Search Results

Search Results for “research labs”.

  • Seattle Children’s Innovative Technologies Lab

    SCITL is dedicated to using, advancing and developing everyday technologies for improving the lives of children with autism spectrum disorder and other developmental disabilities. Learn more about our mission, areas of work, and how to participate in our research studies.

  • Kelly Evans Lab

    The Kelly Evans lab investigates sleep and breathing in children born with craniofacial conditions, with the goal of improving outcomes in patients with conditions affecting the airway’s function.

  • f1-hybrid-bl6bl-swiss-feederless-es-cell-line.pdf

    F1 Hybrid Bl6/Bl-Swiss Feederless ES Cell Line Brief description Robust F1 hybrid embryonic stem cell line from Mus musculus (lab mouse), generated by crossing C56BL/6J mice to Black-Swiss mice. This ES cell line does not require feeder cells for propagation and readily transmits through

  • Aderem Lab

    Scientists in the Aderem Lab are studying innate responses to HIV, tuberculosis, influenza, and other pathogens that significantly impact global health. Our goal is to define the mechanisms that result in a successful immune response to infection or vaccination and identify targets for therapeutic intervention.

  • Orentas Lab

    The Orentas Lab investigates how the immune system and CAR T-cell immunotherapies can be leveraged to fight childhood childhood cancers like rhabdomyosarcoma, osteosarcoma, Ewing’s sarcoma and neuroblastoma.

  • Aldinger Lab - Center for Integrative Brain Research

    The Aldinger Lab uses developmental neuroscience and computational approaches to decipher the mechanisms that cause pediatric neurogenetic disorders and pathologies associated with structural brain changes, cognitive impairment, and epilepsy.

  • nod-shiltj-feederless-es-cell-line.pdf

    Brief description NOD /ShiLtJ Feederless ES Cell Line Embryonic stem cell line from the non-obese diabetic (NOD) strain of Mus musculus (lab mouse). This ES cell line has a pure NOD genetic background and does not require feeder cells for propagation. Applications � Direct generation of animals

  • Minkah Lab - Center for Global Infectious Disease Research

    The primary goal of the Minkah lab is to discover and define mechanisms that dictate the generation of durable, protective liver-resident memory T cell responses. Observations from our studies will guide the rational design of highly efficacious malaria vaccines and immune-directed therapies against hepatic maladies.

  • PE3328 Cerebral Palsy Resources

    Research Network cprn.org Seattle Children’s Research Institute (SCRI) seattlechildrens.org/research/centers-programs/child-health-behaviorand-development University of Washington Steele Lab. Mobility engineering and design steelelab.me.uw.edu Disclaimer: The inclusion of any website link, or resource

  • Publication Q&A: TGFβ Restricts Expansion, Survival and Function of T Cells Within the Tuberculous Granuloma

    The Urdahl Lab shares insights from a recent paper in Cell Host & Microbe. Findings uncovered a localized immunosuppressive mechanism associated with Mycobacterium tuberculosis infection and provide potential targets for host-directed therapy.