Pediatrics
Showing 1-100 of 107 Results
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Meghali Aich
Postdoctoral Scholar, Neonatal and Developmental Medicine
BioMy research interest lies in understanding how environmental factors contribute to neurodevelopmental disorders and translating those insights into therapies. Aligned with this, my current research in Dr. Anca Pasca’s lab at Stanford focuses on how reductive stress associated with maternal metabolic syndrome affects fetal brain development.
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Karoline Marie Bornemann
Postdoctoral Scholar, Cardiology
BioKaroline-Marie Bornemann, PhD, is a biomedical engineer interested in cardiovascular flows, specifically the computational modeling of heart valves using fluid-structure interaction simulations. Her current postdoctoral research in the Marsden lab at Stanford University focuses on the simulation of congenital valve pathologies and valve repair in pediatrics working with Alexander D. Kaiser, Alison Marsden and Michael Ma. She obtained her PhD in Biomedical Engineering from the University of Bern where she investigated instability mechanisms leading to laminar-turbulent transition past bioprosthetic aortic valves with Dominik Obrist and Peter Schmid. During her PhD, she performed a secondment at KTH Royal Institute of Technology collaborating with Ardeshir Hanifi and Dan Henningson assessing the stability of flow fields past valve prostheses. Visualizations of her PhD research were showcased in a winning entry of the Gallery of Fluid Motion 2024 and her PhD thesis won the GCB Best PhD Thesis 2024 Award.
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Xi Ying Amanda Chen
Postdoctoral Scholar, Stem Cell Transplantation
BioDr. Chen completed a Bachelor of Science (Honours) at the University of Sydney (NSW, Australia), with majors in Molecular Biology and Immunobiology. She graduated with the University Medal for her Honours research project where she investigated the novel role of DNA damage repair machinery on telomerase recruitment to telomeres. She then undertook her graduate studies at the Peter MacCallum Cancer Centre (The University of Melbourne, VIC, Australia) in the Beavis laboratory, where she developed a CRISPR knock-in strategy to engineer armored CAR T cells to express therapeutic payloads in a tumor-restricted manner. She joined the Porteus laboratory in the Department of Pediatrics at Stanford University in March 2025, where she is developing strategies to enhance gene-edited hematopoietic stem cell transplantation.
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Sujal Dave
Postdoctoral Scholar, Cardiology
BioSujal Dave, PhD, is a Postdoctoral Scholar in the Cardiovascular Biomechanics Computation Lab at Stanford University.
He recently completed his Ph.D. in Mechanical Engineering at the University of Calgary under the supervision of Dr. Artem Korobenko, where he developed consistent reduced order modeling frameworks for turbulent flows using variational multiscale methods and stabilized finite elements. His doctoral research advanced large-scale wind turbine wake simulations with applications to renewable energy and environmental flows. -
Daiana Fornes
Postdoctoral Scholar, Pulmonary
BioDaiana Fornes is a postdoctoral scholar at Stanford University, supported by a Maternal & Child Health Research Institute (MCHRI) Postdoctoral Fellowship. Her research centers on reproductive biology and pregnancy disorders, with a particular focus on uterine contractility, preterm labor, and uterine atony. She investigates calcium signaling pathways, including the role of TRPV4 ion channels, to identify novel therapeutic strategies aimed at improving maternal health outcomes.
Daiana earned her PhD from the University of Buenos Aires, where she studied metabolic alterations during pregnancy and their effects on fetal development. Her training has provided her with a strong foundation in translational research, with extensive experience in experimental design, molecular biology, and the analysis of signaling pathways. -
Benedikt Geier
Postdoctoral Scholar, Infectious Diseases
BioB.Sc. Biology, Ludwig Maximilian University (LMU), Munich/Germany (2013)
M.Sc. Biology and bioimaging, Ludwig Maximilian University (LMU), Munich/Germany (2015)
Ph.D., Animal-Microbe Symbioses, Max Planck Institute for Marine Microbiology in Bremen/Germany (2020)
Benedikt joined the Amieva Lab from Germany in 2022. During his B.Sc. and M.Sc. programs in zoology, he became fascinated with 3D imaging approaches to study small animal microanatomy. He spent his PhD developing in situ imaging approaches to study deep-sea symbioses and fell in love with studying host-microbe interactions. In the Amieva Lab, Benedikt will advance his previously developed correlative chemical imaging techniques to resolve metabolic and cellular interactions that drive H. pylori pathogenesis in the gastric glands.
More about Benedikt's transition from deep-sea microbiology into infectious disease research can be found here:
https://scopeblog.stanford.edu/2022/08/24/unconventional-paths-deep-sea-to-the-stomach/ -
Yingying Jin
Postdoctoral Scholar, Human Gene Therapy
BioYingying is a postdoctoral researcher at Kay Lab. She completed her PhD at Peking Union Medical College in China in 2024, under the supervision of Prof. De-Pei Liu. Her research focused on gene editing and ssDNA-protein interactions. During her PhD, she developed an innovative strategy to enhance HDR efficiency of ssDNA donors by incorporating HDR-boosting modules. In 2025, she joined Kay Lab, where her current work involves improving exogenous gene expression delivered by AAV through engineering the AAV genome.
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Aanchal Preet Kaur
Postdoctoral Scholar, Hematology-Oncology
BioDr. Aanchal Preet Kaur is a post-doctoral fellow in the Ramakrishna lab interested in understanding the role of myeloid cells in driving immunosuppression and resistance to CAR T cell therapies in pediatric patients with diffuse midline glioma. Her work involves developing organoid models to study the interaction of myeloid cells and CAR T cells and further employ these models to validate targets identified in patient single cell sequencing data using CRISPR technology.
Dr. Aanchal Preet Kaur received her PhD in Oncology at the University of Nottingham, United Kingdom where she focused on developing dendritic cell vaccines for melanoma. In her earlier post-doctoral work at Providence Cancer Institute with Dr. Michael Gough, she developed spheroid models to study the impact of radiation therapy on immune cell-cancer cell interactions. -
Mauro Lago Docampo
Postdoctoral Scholar, Cardiology
Current Research and Scholarly InterestsI have always been fascinated by the process of genetic penetrance, how two people can carry the same mutation but only one of them may be affected.
My main project focuses on understanding the role of TBX4 in the development of Pulmonary Arterial Hypertension (PAH). Mutations in this gene are related to very different diseases. In my research, I mix cellular models, gene editing, and high throughput assays to find the determinants of penetrance in the development of PAH under these conditions. -
Carmen Y.J. Lee
Postdoctoral Scholar, Neonatal and Developmental Medicine
Current Research and Scholarly InterestsWe will compare the processes of learning and intervention designs of two groups in the context of planning for a QI intervention. One group will utilize SD Group Model Building processes, and another will use the conventional KDD and RBA approaches. Qualitative and quantitative analytic approaches will be utilized to compare the learning processes and the intervention approach generated by these two groups. We anticipate that this study will lead to insights into new approaches to improving Q
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Yunkyeong Lee
Postdoctoral Scholar, Endocrinology and Metabolism
BioYun is a postdoctoral research scholar in the Translational Genomics of Diabetes Laboratory under the mentorship of Dr. Anna Gloyn. Since joining the lab in August 2022, she has been investigating type 2 diabetes (T2D) susceptible genes and their molecular mechanisms in pancreatic β-cell dysfunction and the development of T2D. Her primary focus is on how T2D effector transcripts alter autophagy/mitophagy pathways in human pancreatic β-cells, contributing to β-cell failure, mitochondrial dysfunction, and T2D pathology. She also investigated the impact of genetic mutations underlying neonatal diabetes using CRISPR HDR knockin genome editing in human induced pluripotent stem cell (hiPSC) models and their derivatives.
During her PhD, she explored the role of an epigenetic regulator and its molecular machinery in the pathogenesis of non-alcoholic fatty liver disease (NAFLD), now termed metabolic dysfunction-associated steatotic liver disease (MASLD). In parallel, she studied the interplay between endoplasmic reticulum (ER) stress-mediated unfolded protein response (UPR) signalling and autophagy, and examined how these processes are modulated by bioactive plant extracts in various cellular contexts.
She is particularly interested in exploring inter-organ communication, such as pancreas-liver-heart crosstalk, and how these interactions influence systemic metabolism and contribute to the onset and progression of T2D, along with its complications. Her long-term research goal is to advance our understanding of the cellular and molecular mechanisms driving T2D and to identify novel therapeutic targets and strategies. -
Devin Malloy McCauley
Postdoctoral Scholar, Adolescent Medicine
BioDevin McCauley earned his PhD in Human Development and Family Studies from The Pennsylvania State University in 2021, where his research applied intensive longitudinal methods and time-varying effect modeling to investigate family, school, and peer influences on adolescent mental health and well-being. A second focus of his research applies a developmental framework in study of adolescent e-cigarette use. He is particularly interested in identifying sociodemographic (e.g., race/ethnicity, sexual identity) disparities in risk factors for e-cigarette use. His long-term goal is to inform, develop, and evaluate family and school-based prevention programs which support healthy adolescent development and address health disparities related to e-cigarette use.
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Dhriti Nagar
Postdoctoral Scholar, Neonatal and Developmental Medicine
BioPremature birth is a leading cause of developmental and neuropsychiatric disorders in children. One of the factors causing these defects is lowered levels of available oxygen (hypoxia) in the newborn due to immature lungs. My research focuses on understanding the cellular and molecular mechanisms underlying hypoxia-induced developmental disorders of the nervous system due to preterm birth.
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Preethy Parthiban
Postdoctoral Scholar, Neonatal and Developmental Medicine
BioMy research centers on how the innate immune system shapes tissue remodeling in health and disease. During my PhD, I uncovered a key role for resident macrophages in driving cardiac fibrosis, identifying a macrophage-derived chemokine that directly activates cardiac fibroblasts. Building on this foundation, my postdoctoral work at Stanford focuses on neutrophil–macrophage crosstalk in disrupted alveolarization in neonatal mice and patients. By integrating cellular, molecular, and translational approaches, I aim to define how innate immune pathways orchestrate extracellular matrix remodeling. Ultimately, my goal is to identify critical therapeutic targets that improve outcomes in ECM-related diseases.
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Debarun Patra
Postdoctoral Scholar, Cardiovascular Institute
BioDebarun Patra is a postdoctoral researcher at Stanford Medicine, with a background in inflammation research. His research focuses on metabolic disease modeling and identifying novel therapeutic targets. His current work integrates inflammatory and metabolic diseases (IBD, MASH, and diabetes), using patient-derived iPS cells and primary cells, and employs advanced multi-omics.
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Prince Allawadhi
Postdoctoral Scholar, Gastroenterology, Hepatology, and Nutrition
BioMy research focuses on immune-stromal crosstalk in pancreatic diseases, with an emphasis on how myofibroblasts and macrophages drive inflammation, fibrosis, and multi-organ dysfunction. By integrating patient-derived organoids, zebrafish models, and multi-omics, I aim to unravel the cellular and molecular mechanisms underlying pancreatic injury and repair. I am developing cutting-edge zebrafish models of exocrine pancreas disorders to uncover novel immuno-fibrotic pathways and accelerate the identification of translational targets for early diagnosis and therapeutic intervention.
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Zachary Aaron Sexton
Postdoctoral Scholar, Cardiology
BioFocused on understanding cardiovascular physiology, disease, and tissue engineering through stem cell biology and hemodynamics. Specializes in 3D extrusion bioprinting and computational fluid dynamics (though an open-source software platform SimVascular) to improve tissue engineering strategies for the successful development of cardiac tissues for disease modeling and therapeutic solutions.
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Charmaine Fay Carcallas Soco
Postdoctoral Scholar, Stem Cell Transplantation
BioCommunity Engagement Liaison serving the Stanford University Postdoctoral Association (SURPAS)
Co-chair of JEDI-SURPAS
https://surpas.stanford.edu/about/the-surpas-leadership-team/ -
Chelse Spinner, PhD, MPH
Postdoctoral Scholar, Neonatal and Developmental Medicine
BioAn Ohio native, Dr. Chelse Spinner obtained a Bachelor of Science in Biological Sciences (Biomedical Studies) with a minor in Health Education from the University of Cincinnati. She earned a Master of Public Health in Epidemiology and Maternal & Child Health (MCH) from the University of South Florida. She received a Doctor of Philosophy in Public Health Sciences with a concentration in Behavioral Sciences from the University of North Carolina at Charlotte. Dr. Spinner is certified in public health and has experience working across health systems. Her research interests include health disparities, women’s health, social determinants of health, domains of structural racism, and oral-systemic health within the MCH population. She employs quantitative and qualitative methods in the hopes of providing innovative and evidence-informed research to improve health outcomes for marginalized and underserved communities. Her research agenda intends to focus on the exploration of social and structural factors that impact health and well-being.
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Bing Wang
Postdoctoral Scholar, Stem Cell Transplantation
BioMy academic training and research experience have equipped me with multidisciplinary skills and knowledge of molecular biology and immunology.
I led two projects when I was an undergraduate, in which I got primary academic learning. My team member and I investigated the bacteria content in drinking water from two types of machines that are commonly used in colleges under the guidance of our experimental microbiology teacher Zhihong Zhong. Secondly, we produced a hybridoma cell line secreting monoclonal antibody against the core antigen of the hepatitis C virus (HCV) to develop an ELISA kit for the detection of HCV under the guidance of Dr. Rushi Liu and Minjing Liao.
Thereafter, as a Ph. D. candidate at Xiaoming Feng’s lab, my research primarily focused on understanding the biology of regulatory T cells (Treg) and CD11c+ myeloid cells using cutting-edge single-cell sequencing and conditional knockout mice under healthy and disease conditions. We first revealed the heterogeneity and bifurcated differentiation pathway of human Tregs from normal donors and transplanted patients at the single-cell transcriptome level. A subsequent first and corresponding author publication identified a key innate responsive protein in CD11c+ alveolar macrophages, NRP2, that protects mice from lung injury via promoting the phagocytosis of neutrophils. I also participated in two projects regarding the role of a serine/threonine kinase, LKB1, in mice CD11c+ dendritic cells from lymphoid tissues and adipose tissue with diet-induced obesity. These academic experiences guided me into a strong passion and independent capacities for biomedical studies.
For my postdoctoral training, I will focus on developing Treg therapies and genetic stem cell therapy to cure patients with IPEX syndrome (a severe autoimmune disease) at preclinical and clinical stages, and other immune disorders. My sponsor Dr. Rosa Bacchetta is a well-known leader in treating IPEX patients and developing Treg therapies. My co-mentor Dr. Maria Grazia Roncarolo is a well-recognized pediatric immunologist and also one of the pioneers in the stem cell and gene therapy field, who discovered the type 1 regulatory T cells or Tr1 cells and translate the scientific discoveries into novel Treg therapies. Both of them have an excellent record of training postdoctoral fellows. The proposed projects will provide me with great opportunities in cutting-edge technology and translational research and outline a set of career development including grant writing, public presentation, and lab management, which will enhance my ability to become an independent investigator and help me to reach my goal of developing efficient and safe Treg therapies for a wide range of immune disorders and associated human diseases. -
Wenjun Wang
Postdoctoral Scholar, Stem Cell Transplantation
Current Research and Scholarly InterestsMy postdoctoral research focuses on investigating novel therapy for childhood leukemias.
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Chongyang Zhang
Postdoctoral Scholar, Cardiology
BioDr. Zhang is a Postdoctoral Scholar at RabLab in the cardiopulmonary division. She has a PhD in Pharmacology from University of Rochester, NY. She has research in cardiovascular research and chronobiology published in high impact peer-reviewed journals. She is recipient of honors including predoctoral fellowship from AHA, Travel Grant for Early Career Investigators from Council on Arteriosclerosis, Thrombosis, and Vascular Biology. She has served as ad hoc reviewer for more than 40 manuscripts for reputed journals.
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Lu Zhang
Postdoctoral Scholar, Endocrinology and Metabolism
BioLu is a postdoctoral research scholar in Dr. Anna Gloyn's Translational Genomics of Diabetes Lab. During her master's and doctoral studies, she focused on epigenomics and single-cell multi-omics analysis, with an emphasis on 3D genomics. Her research included developing Hi-Tag, a chromatin conformation capture technique designed for use with small cell samples. This method provides valuable insights into the organization of chromatin in the cell. She has built strong expertise in combining different types of biological data, including RNA-seq, ATAC-seq, chromatin interaction data, and single-cell data. She has contributed to several research projects as a co-author, including studies that used genome-wide association studies (GWAS) and GTEX data to connect multi-omics data with functional genomics. These experiences have helped her gain a deep understanding of how to integrate different types of genomic data to solve complex biological problems. Currently, Lu is focused on applying her research skills to diabetes.
