about
Raman micro spectroscopy for in vitro drug screening: subcellular localisation and interactions of doxorubicin.Cellular discrimination using in vitro Raman micro spectroscopy: the role of the nucleolus.Differentiating responses of lung cancer cell lines to Doxorubicin exposure: in vitro Raman micro spectroscopy, oxidative stress and bcl-2 protein expression.Non-thermal atmospheric plasma induces ROS-independent cell death in U373MG glioma cells and augments the cytotoxicity of temozolomide.Minimal analytical characterization of engineered nanomaterials needed for hazard assessment in biological matrices.Label-free, high content screening using Raman microspectroscopy: the toxicological response of different cell lines to amine-modified polystyrene nanoparticles (PS-NH2).In vitro monitoring of time and dose dependent cytotoxicity of aminated nanoparticles using Raman spectroscopy.Silver nanoparticles induce pro-inflammatory gene expression and inflammasome activation in human monocytes.Investigating the role of shape on the biological impact of gold nanoparticles in vitro.The surfactant dipalmitoylphophatidylcholine modifies acute responses in alveolar carcinoma cells in response to low-dose silver nanoparticle exposure.Potential of biofluid components to modify silver nanoparticle toxicity.Potent oxidative DNA cleavage by the di-copper cytotoxin: [Cu2(μ-terephthalate)(1,10-phen)4]2+.Radical-induced DNA damage by cytotoxic square-planar copper(II) complexes incorporating o-phthalate and 1,10-phenanthroline or 2,2'-dipyridyl.Identifying and localizing intracellular nanoparticles using Raman spectroscopy.Comparative in vitro cytotoxicity study of silver nanoparticle on two mammalian cell lines.An ecotoxicological study of poly(amidoamine) dendrimers-toward quantitative structure activity relationships.Preparation, characterization of NIPAM and NIPAM/BAM copolymer nanoparticles and their acute toxicity testing using an aquatic test battery.Dispersion medium modulates oxidative stress response of human lung epithelial cells upon exposure to carbon nanomaterial samples.SWCNT suppress inflammatory mediator responses in human lung epithelium in vitro.Single walled carbon nanotubes induce indirect cytotoxicity by medium depletion in A549 lung cells.A new approach to the toxicity testing of carbon-based nanomaterials--the clonogenic assay.In vitro toxicity evaluation of single walled carbon nanotubes on human A549 lung cells.Antimicrobial properties of nano-silver: a cautionary approach to ionic interference.Comparative studies of cellular viability levels on 2D and 3D in vitro culture matrices.Synthesis, characterisation and DNA intercalation studies of regioisomers of ruthenium (II) polypyridyl complexes.Determination of spectral markers of cytotoxicity and genotoxicity using in vitro Raman microspectroscopy: cellular responses to polyamidoamine dendrimer exposure.Chemotherapeutic efficiency of drugs in vitro: Comparison of doxorubicin exposure in 3D and 2D culture matrices.Evaluation of cytotoxicity profile and intracellular localisation of doxorubicin-loaded chitosan nanoparticles.Synthesis and characterization of a multifunctional gold-doxorubicin nanoparticle system for pH triggered intracellular anticancer drug release.Water-soluble and photo-stable silver(I) dicarboxylate complexes containing 1,10-phenanthroline ligands: Antimicrobial and anticancer chemotherapeutic potential, DNA interactions and antioxidant activity.Doxorubicin kinetics and effects on lung cancer cell lines using in vitro Raman micro-spectroscopy: binding signatures, drug resistance and DNA repair.In vitro evaluation of the cytotoxicity of a folate-modified β-cyclodextrin as a new anti-cancer drug delivery systemWater-soluble bis(1,10-phenanthroline) octanedioate Cu2+ and Mn2+ complexes with unprecedented nano and picomolar in vitro cytotoxicity: promising leads for chemotherapeutic drug developmentA Comparative Cytotoxic Evaluation of Acrylamide and Diacetone Acrylamide to Investigate Their Suitability for Holographic Photopolymer FormulationsAdvancing Raman microspectroscopy for cellular and subcellular analysis: towards in vitro high-content spectralomic analysisDetermination of nanoparticle localisation within subcellular organelles in vitro using Raman spectroscopySurface enhanced Raman scattering with gold nanoparticles: effect of particle shapeNano-enhanced food contact materials and the in vitro toxicity to human intestinal cells of nano-ZnO at low doseProbing the interaction of single walled carbon nanotubes within cell culture medium as a precursor to toxicity testingSpectroscopic analysis confirms the interactions between single walled carbon nanotubes and various dyes commonly used to assess cytotoxicity
P50
Q35616791-CDC90F73-70E9-4656-A7D8-81A400AA8B57Q35711387-0A4561EA-894E-463F-972C-470525CAF3DCQ35992320-61CA1254-EAD2-4BBA-A227-314B172A401BQ36750581-231B0818-48A7-45C4-B8A7-6DB2CAD88A04Q37854600-8D79A7CD-1F09-46DE-ADF1-87E595934FEDQ38694347-7825CB40-ADC4-4242-BE8B-2D50B6591D94Q38760239-319B3531-9119-465D-8759-417FC1F09E28Q38787049-FBC5DD74-CCF5-40FC-933B-28855FFDC956Q38834906-1359B58A-F0A1-486A-BB73-386A5CE94700Q38886457-85A15EC5-CAE8-47CB-937B-2D0060C52322Q38902155-9350F19B-3A29-4762-980E-E0E41FED4EBBQ39335872-B7896B10-2CEE-42E1-8F3A-6E02D8F1BE39Q39338230-6C7AB3E3-BC01-483B-8BAD-B2345BC144CDQ39407009-02D9F92E-F1D8-4634-B8D4-501CD08D4672Q39422566-3D160D71-829F-49FB-929C-FA1F5268F827Q39797875-A1B89B4C-81C3-4925-810A-1692AF3DD577Q39870089-1CE7BD75-C4D9-4E53-886D-97E545A343D7Q39881288-E4BA5A38-E15C-4018-98FD-CF5153C89C60Q39911031-1CEC3374-5857-4266-AB3B-34076E18C1DCQ39978876-EEC75477-B52D-46B2-B446-6ECB3606C4B2Q40071022-A24D6CF4-3E61-4A40-AD93-BAA9F4169A70Q40204561-A6CEFC6E-F05F-435D-93B5-79A3D06A2329Q41587445-2410D579-DB36-4BFA-A082-4A598F1DB20BQ48326497-88D0F329-6B3E-4ADD-96FD-380DDAB7BB76Q49918443-4AAD88F4-0D3C-488C-B27E-FF8045074E3EQ50141218-FDDFB376-15F6-41A1-9538-6BC4EEBD8D09Q50204068-A050A276-24B6-4FA1-B9E0-68F05DCE7F19Q50638687-F61EF72D-73C2-454B-8932-2A83416DA41DQ51837418-910ECC3C-DAC2-4D8A-84F8-26A26A54177AQ52984294-69FFB160-7432-4C77-853B-A8096B7E673BQ53735791-9D879DF9-DE65-41CC-9B79-A48A8A66F238Q58218327-1DD23EA6-44F2-471A-A16C-32F397F663DCQ58838382-208A4724-07BC-4412-B11C-2C7F646D4A6CQ58989217-6B96D9AB-2678-4011-91BF-E786CEA9BB6DQ60480798-AB77CFF1-B243-41B6-B44A-973EC2C4541DQ60480801-61037A92-93C3-4A01-BAC9-66E1CBFD6582Q60480802-FD42DAF5-20BE-497A-9B9F-6860693F58ECQ60480805-1FF04644-475D-48C1-ADB4-87128460C74BQ60480806-068F5857-111F-4D3B-B065-F0DE76A0C0FCQ60480807-5BFF94B4-3B76-4165-B172-3905F5769C19
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Alan Casey
@ast
Alan Casey
@en
Alan Casey
@es
Alan Casey
@nl
type
label
Alan Casey
@ast
Alan Casey
@en
Alan Casey
@es
Alan Casey
@nl
prefLabel
Alan Casey
@ast
Alan Casey
@en
Alan Casey
@es
Alan Casey
@nl
P106
P21
P31
P496
0000-0001-9082-0579