
Barathi Subramanian
Postdoctoral Scholar, Pathology
BioMy research lies at the intersection of computer vision and deep learning, focusing on the development of intelligent systems to advance large-scale image analytics in computational pathology, emphasizing histopathology-based survival analysis, whole slide image classification, and multi-modal representation learning. Through this research, I aim to bridge perceptual understanding and medical reasoning, enabling models to achieve high predictive accuracy and offer clinically interpretable insights for precision medicine.
-
Sriram Sudarsanam
Postdoctoral Scholar, Neurosurgery
BioSriram is broadly interested in how cellular interactions shape neurodevelopment. He completed his undergraduate studies at the Indian Institute of Science, and Masters at the Weizmann Institute. His doctoral research in Alex Kolodkin’s laboratory at Johns Hopkins addressed the development of idiosyncratic axonal arborization patterns of cortical neurons. He developed genetic strategies to visualize and perturb sparse populations of neurons in the mouse brain, using which he identified novel molecular and cellular determinants of spatially-restricted axon branching in vivo.
Now, as a postdoctoral scholar in Brad Zuchero's laboratory, Sriram is working to develop novel genetic tools to observe and perturb neuron-oligodendrocyte interactions in vivo. In collaboration with Ivan Soltesz’s laboratory, he aims to employ these tools to understand how myelination regulates neural circuit assembly and function.
