about
A combined MR and CT study for precise quantitative analysis of the avian brainLanthanide(III) complexes of aminoethyl-DO3A as PARACEST contrast agents based on decoordination of the weakly bound amino group.Ln(iii)-complexes of a DOTA analogue with an ethylenediamine pendant arm as pH-responsive PARACEST contrast agents.Two distinct tumor phenotypes isolated from glioblastomas show different MRS characteristics.Cyclodextrin-based bimodal fluorescence/MRI contrast agents: an efficient approach to cellular imaging.Volume of the crocodilian brain and endocast during ontogeny.Multimodal Imaging Reveals Improvement of Blood Supply to an Artificial Cell Transplant Site Induced by Bioluminescent Mesenchymal Stem Cells.A Novel Nanoprobe for Multimodal Imaging Is Effectively Incorporated into Human Melanoma Metastatic Cell Lines.The effect of magnetic nanoparticles on neuronal differentiation of induced pluripotent stem cell-derived neural precursors.The Human Vocal Fold Layers. Their Delineation Inside Vocal Fold as a Background to Create 3D Digital and Synthetic Glottal Model.Pre-Microporation Improves Outcome of Pancreatic Islet Labelling for Optical and 19F MR Imaging.Selective in vitro anticancer effect of superparamagnetic iron oxide nanoparticles loaded in hyaluronan polymeric micelles.Vascularization of artificial beds for pancreatic islet transplantation in a rat model.Glycogen as a biodegradable construction nanomaterial for in vivo use.MRI of transplanted pancreatic islets.Detection of pancreatic islet allograft impairment in advance of functional failure using magnetic resonance imaging.Gadolinium- and manganite-based contrast agents with fluorescent probes for both magnetic resonance and fluorescence imaging of pancreatic islets: a comparative study.Magnetic resonance imaging of pancreatic islets transplanted into the right liver lobes of diabetic mice.Labeling of pancreatic islets with iron oxide nanoparticles for in vivo detection with magnetic resonance.Effects of magnetic resonance image interpolation on the results of texture-based pattern classification: a phantom study.Rat intra-hippocampal NMDA infusion induces cell-specific damage and changes in expression of NMDA and GABAA receptor subunits.The Optimal Timing for Pancreatic Islet Transplantation into Subcutaneous Scaffolds Assessed by Multimodal Imaging.Phosphonate-titanium dioxide assemblies: platform for multimodal diagnostic-therapeutic nanoprobes.Phantoms for texture analysis of MR images. Long-term and multi-center study.Effects of MRI acquisition parameter variations and protocol heterogeneity on the results of texture analysis and pattern discrimination: an application-oriented study.Classification of calf muscle MR images by texture analysis.In vivo visualization of cells labeled with superparamagnetic iron oxides by a sub-millisecond gradient echo sequence.Processing of superparamagnetic iron contrast agent ferucarbotran in transplanted pancreatic isletsA Trimodal Imaging Platform for Tracking Viable Transplanted Pancreatic Islets In Vivo: F-19 MR, Fluorescence, and Bioluminescence Imaging.Texture analysis of human liverReply to 'In vivo imaging of islet transplantation'Magnetic resonance imaging of intrahepatically transplanted islets using paramagnetic beadsMagnetic resonance imaging of pancreatic islets in tolerance and rejectionDynamic contrast-enhanced magnetic resonance imaging as a tool to monitor the blood supply to an artificial cavity used as a site for islet transplantation in ratsMagnetic resonance imaging of pancreatic islets transplanted into the liver in humansMonitoring the survival of islet transplants by MRI using a novel technique for their automated detection and quantificationPositive contrast visualization of SPIO-labeled pancreatic islets using echo-dephased steady-state free precessionImproved detection of pancreatic islets in vivo using double contrastEffect of mesenchymal stem cells on the vascularization of the artificial site for islet transplantation in ratsMultiphase progenetic development shaped the brain of flying archosaurs
P50
Q28608283-3BEBCD8E-5ED3-4557-8077-2D0B4A2B2738Q30667860-1CC1CD18-D168-4CDD-8E0E-5CDA4B8E0FC1Q31038836-06AA2436-8717-4F46-AAFA-3F72B0377D5AQ33350283-F453EAE6-0C11-48EF-916A-BF31B371190EQ33617992-B75E0E52-2076-4D04-8E75-7FA40B26EB56Q33797336-B8C92401-4F9E-4FC0-AE7C-B0A9A79724FAQ36087561-F34907FE-59CE-4388-BE98-7CF8BD85B3F8Q36184142-41FF8249-D4E4-444D-965A-5B95E9445CC2Q37446916-75392E29-11B9-47ED-82D4-3C47F715D8F9Q40319336-D2648C4B-7FB0-4F2F-A006-DB8D9F360FFEQ41018653-B9DE8DE9-9959-440C-87C0-F890B84B1EAEQ42835006-FE7EBF74-6559-4190-AB41-47AFABCE0B28Q42943630-4F3652E0-11FE-4601-96AB-4BA8DB77CB65Q44848578-356F644A-4933-4202-AE37-0D0650F84F95Q45161803-91E30855-E79F-4472-A81C-5315980281B9Q45798448-3057DB26-8608-4D25-B0DB-05EB63772637Q45891131-9D1ADBD3-4C7D-48F2-951E-0635E76CE27BQ46676100-6E4356B3-1706-41C8-B3FE-E3587770BC77Q46809784-F2F4494A-9E52-4E3F-87BE-18C2F83701DDQ46983206-16EDC71B-13C1-46E4-9351-F5209DEAC426Q48868520-86C4B2BD-77C9-475D-92A6-860B116C06F8Q49628831-999D527D-CCE9-48A2-A495-35303C1AA084Q50678045-8BAD3415-1A6B-40CF-BC5B-7A4BA98658A3Q51692049-3B13EE23-4CDB-4111-9B29-E622C065AA97Q51827133-6B9FFDE3-86AD-4ACC-A416-DF0ABA546D31Q52000665-6A167627-E389-4A0A-ACFF-18F121FDFA17Q53080708-5984A827-CE18-42ED-8D16-DB5FB63ADC1EQ57183991-F2982B23-FE03-4471-87DC-6D93911C5A68Q64987034-0C2A5D4D-EB28-4066-A0A3-A82A594F61EAQ77495257-8191B358-EAE8-4796-BF9D-D4A9C74CB0B3Q80584700-AA6DF733-6493-43F8-9123-BC4507544971Q81505748-9A5B3EC1-7B2C-4FA6-96A6-8D812C03BC56Q82055077-0807A2B7-2FBD-4362-934C-1AA592EC2FBCQ82591331-7B707C08-ABAB-49C3-9995-368B9F1191C6Q83092144-B2532671-C786-4633-A831-34F38B95A47BQ83719519-E5FB44D9-EF94-4225-BEEC-AF2EEB13769DQ84654705-996EEA9C-2ACA-4804-9B51-77E230E0218EQ84809744-83294660-C141-4036-AF58-F0CB5120C5E1Q87599619-D1920B16-24CB-40D6-AC4F-7EA4C23F3D28Q92186172-7246E595-43AE-43D2-952A-776C87BCD0CE
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Daniel Jirak
@ast
Daniel Jirak
@en
Daniel Jirak
@es
Daniel Jirak
@nl
Daniel Jirak
@sl
type
label
Daniel Jirak
@ast
Daniel Jirak
@en
Daniel Jirak
@es
Daniel Jirak
@nl
Daniel Jirak
@sl
prefLabel
Daniel Jirak
@ast
Daniel Jirak
@en
Daniel Jirak
@es
Daniel Jirak
@nl
Daniel Jirak
@sl
P1053
Q-5357-2017
P106
P1153
6602891304
P21
P31
P3829
P496
0000-0001-6834-3462