about
Tube-Forming AssaysMulti-modal molecular diffuse optical tomography system for small animal imagingThe use of random projections for the analysis of mass spectrometry imaging dataTesting for Multivariate Normality in Mass Spectrometry Imaging Data: A Robust Statistical Approach for Clustering Evaluation and the Generation of Synthetic Mass Spectrometry Imaging Data Sets.Sucrose cryo-protection facilitates imaging of whole eye sections by MALDI mass spectrometry.Inclusive sharing of mass spectrometry imaging data requires a converter for all.SpectralAnalysis: Software for the Masses.Electroporation and microinjection successfully deliver single-stranded and duplex DNA into live cells as detected by FRET measurements.Multispectral retinal image analysis: a novel non-invasive tool for retinal imaging.Development of a multi-wavelength diffuse optical tomography system for early diagnosis of rheumatoid arthritis: simulation, phantoms and healthy human studies.Two-phase and graph based clustering methods for accurate and efficient segmentation of large mass spectrometry images.Quantifying receptor trafficking and colocalization with confocal microscopy.High coating of Ru(II) complexes on gold nanoparticles for single particle luminescence imaging in cells.Multispectral imaging of the ocular fundus using light emitting diode illumination.Simultaneous multiple view high resolution surface geometry acquisition using structured light and mirrors.Quantitative surface radiance mapping using multiview images of light-emitting turbid media.Quantitative analysis of multi-spectral fundus images.Multispectral, non-contact diffuse optical tomography of healthy human finger joints.L1-norm based nonlinear reconstruction improves quantitative accuracy of spectral diffuse optical tomography.Model-based parameter recovery from uncalibrated optical imagesGraph- and finite element-based total variation models for the inverse problem in diffuse optical tomography.Selection of optimal filters for multispectral imagingAutomated noninvasive epithelial cell counting in phase contrast microscopy images with automated parameter selectionTopological data analysis quantifies biological nano-structure from single molecule localization microscopyQuantitative Imaging of Proteins in Tissue by Stable Isotope Labeled Mimetic Liquid Extraction Surface Analysis Mass SpectrometryNew nonlocal forward model for diffuse optical tomographyStructural Analysis of 14-3-3-ζ-Derived Phosphopeptides Using Electron Capture Dissociation Mass Spectrometry, Traveling Wave Ion Mobility Spectrometry, and Molecular ModelingDevelopment of the Self Optimising Kohonen Index Network (SKiNET) for Raman Spectroscopy Based Detection of Anatomical Eye TissueComprehensive LESA Mass Spectrometry Imaging of Intact Proteins by Integration of Cylindrical FAIMSAn adaptable analysis workflow for characterization of platelet spreading and morphology
P50
Q28364887-2653B098-E64C-4D69-8A75-CC67BC66FE6BQ30436546-543CFA8C-5D34-452B-9862-A5C8B9A27F14Q30880787-43A650F6-EFC0-4865-9E66-BFFB91941EC9Q31131510-CDB5B8F0-932F-4757-B122-91A83AF29E67Q34167733-634C71A6-C8E5-4771-B17B-34BB136BA777Q34284777-B61C5FCF-A41F-4397-B8D5-D657B9817BB5Q34538429-0F0424E8-30DC-400B-AFDE-6CD5B7843E48Q35154985-C28E7BAF-3C61-4D8E-A46C-C05965AF76D7Q35603511-07268CA7-6942-4DF5-BBED-52593786437EQ37429151-352EDA72-587E-4E49-B2F3-DB35B5376AAAQ38604226-E65F10D9-C742-4E31-961E-E864AAE70BD4Q38993624-3166D0FB-C2C8-42D3-819C-8E946DE200DEQ39053868-534A7D39-CAA8-4026-8741-02D37CDA26DFQ42871844-53D21926-E0F7-4043-A090-84952C4A2C03Q43429913-4FFFA4F2-9D57-447E-BDD7-3E1A6B9DE71FQ51134633-722FE1A5-FCB3-4423-99C7-9487DC49D545Q51936897-3A5E94A2-7964-40AF-A4AF-427FBE39C874Q52575848-EA30C294-888A-432E-8B72-A088343097F9Q55076024-725A91C9-301C-41A4-9047-7EAB3A800A25Q62491354-84DECE01-BF2E-4242-AEBE-524E50475812Q64953630-5B983853-E776-430C-9DB1-0028DD0BBF72Q79661151-8174DF75-0594-4182-B358-1D33FB88DB5BQ89589785-C302AC97-B965-42E1-A64D-ECD7B04E6F38Q90794215-1F8230E3-8D21-4518-BD1B-80B2B2F19E74Q90982959-C8D8C917-484D-469E-B347-E64099EAAED5Q92101312-A9DE620E-6086-4BDB-96B3-F99416FF4EB5Q92144347-3E32B6EC-51AB-42FC-9566-71831DF57D91Q92186428-DA4A66B4-E206-42E3-83FB-C3F3ECB6923FQ92848045-7D2FDCF3-4AEF-4318-A4C9-9DF0FFFFFAF3Q93159166-7C5CB08D-13E5-4054-BACF-D4845045177E
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0002-6755-0299
@en
name
Iain B Styles
@ast
Iain B Styles
@en
Iain B Styles
@es
Iain B Styles
@nl
type
label
Iain B Styles
@ast
Iain B Styles
@en
Iain B Styles
@es
Iain B Styles
@nl
prefLabel
Iain B Styles
@ast
Iain B Styles
@en
Iain B Styles
@es
Iain B Styles
@nl
P106
P1153
8541753100
P2456
P31
P496
0000-0002-6755-0299