School of Medicine
Showing 12,401-12,420 of 12,906 Results
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Shiqin Xu
Senior Program Manager, HEART Lab, Medicine - Med/Cardiovascular Medicine
Current Role at StanfordSenior Program Manager, HEART Lab
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Yishan Xu, PhD, DBSM, CST
Adjunct Clinical Instructor, Psychiatry and Behavioral Sciences - Sleep Medicine
BioDr. Xu is a licensed clinical psychologist in California, a Board-certified Behavioral Sleep Medicine Specialist, and AASECT Board-Certified Sex Therapist. She currently serves as the chair of the OPEC committee for the Society of Behavioral Sleep Medicine. She completed training at the Stanford Sleep Medicine Center 2017-2019. She has specialized training in the diagnosis and treatment of insomnia, circadian rhythm disorders, parasomnias, nightmares, and adjustment to PAP therapy for sleep apnea.
Dr. Xu grew up in China and received her Ph.D. in Clinical Psychology from the University of Virginia, VA. She has adapted treatment for insomnia for the Chinese population, and translated the book “The Rested Child” into Chinese, which is the first evidence-based book about children and teen’s sleep disorders in China. She is the founder and director of a multicultural group practice in the SF Bay Area: Mind & Body Garden Psychology Inc. She also hosts a podcast "Deep into Sleep" to help bridge the gap between public awareness and knowledge of sleep problems and the science of sleep medicine.
Publications:
Xu, Y., Barwick, F. & Li, C.(2023). Cultural Considerations in Behavioral Sleep Medicine (BSM): Telehealth Group CBT-I for Patients from a Traditional Chinese Medicine (TCM) Hospital (Submitted)
Prislin, R., Davenport, C., Xu, Y., Moreno, R., & Honeycutt, N. (2018). From marginal to mainstream and vice versa: Leaders' evaluation of diversity while in the minority versus majority. Journal of Social Issues, 74 (1), 112-128.
Attin, M., Xu, Y., Lin, C. D., & Lemus, H. (2015). A potential impact of nursing characteristics prior to in-hospital cardiac arrest: a self-reported study. Journal of Clinical Nursing, 24 (23-24), 3736-3738.
Hu, Y., Xu, Y.,& Tornello, S. L. (2015). Stability of Self-Reported Same-Sex and Both-Sex Attraction from Adolescence to Young Adulthood. Archives of sexual behavior, 1- 9.
Xu, Y., & Ocker, B. (2013). Discrepancies in Cross-cultural and cross-generational attitudes toward committed relationships in China and the United States. Family Court Review, 51 (4), 591–604.
Tornello, S. L., Emery, R., Rowen, J., Potter, D., Ocker, B., & Xu, Y. (2013). Overnight custody arrangements, attachment, and adjustment among very young children. Journal of Marriage and Family, 75 (4), 871-885.
Horn, E. E., Xu, Y., Beam, C. R., Turkheimer, E. & Emery, E. (2012). The marriage benefit? A genetically-informed study of selection and causation. Journal of Family Psychology, 27 (1), 30-41.
Prislin, R., Boyle, S. M., Davenport, C., Farley, A., Jacobs, E., Michalak, J., Uehara, K., Zandian, F., & Xu. Y. (2011). On being influenced while trying to persuade: The feedback effect of persuasion outcomes on the persuader. Social Psychological and Personality Science, 2 (1), 51-58.
Li, j., Xu, Y., & li, X. (2009). Correlation between atypical eating disorder and body- esteem of college students. Chinese Journal of Clinical Psychology, 17, 345-347. -
Shin Yajima
Postdoctoral Scholar, Cardiothoracic Surgery
BioI am a board-certified cardiothoracic surgeon in Japan. Throughout my clinical experience and research, I realized that insufficient myocardial blood flow had little impact on myocardial functional recovery because percutaneous coronary intervention or coronary artery bypass grafting (CABG) could approach and supply blood flow to the superficial large coronary arteries, but not to intramyocardial microvascular arteries, especially where microvasculature was scarce or absent. Moreover, myocardial ischemia-reperfusion (I/R) impaired cardiac functional recovery in ischemic hearts, including transplanted hearts. As a result, my research interests include myocardial microvascular dysfunction and myocardial I/R injury.
During my Ph.D. studies in cardiovascular surgery, I focused on a prostacyclin analog that inhibits thromboxane A2 synthase and promotes angiogenesis and restores myocardial blood flow via proangiogenic and vasodilatory effects. Direct epicardial placement of a microform of this compound in a porcine ischemia cardiomyopathy model resulted in enhanced myocardial angiogenesis and recovery of myocardial function. Then, I developed nanoparticles (NPs) that contained this compound, which I applied to a rat ischemia myocardial reperfusion model with intravenous injection to demonstrate attenuated myocardial I/R injury with selective accumulation in the ischemic myocardium, better-preserved capillary networks, better-preserved myocardial blood flow, and a smaller infarct size. Using induced pluripotent stem cells (iPSCs) and adipose-derived mesenchymal stem cells, I have also worked on tissue engineering for myocardial regeneration. With direct implantation of cardiomyocyte sheets derived from human iPSCs onto ischemic myocardial tissue, we elucidated myocardial regeneration through thickened myocardial tissue, proangiogenic effects, improved cardiac performance, and reduced left ventricular remodeling in both small and large animals. These works have already been published (representative examples are provided below), and I have received a number of academic honors and research grants (ongoing research support; Japan Heart Foundation/Bayer Research Grant Abroad, 01/01/2022 - 12/31/2022).
My career goal is to attain leadership in academic cardiovascular surgery. During my postdoctoral fellowship, I intend to create novel therapeutic methods to improve the outcomes of ischemic heart disease through engineering analysis and the development of innovative solutions. My mentor, Dr. Woo, is a distinguished mentor with a stellar reputation for training academic surgeons, and Stanford University provides extraordinary research resources. I feel extremely fortunate to have such an ideal environment in which to carry out this project and continue bioengineering's advancement of cardiothoracic surgery.
