Stanford University
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Antonio Tomasso
Postdoctoral Scholar, Plastic and Reconstructive Surgery
BioAntonio Tomasso is an NWO Rubicon Postdoctoral Scholar. As part of his MSc in Medical Molecular and Cellular Biotechnology at Vita-Salute San Raffaele University, he explored the immunomodulatory and neurotrophic roles of neural stem cells (NSCs) following spinal cord injury. As a Research Assistant at Karolinska Institute, he delved into the signaling pathways required for NSC activation and migration after spinal cord injury, and the limited regenerative abilities of mouse and human heart.
During his PhD, he investigated the molecular mechanisms of tissue regeneration in planarians, axolotls and spiny mice. He conducted research as a Visiting Fellow at the University of Kentucky and the Hubrecht Institute.
His research demonstrated that MAPK/ERK signaling acts as a molecular switch between regeneration and fibrosis in adult mammals and can be activated to stimulate a regenerative response, including new hair follicle formation, in scarring wounds.
He contributed to a pioneering study showing that spiny mice can recover heart function after infarct through enhanced angiogenesis, ECM remodeling and epicardium regeneration. He also played a key role in spatial transcriptomic studies that defined regenerative and fibrotic gene signatures in spiny mice, laboratory mice and gerbils.
He earned a PhD cum laude in Molecular and Cellular Life Sciences at the Max Planck Institute for Molecular Biomedicine.
He has been awarded an NWO Dutch Research Council Rubicon Postdoctoral grant to conduct research on the molecular drivers of fibroblast activation in wound healing and organ fibrosis.
His ultimate research aim is to crack the code of tissue regeneration and rejuvenation, reversing organ scarring and preventing fibrosis in injuries and pathological conditions, through the identification of therapeutic targets for enhanced tissue repair and functional recovery.
Driven by his innate curiosity and passion for science, he loves tackling new challenges, thinking outside the box, and building interdisciplinary collaborations to push forward the boundaries of knowledge.
His career goal is to serve as a group leader, fostering a collaborative environment where everyone can thrive, achieve their goals and leave a lasting impact through community-building and scientific discoveries for the benefit of humankind. -
Lauren Tompkins
Associate Professor of Physics
Current Research and Scholarly InterestsProfessor Tompkins’s research focuses on understanding the relationships which govern matter’s most fundamental constituents. As a member of the ATLAS experiment at the Large Hadron Collider (LHC), she utilizes the world’s highest energy person-made particle collisions in order to understand the mechanism that gives particles mass, whether or not our current model of elementary particle interactions is a complete description of nature, and if dark matter can be produced and studied in colliders.
In order to search for the exceedingly rare interactions which may provide insight to these questions, the LHC will produce a blistering rate of 50 to 80 proton-proton collisions every 25 nanoseconds in 2015 and beyond. Professor Tompkins works on the design and implementation of custom electronics which will improve the ATLAS experiment’s ability to pick out the collisions which produce the Higgs bosons, dark matter particles and other rare events out of the deluge of ordinary interactions. Her group focuses on particles called heavy flavor fermions, the most massive particles not responsible for mediating interactions. Because they are so heavy, they may have a special connection to the origin of mass or physics beyond our current models of particle interactions.
She is additionally a member of the Light Dark Matter Experiment (LDMX), a proposed experiment to produce and detect dark matter in the laboratory utilizing an accelerated beam of electrons, and the Heavy Photon Search Experiment, which searches for visible decays of dark photons.
Please see her group website for a full description of her research activities.
