about
In silico experimentation of glioma microenvironment development and anti-tumor therapyFabrication and characterization of paper-based microfluidics prepared in nitrocellulose membrane by wax printing.A microchip platform for interrogating tumor-macrophage paracrine signaling at the single-cell levelHighly multiplexed profiling of single-cell effector functions reveals deep functional heterogeneity in response to pathogenic ligands.Clinical application of a microfluidic chip for immunocapture and quantification of circulating exosomes to assist breast cancer diagnosis and molecular classificationSingle-cell protein secretomic signatures as potential correlates to tumor cell lineage evolution and cell-cell interaction.Rapid prototyping of paper-based microfluidics with wax for low-cost, portable bioassay.Microchip-based single-cell functional proteomics for biomedical applications.Analysis of single-cell cytokine secretion reveals a role for paracrine signaling in coordinating macrophage responses to TLR4 stimulation.Droplet microfluidics for characterizing the neurotoxin-induced responses in individual Caenorhabditis elegans.A nephron model for study of drug-induced acute kidney injury and assessment of drug-induced nephrotoxicity.Development of a universal serial bus-powered mini-high-voltage power supply for microchip electrophoresis.Low cost, portable detection of gold nanoparticle-labeled microfluidic immunoassay with camera cell phone.Picomolar detection of carcinoembryonic antigen in whole blood using microfluidics and surface-enhanced Raman spectroscopy.Paper-Based 3D Scaffold for Multiplexed Single Cell Secretomic Analysis.Measurement of Carcinoembryonic Antigen in Clinical Serum Samples Using a Centrifugal Microfluidic DevicePatterned paper as a low-cost, flexible substrate for rapid prototyping of PDMS microdevices via "liquid molding"Enhanced bioactivity of Mg-Nd-Zn-Zr alloy achieved with nanoscale MgF2 surface for vascular stent applicationSingle-Cell Proteomics for Cancer ImmunotherapyDownregulation of miR-218-5p promotes invasion of oral squamous cell carcinoma cells via activation of CD44-ROCK signalingA cell lines derived microfluidic liver model for investigation of hepatotoxicity induced by drug-drug interactionPDMS Microwell Stencil Based Multiplexed Single-Cell Secretion AnalysisMultiplexed profiling of single-cell extracellular vesicles secretionMultiplexed PCR-Free Detection of MicroRNAs in Single Cancer Cells Using a DNA-Barcoded Microtrough Array ChipApplication of Microfluidic Chips in Separation and Analysis of Extracellular Vesicles in Liquid Biopsy for CancerPaper Microfluidics for Cell Analysis
P50
Q27332126-0EA5D36A-F951-4EC7-B242-F5A246333FAEQ34087347-1DAC07ED-06CC-4D18-82BB-C02A01E78D7EQ34090378-E09018EA-1617-4C4F-BF1A-FCBF344967A9Q35128940-7FCCA4D9-D3B4-4EA2-B41C-E4E57ABCC146Q36331875-A764535F-AF96-4512-ABF3-5B31C186EE10Q36589648-9AFEBCDF-9BAB-4243-A81D-920C8FA61A7BQ38451024-D5E9BE05-CF43-4243-A137-4AD8F18BDC2BQ38915763-7FC5A51E-A37A-42A7-9CF2-DAAD5D6E2A93Q40828715-C932B976-124C-4B54-A768-C6CDA5720146Q42873212-B580172E-5377-47F8-B00D-815E8D9C48CDQ47320587-2F519F07-A02A-422A-915F-9A35108D7657Q51041119-1023D724-0CCF-4216-8D32-DDFCE1CB20AFQ51568721-F861C6F9-74B8-4ACA-8D1E-E46AF18CAFB6Q51592973-A1CA8082-C18A-4C82-8F29-1B7702BDAE02Q52598955-C2B1A408-C7B2-42F2-AA7A-3212C4D0771AQ58728788-1942DF0F-E897-4B2D-B6F2-A8E9A1E734EFQ83329217-7DFE4557-3B27-4962-A40D-A516ED5D281FQ86807832-C4E8A4D4-CC55-4ABF-9736-664A49233DBCQ89238337-AE70DFA3-951B-4136-AD4F-ECB9884F1B5BQ89500710-CF720305-03DD-4F73-9F99-3658256901DEQ91655537-259BB8C6-FF6F-40C7-9984-C95EF4FCBBFBQ91778692-96240DF1-C165-40A0-A023-7CB233436AABQ92282956-F75588A3-9CF1-4906-9455-6E7E133578EEQ92755708-8860D567-537E-44FC-88D6-EFCAE9668232Q92853277-5AAD8B38-4314-4642-8924-061EAC8C1E44Q93358981-BE19C90E-31A8-4268-87BE-6D8D25BCF83B
P50
description
researcher ORCID: 0000-0002-2169-6479
@en
wetenschapper
@nl
name
Yao Lu
@ast
Yao Lu
@en
Yao Lu
@nl
type
label
Yao Lu
@ast
Yao Lu
@en
Yao Lu
@nl
prefLabel
Yao Lu
@ast
Yao Lu
@en
Yao Lu
@nl
P106
P31
P496
0000-0002-2169-6479