about
Spherical nucleic acid nanoparticle conjugates as an RNAi-based therapy for glioblastomaNanoshells for photothermal cancer therapy.Antibody-conjugated gold-gold sulfide nanoparticles as multifunctional agents for imaging and therapy of breast cancer.Nanoshell-mediated photothermal therapy improves survival in a murine glioma modelVascular-targeted photothermal therapy of an orthotopic murine glioma model.Elucidating the fundamental mechanisms of cell death triggered by photothermal therapy.Antibody-nanoparticle conjugates to enhance the sensitivity of ELISA-based detection methodsImmunonanoshells for targeted photothermal ablation of tumor cellsA new era for cancer treatment: gold-nanoparticle-mediated thermal therapies.The stabilization and targeting of surfactant-synthesized gold nanorods.Quantification of siRNA Duplexes Bound to Gold Nanoparticle Surfaces.Frizzled7 Antibody-Functionalized Nanoshells Enable Multivalent Binding for Wnt Signaling Inhibition in Triple Negative Breast Cancer Cells.Using Gold Nanoparticles To Disrupt the Tumor Microenvironment: An Emerging Therapeutic Strategy.Evaluating Nanoshells and a Potent Biladiene Photosensitizer for Dual Photothermal and Photodynamic Therapy of Triple Negative Breast Cancer CellsPolyethylenimine–Spherical Nucleic Acid Nanoparticles against Gli1 Reduce the Chemoresistance and Stemness of Glioblastoma CellsLayer-by-layer assembled gold nanoshells for the intracellular delivery of miR-34aSpherical Nucleic Acid Nanoparticles: Therapeutic PotentialEvaluating the Mechanisms of Light-Triggered siRNA Release from Nanoshells for Temporal Control Over Gene RegulationErratum to: Biomedical NanotechnologyNanoparticle-Mediated Co-Delivery of Notch-1 Antibodies and ABT-737 as a Potent Treatment Strategy for Triple-Negative Breast CancerNanoparticles for Manipulation of the Developmental Wnt, Hedgehog, and Notch Signaling Pathways in CancerLayer-by-layer assembled PLGA nanoparticles carrying miR-34a cargo inhibit the proliferation and cell cycle progression of triple-negative breast cancer cellsCancer Cell Membrane-Coated Nanoparticles for Cancer ManagementGold Nanoshell-Linear Tetrapyrrole Conjugates for Near Infrared-Activated Dual Photodynamic and Photothermal TherapiesBest Practices for Preclinical In Vivo Testing of Cancer NanomedicinesDesign of nanomaterials for applications in maternal/fetal medicine
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Q30577878-1807E05F-66D9-4483-A8E6-734CFA062A5DQ33539272-34F7FBD8-220E-4099-AC80-5DA735E44302Q33722013-3CC37BB6-805D-4DBF-96C0-31E797711B04Q33756444-4A30C2CC-C52E-4D0A-8BF3-29B248FF3487Q34268162-2BEED2E0-E697-484C-8C79-357B27B1B5B3Q35543113-4E9737B8-7FAF-45BB-901E-90C993682516Q36369268-2F05A51E-0825-4E7B-B5EC-BA1F24D5B5FCQ36717996-BFE93548-6B65-474F-8F4E-355BB2E00065Q37826694-6AE93230-350A-41FA-BBE1-474B2E15263FQ39791742-D35EBE6C-1821-4B7E-84DB-88B510D26752Q41382179-5FF164AF-1405-4A2A-85E9-CB8E0A58013CQ48093281-EE695B57-86A7-42F0-9061-03AFF3AAF980Q48888319-1E53CA5D-635F-4B36-B0BA-AF881D6E29D7Q58702509-E8A0712D-1DA0-43ED-AFAF-05B1D6B695E8Q62512396-509C97B5-6B6C-4426-8484-08AD671AF6E9Q62512401-D5B2B7EC-F83F-47C5-9E50-DA0D69738DC3Q62512405-235A36CF-5CEE-47EE-BFBD-E9581615FB82Q62512410-DE1E6FBE-B35B-44B5-A264-14AEC8A0D559Q62512423-6B445DCB-A468-4E8D-A46D-341C68AAE681Q89826594-221BE1BA-0EE7-4F8A-815E-BDCED61071D5Q91108336-18EE4D20-5354-457A-AAFD-FD8237D46668Q91337166-8D1CF411-DBB9-4B46-8E46-03079A1D0F6EQ91443909-E5EDF987-AAEB-40B7-B7ED-1BAA7A9EDF24Q92761092-7B3B7259-E74D-495C-A836-C7CED53A8DEDQ94523995-F481B426-C3DA-4D57-926E-E60D947B6F68Q95839850-F088A8C0-6CA3-4324-AC99-5A0CBF6982E7
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description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Emily S Day
@nl
Emily S Day
@sl
Emily S. Day
@en
Emily S. Day
@es
type
label
Emily S Day
@nl
Emily S Day
@sl
Emily S. Day
@en
Emily S. Day
@es
prefLabel
Emily S Day
@nl
Emily S Day
@sl
Emily S. Day
@en
Emily S. Day
@es
P1053
A-9026-2012
P106
P21
P31
P3829
P496
0000-0002-8707-826X