School of Medicine
Showing 21-40 of 95 Results
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Koji Kawago
Postdoctoral Scholar, Cardiothoracic Surgery
Current Research and Scholarly InterestsWe propose a unique perfusion solution for Donation after Brain Death (DBD) and Donation After Cardiac Death (DCD) heart grafts.We will investigate the optimal timing and frequency of administration after retrieving the cardiac graft and achieve preclinical proof-of-concept of this perfusion solution for DBD and DCD cardiac graft using a heterotopic heart transplantation model.
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Yujiro Kawai
Postdoctoral Scholar, Cardiothoracic Surgery
Current Research and Scholarly InterestsCardiovascular surgery, Translational research, Regenerative research, Heart failure, Tissue engineering, Heart transplant, Spinal cord ischemia, iPS cell,
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Danish Khan
Postdoctoral Scholar, Biochemistry
BioDanish is an accomplished researcher who has been working as a postdoctoral research associate at Prof. Onn Brandman's Lab at the Department of Biochemistry for approximately 3.5 years. His primary area of research revolves around unraveling the intricate mechanisms of eukaryotic protein quality control and stress response pathways. Danish's scientific journey at Stanford began as a post-doc under the supervision of Prof. Georgios Skiniotis where he worked briefly before joining Prof. Onn Brandman's group, motivated by his strong interest in investigating ribosome-associated quality control (RQC) pathways and the fascinating phenomenon of "CAT tails," which involves the addition of amino acids to a protein without an mRNA template.
Motivated by a desire to comprehend how defects in RQC pathways contribute to the development of neurodegenerative diseases in humans, Danish aspires to develop therapeutic interventions for these conditions. Within the Brandman lab, Danish has achieved many accomplishments: he has a first author preview published in Journal of Cell Biology, a second author paper in the eLife journal and a middle author publication in Nature Communications. Currently, Danish is working on two manuscripts that disclose novel and groundbreaking findings concerning the determinants and consequences of CAT tailing in eukaryotes. At Stanford, Danish was awarded the Dean's Fellowship (Bernard Cohen Post Doctoral Fellowship Fund) and Mikitani Cancer Research Fellowship.
Prior to his time at Stanford, Danish earned his PhD from Texas A&M University at College Station, TX. During his doctoral studies, he delved into the chemical inhibition of a lipid signaling protein, leading to the discovery of a remarkable heme-binding lipid transfer protein. Danish's exceptional work during his graduate school tenure resulted in the publication of three first-author papers in renowned journals such as eLife, Cell Chemical Biology, and the Journal of Lipid Research. Additionally, he made valuable contributions as a middle author to five additional papers. Danish's incredible productivity at Texas A&M was recognized by the 'John Mack Prescott Award For Outstanding Research'.
Danish's academic journey commenced with a Bachelor's degree in Biochemistry from Presidency College, Kolkata (University of Calcutta), India where he ranked second in college and fourth in university. He then obtained his Master's degree in Biotechnology from Banaras Hindu University in India on Government of India's DBT Fellowship having obtained an All India Rank of 94. Outside of his scientific pursuits, Danish harbors an interest in law and the intersection between law and technology, often immersing himself in related literature. -
Pik Fang Kho
Postdoctoral Scholar, Cardiovascular Medicine
BioI obtained my PhD in genetic epidemiology at Queensland University of Technology (Australia), where my research was focused on using genetic and genomic approaches to identify risk factors for endometrial cancer. During my graduate studies, I gained experience in large-scale genetic association studies and leveraging the correlation between diseases in genetic studies to identify novel genetic variants associated with endometrial cancer. I also developed expertise in various statistical genetic approaches in multi-omics data, including fine-mapping and colocalization analyses, to prioritize candidate causal variants and genes. I also gained extensive experience in genetic causal inference analysis to infer causality between risk factors and health outcomes.
My research focus since moving to Stanford has been the identification of genetic and non-genetic determinants of cardiometabolic diseases. I am currently involved in projects including large-scale genetic association studies, multi-trait analysis with correlated traits, development and validation of polygenic risk scores, integrative analyses with multi-omics data, as well as Mendelian randomization analyses to advance our understanding of the genetic and environmental factors that contribute to cardiometabolic diseases. -
Abbas Khojasteh
Postdoctoral Scholar, Neurology and Neurological Sciences
BioHis current medical study and research at Stanford is directed towards applying early detection strategies to the treatment of brain tumors and reversing the damaging side effects of treatment-related brain injury. He received his Ph.D from Zurich University and completed postdoctoral neurosurgery training at Duke University where he was studying experimental models of neuro modulation of glycemia and immune system in infectious diseases and inflammatory disorders. He evaluated the Electrical modulation efficacy in ongoing inflammation and hyperglicemia under different conditions, such as somatotopy organizations, disease states and intensities (electrical current/potential); and he recognized different neuro fibers controlling inflammation and glycemia networks. He pushed further his idea to find out whether regulation of glycemia and inflammation by electricity is dependent on central processing and to discover a new mechanism controlling insulin production. For this novel study, he performed Spinal Cord surgery. Also, as a bioengineer, his previous research focused on drug discovery, cell biology and cell cultivation techniques for optimization of growth and bioengineering parameters in bioreactors. He has experience in expression of therapeutic antibodies and production of secondary metabolites in mammalian and plant cell cultivations for therapeutics and diagnostics aims.
