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Research Lab Results for materials science

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  • Kunisaki Lab

    Principal Investigator:
    Shaun Kunisaki, M.D., M.Sc.
    Surgery

    The Kunisaki lab is a R01-funded regenerative medicine group within the Division of General Pediatric Surgery at Johns Hopkins that works at the interface of stem cells, mechanobiology, and materials science. We seek to understand how biomaterials and mechanical forces affect developing tissues relevant to pediatric surgical disorders. To accomplish these aims, we take a developmental biology approach using induced pluripotent stem cells and other progenitor cell populations to understand the cellular and molecular mechanisms by which fetal organs develop in disease.


    Our lab projects can be broadly divided into three major areas: 1) fetal spinal cord regeneration 2) fetal lung development 3) esophageal regeneration


    Lab members: Juan Biancotti, PhD (lab manager); Lynn Zhou, PhD (postdoc), Shelby Sferra, MD, MPH (postdoc); Annalise Penikis, MD (postdoc)


    Recent publications:
    Kunisaki SM, Jiang G, Biancotti JC, Ho KKY, Dye BR, Liu AP, Spence JR. Human indu...ced pluripotent stem cell-derived lung organoids in an ex vivo model of congenital diaphragmatic hernia fetal lung. Stem Cells Translational Medicine 2021, PMID: 32949227


    Biancotti JC, Walker KA, Jiang G, Di Bernardo J, Shea LD, Kunisaki SM. Hydrogel and neural progenitor cell delivery supports organotypic fetal spinal cord development in an ex vivo model of prenatal spina bifida repair. Journal of Tissue Engineering 2020, PMID: 32782773.


    Kunisaki SM. Amniotic fluid stem cells for the treatment of surgical disorders in the fetus and neonate. Stem Cells Translational Medicine 2018, 7:767-773

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    Research Areas: fetal therapy, stem cells, pediatric surgery, tissue engineering, congenital diaphragmatic hernia, myelomeningocele
  • Yarema Laboratory

    Lab Website

    The Yarema Lab uses chemical biology, molecular and cell biology, and materials science methods to study and manipulate glycosylation. The goal of our research is to better understand human disease while furthering carbohydrate-based therapies. Our laboratory's research goals are to (1) Develop sugar analogs into viable and versatile drug candidates, (2) Apply metabolic glycoengineering to tissue engineering and stem cell research, (3) Use non-invasive magnetic stimuli to probe the effects of glycoengineering (and also to treat neurological disorders), and (4) Extend our sugar-based drug candidates into animal models and the clinic

    Research Areas: carbohydrate-based therapies, chemical biology, stem cells, cell biology, materials science, neurological disorders, molecular biology
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