Published Medical Prevention of Tumor Seeding We showed that this procedure prevented tumor seeding during needle biopsies in two subcutaneous tumor models. By Johns Hopkins University
Published Healthcare & Pharmaceuticals Autoantibodies This novel biomarker has potential implications for disease monitoring and highlights an unappreciated role of a PAD family member. By Johns Hopkins University
Published Medical Immortalized Human Schwann Cel This study shows that, using specific immortalization techniques, it is possible to establish hSC lines that retain characteristics of typical primary hSCs. By Johns Hopkins University
Published Medical Eye Drop Technology eye drop solutions with these the inventive biomaterials can prolong the biological and physical benefits to the ocular surface and be generally more efffective. By Johns Hopkins University
Published Defence Controllable Structural Metal This technology allows one to control the mechanical strength of the solid structure and the size and reactivity of the resulting fragments. By Johns Hopkins University
Published Power & Utilities Metal Nanoparticle Catalysts The advantage of these nanoparticles over films is an increased surface area and therefore more catalytic surface to aid the reactions of interest. By Johns Hopkins University
Published Medical A Mouse Model of Hemophilia A The mice recapitulate key features of hemophilia A and provide an excellent model for use in exploring gene therapy strategies. By Johns Hopkins University
Published Medical Novel Antibody to The ERβ Novel mERβ antisera addresses this lack of specific antisera against mERβ protein. It will allow investigators to explore the cellular and physiological role of ERβ. By Johns Hopkins University
Published Medical Neurotoxicity Surpressed Mole It can be used to screen for compounds that can reduce neurotoxicity of JPH3 RNA. The cells specifically model RNA toxicity, in the absence of any toxic protein expression. By Johns Hopkins University
Published Medical Inactivated GLUT1 Genes This tangible material can serve as an important research tool for studying the fundamental attributes of the micro-environments surrounding cancerous cells. By Johns Hopkins University
