School of Medicine
Showing 2,901-2,950 of 4,405 Results
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Danielle Osburg
Adm Svcs Admstr 2, Stanford Laboratory for Cell and Gene Medicine
Current Role at StanfordAt the Laboratory for Cell and Gene Medicine (LCGM), I provide administrative and operational support:
- Develop, lead and engage stakeholders in process improvement procedures and initiatives that further promote the lab culture, vision and mission.
- Implement and liaison on HR functions including recruitment, hiring, onboarding and orienting, transitions, and separations.
- Construct and ensure unit policies align with University, Department and Division initiatives, policies and guidelines.
- Manage and create communication platforms and content, sharing lab and campus wide initiatives and events; health and wellness, development offerings, affinity groups, and DEIJ.
- Generate, build and implement innovative organization systems and solutions for data management and reporting.
- Perform finance and travel transactions; STAP, P-Card, T-Card, Expense Reporting, and Procurement.
- Promote a positive culture, experience and development through the creation and coordination of in-lab training opportunities on a wide range of subjects; e.g., Wellness, Communication, Psychological Safety, Interviewing Skills -
Juan J. Cardona, M.D.
Visiting Instructor, Neurosurgery
BioJuan J. Cardona, M.D. completed his medical school education at Institución Universitaria Visión de las Américas in the “coffee axis” in Pereira, Colombia. During this time, he led the neurosciences research group focusing on neuroanatomy, co-founded a student interest group devoted to promoting early exposure in surgical specialties of interest, completed national and international sub-internships in neurosurgery and neurology, and pioneered clinical electives centered on neurosurgery at the end of his internship. He was instrumental in advancing research practices at his university, where he held the positions of both Director of Scientific Development and Research in Surgical Sciences.
After graduating and being determined to pursue a neurosurgery residency in the United States, he honed his English skills at Florida Atlantic University before undertaking postgraduate medical education. Posteriorly, he delved into the investigative paradigm termed “reverse translational anatomy research” during his Clinical Anatomy Fellowship at the Department of Neurosurgery at Tulane University, where he dedicated two years to advanced training and research on neurosurgical anatomy under the mentorship of Dr. R. Shane Tubbs and Dr. Joe Iwanaga. Throughout his tenure, he actively participated within the department and completed a clinical and surgical observership at East Jefferson General Hospital in New Orleans under the guidance of Dr. Aaron S. Dumont and Dr. Johnny Delashaw. Subsequently, he joined the Clinical Neuro-Oncology Laboratory at the Department of Neurosurgery at Stanford University to study the indications and outcomes of stereotactic radiosurgery as a noninvasive treatment modality under the leadership of Dr. Steven D. Chang and Dr. David J. Park.
His diverse interests span all areas of neurosurgery, particularly in cerebrovascular, endovascular, and skull base surgery, peripheral nerve disease, CNS and PNS tumors, and cutting-edge neurosurgical techniques. Such interests have led to his authorship or co-authorship of over 50 peer-reviewed publications. Moreover, this work has resulted in 23 national and international presentations, where he has received multiple awards. In addition, he has served as an invited reviewer for numerous peer-reviewed articles across five leading journals and was a support reviewer for Chapter 47 in the 43rd edition of Gray’s Anatomy. -
Jennifer Yi-Jiun Pan
Clinical Assistant Professor (Affiliated), Medicine - Med/Gastroenterology and Hepatology
Staff, Medicine - Med/Gastroenterology and HepatologyBioMy research interests thus far have focused on immunology, GI cancers, and improving quality of care for patients. I am passionate about understanding the different genetic and lifestyle factors that are involved in GI cancers and other colonic pathology, as well as improving systems of care to better manage the health and improve the outcomes of patients with these diseases. Towards that end, I have been involved in research in Lynch syndrome in order to bridge the gap between our current understanding of cancer risk in this high-risk population and the creation and implementation of guidelines worldwide. I also had the opportunity to work with collaborators in the International Mismatch Repair Consortium at the Department of Colorectal Medicine and Genetics with the Royal Melbourne Hospital in Australia where I saw firsthand the global efforts in the fight against colorectal cancer. In my current role as a staff gastroenterologist at the VA Palo Alto, I oversee the colorectal cancer prevention program. My goal is to continue to be part of and contribute to collaborative clinical and research efforts in order to provide the best care for our patients.
Professional Education:
- Fellowship: Stanford University--Gastroenterology (2016)
- MS: Stanford University--Epidemiology and Clinical Research (2016)
- Residency: Yale-New Haven Hospital--Internal Medicine (2013)
- MD: University of Texas Southwestern Medical Center (2010)
- AB: Harvard College--Biochemical Sciences (2006)
Honors and Awards:
- American College of Gastroenterology North American International GI Training Grant (2016)
Professional Memberships:
- American Gastroenterological Association
-- Delegate, AGA Trainee and Early Career GI Committee (2016-2018)
-- Regional Planner, AGA Regional Practice Skills Workshop – California (2016-2017)
- Northern California Society for Clinical Gastroenterology2014 – Present
-- Education and Trainee Committee (2021-Present)
-- Communications Committee (2021-Present)
Selected NCBI Bibliography: https://www.ncbi.nlm.nih.gov/myncbi/jennifer.pan.1/bibliography/public/ -
Vijay Pande
Adjunct Professor, Structural Biology Department
BioVijay Pande, Henry Dreyfus Professor of Chemistry and, by courtesy, of Structural Biology and Computer Science, also currently directs of the Stanford Program in Biophysics and the Folding@home Distribtued Computing project. His research centers on novel cloud computing simulation techniques to address problems in chemical biology. In particular, he has pioneered distributed computing methodology to break fundamental barriers in the simulation of protein and nucleic acid kinetics and thermodynamics. As director of the Folding@home project (http://folding.stanford.edu), Prof. Pande has, for the first time, directly simulated protein folding dynamics, making quantitative comparisons with experimental results, often considered a “holy grail” of computational biology. His current research also includes novel computational methods for drug design, especially in the area of protein misfolding and associated diseases such as Alzheimer’s and Huntington’s Disease.
Professor Pande studied physics at Princeton University (B.A. 1992), where he was first introduced to biophysical questions, especially in undergraduate research with Nobel Laureate P. Anderson. His doctoral research in physics under Profs. T. Tanaka and A. Grosberg at MIT (Ph.D. 1995) centered on statistical mechanical models of protein folding, suggesting new ways to design protein sequences for stability and folding properties. As a Miller Fellow under Prof. D. Rokhsar at UC Berkeley, Prof. Pande extended this methodology to examine atomistic protein models, laying the foundations for his work at Stanford University. Among numerous awards, Prof. Pande has received the Biophysical Society’s Bárány Award for Young Investigators and Protein Society’s Irving Sigal Young Investigator Award, and was named to MIT’s TR100 and elected a Fellow of the American Physical Society.
The Pande research group develops and applies new theoretical methods to understand the physical properties of biological molecules such as proteins, nucleic acids and lipid membranes, using this understanding to design synthetic systems including small-molecule therapeutics. In particular, the group examines the self-assembly properties of biomolecules. For example, how do protein and RNA molecules fold? How do proteins misfold and aggregate? How can we use this understanding to tackle misfolding related degeneration and develop small molecules to inhibit disease processes?
As these phenomena are complex, spanning molecular to mesoscopic lengths and nanosecond to millisecond timescales, the lab employs a variety of methods, including statistical mechanical analytic models, Markov State Models, and statistical and informatic methods. Other tools include Monte Carlo, Langevin dynamics, and molecular dynamics computer simulations on workstations and massively parallel supercomputers, superclusters, and worldwide distributed computing. The group has also done extensive work in the application of machine learning, pioneering traditional and deep learning approaches to cheminformatics, biophysics and drug design.
For example, simulations in all-atom detail on experimentally relevant timescales (milliseconds to seconds) have produced specific predictions of the structural and physical chemical nature of protein aggregation involved in Alzheimer’s and Huntington’s diseases. These results have fed into computational small molecule drug design methods, yielding interesting new chemical entities.
Since such problems are extremely computationally demanding, the group developed a distributed computing project for protein folding dynamics. Since its launch in October 2000, Folding@Home has attracted more than 4,000,000 PCs, and today is recognized as the most powerful supercluster in the world. Such enormous computational resources have allowed simulations of unprecedented folding timescales and statistical precision and accuracy. For more details, please visit http://pande.stanford.edu. -
Heather Ryan Pankow
Life Science Rsch Prof 2, Psych/General Psychiatry and Psychology (Adult)
Current Role at StanfordLife Science Research Professional 2 in The Depression Research Clinic
