about
3D Raman imaging of systemic endothelial dysfunction in the murine model of metastatic breast cancerRaman microscopy at the subcellular level: a study on early apoptosis in endothelial cells induced by Fas ligand and cycloheximide.Determination of alkaloids in capsules, milk and ethanolic extracts of poppy (Papaver somniferum L.) by ATR-FT-IR and FT-Raman spectroscopy.Non-destructive Raman analyses--polyacetylenes in plants.Endothelium in spots--high-content imaging of lipid rafts clusters in db/db mice.Red blood cells polarize green laser light revealing hemoglobin's enhanced non-fundamental Raman modes.Composition and (in)homogeneity of carotenoid crystals in carrot cells revealed by high resolution Raman imaging.Transmission versus transflection mode in FTIR analysis of blood plasma: is the electric field standing wave effect the only reason for observed spectral distortions?Complementary analysis of tissue homogenates composition obtained by Vis and NIR laser excitations and Raman spectroscopy.Spectroscopic studies of anthracyclines: Structural characterization and in vitro tracking.Aggregation-Induced Resonance Raman Optical Activity (AIRROA) and Time-Dependent Helicity Switching of Astaxanthin Supramolecular Assemblies.Effects of Low Carbohydrate High Protein (LCHP) diet on atherosclerotic plaque phenotype in ApoE/LDLR-/- mice: FT-IR and Raman imagingResonance Raman in Vitro Detection and Differentiation of the Nitrite-Induced Hemoglobin Adducts in Functional Human Red Blood Cells.Analytical Techniques in Lipidomics: State of the Art.Unsaturated lipid bodies as a hallmark of inflammation studied by Raman 2D and 3D microscopy.Determination of alkaloids through infrared and Raman spectroscopy.Raman microscopy as a novel tool to detect endothelial dysfunction.Vascular diseases investigated ex vivo by using Raman, FT-IR and complementary methods.A Chiral Thiophene Sulfonamide - a Challenge for VOA Calculations.Simultaneous intracellular redox potential and pH measurements in live cells using SERS nanosensors.Nuclear accumulation of anthracyclines in the endothelium studied by bimodal imaging: fluorescence and Raman microscopy.Comparative endothelial profiling of doxorubicin and daunorubicin in cultured endothelial cells.3D confocal Raman imaging of endothelial cells and vascular wall: perspectives in analytical spectroscopy of biomedical research.Attenuated total reflection Fourier transform infrared (ATR-FTIR) spectroscopy of a single endothelial cell.Raman and infrared spectroscopy of carbohydrates: A review.Raman analysis of caraway (Carum carvi L.) single fruits. Evaluation of essential oil content and its composition.Vibrational and theoretical study of selected diacetylenes.Identification of secondary metabolites in medicinal and spice plants by NIR-FT-Raman microspectroscopic mapping.Quality control of Harpagophytum procumbens and its related phytopharmaceutical products by means of NIR-FT-Raman spectroscopy.Quantification of plaque area and characterization of plaque biochemical composition with atherosclerosis progression in ApoE/LDLR(-/-) mice by FT-IR imaging.Structural changes of polyacetylenes in American ginseng root can be observed in situ by using Raman spectroscopy.Lipids, hemoproteins and carotenoids in alive Rhodotorula mucilaginosa cells under pesticide decomposition - Raman imaging study.Changes in carotenoid content and distribution in living plant tissue can be observed and mapped in situ using NIR-FT-Raman spectroscopy.Interplay between carotenoids, hemoproteins and the "life band" origin studied in live Rhodotorula mucilaginosa cells by means of Raman microimaging.Raman imaging providing insights into chemical composition of lipid droplets of different size and origin: in hepatocytes and endothelium.Uptake of fatty acids by a single endothelial cell investigated by Raman spectroscopy supported by AFM.Rapid approach to analyze biochemical variation in rat organs by ATR FTIR spectroscopy.Changes induced by non-alcoholic fatty liver disease in liver sinusoidal endothelial cells and hepatocytes: spectroscopic imaging of single live cells at the subcellular level.Raman, AFM and SNOM high resolution imaging of carotene crystals in a model carrot cell system.Cell viability assessment using the Alamar blue assay: a comparison of 2D and 3D cell culture models.
P50
Q28834521-4844E94A-CACD-46D7-8524-4EAF1F3B3197Q30383513-FD08AF37-1A2C-4958-928C-EA55E9FC3BFDQ31117594-CE5E668C-F179-4293-A3A0-2A30A8081FF7Q33213900-6E45AA0A-485C-4B07-BD25-B5DBD60921B0Q34105136-7FF8B470-AC08-462C-90E0-D16997D121B7Q35278596-0AEB0623-A714-40EF-B736-433A23B63488Q35473807-D52B6D4C-8F79-47D1-8A3B-4F9D561AB058Q35538705-A39ABA7D-33B5-4E4D-8485-C621A502E721Q35595928-E0B2B106-C25F-4BBA-A1D9-43E4D0727DB7Q36066731-7CB2093A-3C63-49DD-B550-F9D377B303A0Q36082901-2E4183E9-8A0D-4FA6-88AC-5FB6B7B71758Q36099227-4E439ECA-13EA-4856-B887-32685AB5B49BQ36217173-9B6BFEC3-7A8F-4882-94BC-A8F7AD81C9AFQ36322353-C7583BF2-CE21-4D58-AAB6-1E06E32FF0D0Q37591119-52859A40-FB31-4A37-9147-776ED602CA78Q37614437-FE0558BF-0D70-49D5-A09F-1ADFCB6AA1CAQ38576810-716E7C22-E3C3-4BB2-9CB3-0D8FB350E1ABQ38576814-78842910-66FD-4C6D-8538-F5452E9AAE71Q38640865-E7C03B21-7BAB-4C5F-8C56-6F047923B21DQ38907832-453E7386-DA89-4736-91CA-E62864DD69D3Q38918849-965DF842-944C-4199-9367-05F8572613ADQ38926508-EC986DE6-EC0D-40A4-ADAB-C0307CDC5415Q39241012-8D3E1B06-FB57-4FFC-BAEC-1F98D5F8F248Q39303993-257654D8-D6CB-40A4-9714-A6DF57FD28A0Q39362583-4380196F-98CD-4384-AA51-2E9DDF22096FQ43094030-C3F75D4C-6B7A-43BA-9992-60128516165FQ43761403-B477E4F0-7544-4630-B692-EE7CBFEEB6A6Q45085236-CC26B383-E5D6-4268-8223-366CB32D8651Q45159394-EFB5B09A-1F12-4283-BCE8-578A0205AC73Q45377843-E3AE7152-BD8B-47EE-ABB5-05D089FCBC20Q46172835-3920BEFC-D810-4CF7-BB93-9A9CD7E4167DQ46496280-A2CCAA2F-75AD-49C5-9E73-1B5F4ACDA422Q46593074-279B6BF8-6EA4-4CD9-8B0B-B71C1DEB7F2BQ46777195-C259A39E-32DB-472A-9BE1-311A74196A1FQ47580397-B35E030B-6516-4A1C-862E-C17B29781336Q48160249-470D8655-434F-4CE8-8108-C702B5D99C11Q48910560-43F1B47D-2DBE-43D2-9440-04450D6A5BA9Q49852909-01500DA4-A027-42C9-8A5D-A959AFE2AFD2Q50061922-63A8E50C-F75B-4A04-80E2-D5AD9BC07B04Q50221391-0F25B316-EE22-4473-A6CD-99015EE62E2C
P50
description
Pools onderzoekster
@nl
researcher ORCID ID = 0000-0001-8826-3144
@en
name
Malgorzata Baranska
@ast
Malgorzata Baranska
@en
Malgorzata Baranska
@es
Malgorzata Baranska
@nl
Małgorzata Barańska
@ca
Małgorzata Barańska
@cs
Małgorzata Barańska
@gl
Małgorzata Barańska
@hr
Małgorzata Barańska
@hsb
Małgorzata Barańska
@it
type
label
Malgorzata Baranska
@ast
Malgorzata Baranska
@en
Malgorzata Baranska
@es
Malgorzata Baranska
@nl
Małgorzata Barańska
@ca
Małgorzata Barańska
@cs
Małgorzata Barańska
@gl
Małgorzata Barańska
@hr
Małgorzata Barańska
@hsb
Małgorzata Barańska
@it
altLabel
Małgorzata Anna Barańska
@pl
prefLabel
Malgorzata Baranska
@ast
Malgorzata Baranska
@en
Malgorzata Baranska
@es
Malgorzata Baranska
@nl
Małgorzata Barańska
@ca
Małgorzata Barańska
@cs
Małgorzata Barańska
@gl
Małgorzata Barańska
@hr
Małgorzata Barańska
@hsb
Małgorzata Barańska
@it
P106
P1153
6603933941
P1412
P1559
Małgorzata Barańska
@pl
P21
P27
P31
P3124
P496
0000-0001-8826-3144