Super-Resolution Ultrasound Imaging in Vivo with Transient Laser-Activated Nanodroplets.Monitoring/Imaging and Regenerative Agents for Enhancing Tissue Engineering Characterization and TherapiesQuantitative contrast-enhanced ultrasound measurement of cerebrospinal fluid flow for the diagnosis of ventricular shunt malfunctionLabel-free Detection of Lymph Node Metastases with US-guided Functional Photoacoustic Imaging.Blinking Phase-Change Nanocapsules Enable Background-Free Ultrasound Imaging.Multi-Wavelength Photoacoustic Visualization of High Intensity Focused Ultrasound Lesions.The dynamic deformation of a layered viscoelastic medium under surface excitation.Combined ultrasound and photoacoustic imaging to noninvasively assess burn injury and selectively monitor a regenerative tissue-engineered constructImaging strategies for tissue engineering applications.Sensing the delivery and endocytosis of nanoparticles using magneto-photo-acoustic imaging.Sentinel lymph node biopsy revisited: ultrasound-guided photoacoustic detection of micrometastases using molecularly targeted plasmonic nanosensors.Photoacoustic Characterization of Radiofrequency Ablation LesionsAssessing age-related changes in the biomechanical properties of rabbit lens using a coaligned ultrasound and optical coherence elastography system.Muscle as a molecular machine for protecting joints and bones by absorbing mechanical impacts.Visualization of molecular composition and functionality of cancer cells using nanoparticle-augmented ultrasound-guided photoacoustics.Indocyanine green-loaded photoacoustic nanodroplets: dual contrast nanoconstructs for enhanced photoacoustic and ultrasound imaging.In vitro photoacoustic visualization of myocardial ablation lesions.In vivo pulsed magneto-motive ultrasound imaging using high-performance magnetoactive contrast nanoagents.Silica-coated gold nanoplates as stable photoacoustic contrast agents for sentinel lymph node imaging.Photoacoustic and ultrasound imaging using dual contrast perfluorocarbon nanodroplets triggered by laser pulses at 1064 nm.Contrast-enhanced magneto-photo-acoustic imaging in vivo using dual-contrast nanoparticles.Optical wavelength selection for improved spectroscopic photoacoustic imagingDynamic optical coherence tomography measurements of elastic wave propagation in tissue-mimicking phantoms and mouse cornea in vivo.The mechanical properties of ex vivo bovine and porcine crystalline lenses: age-related changes and location-dependent variations.Spatial characterization of corneal biomechanical properties with optical coherence elastography after UV cross-linking.Modulation of photoacoustic signal generation from metallic surfaces.On sensitivity of molecular specific photoacoustic imaging using plasmonic gold nanoparticlesQuantitative photoacoustic imaging of nanoparticles in cells and tissues.Ligand-mediated self-assembly of hybrid plasmonic and superparamagnetic nanostructuresAssessing the mechanical properties of tissue-mimicking phantoms at different depths as an approach to measure biomechanical gradient of crystalline lens.Intravascular photoacoustics for image-guidance and temperature monitoring during plasmonic photothermal therapy of atherosclerotic plaques: a feasibility studyThermal stability of biodegradable plasmonic nanoclusters in photoacoustic imaging.Development and optimization of near-IR contrast agents for immune cell trackingIn vivo intravascular ultrasound-guided photoacoustic imaging of lipid in plaques using an animal model of atherosclerosis.Photoacoustic imaging: a potential tool to detect early indicators of metastasis.PHOTOACOUSTIC IMAGING FOR MEDICAL DIAGNOSTICS.In vivo estimation of elastic wave parameters using phase-stabilized swept source optical coherence elastographyPhotoacoustic Imaging for Cancer Detection and StagingFeasibility of in vivo intravascular photoacoustic imaging using integrated ultrasound and photoacoustic imaging catheterA high pulse repetition frequency ultrasound system for the ex vivo measurement of mechanical properties of crystalline lenses with laser-induced microbubbles interrogated by acoustic radiation force.
P50
Q30358789-68AFFC80-9FA2-435B-949F-E717151F940BQ30362056-204CADE8-8562-403C-8D9B-25269362F02BQ30368800-5409BF7F-2497-4FCB-A628-D669BC2D1077Q30371267-713C8708-0341-467D-8144-B5BA675EE030Q30375867-40F94C4B-52ED-42C1-89D5-8BF21C581ADDQ30378274-5BD2C14F-38CC-45CD-823E-93B52B6FC33BQ30382009-652733A8-3B8B-4F08-BE5B-181E46D17274Q30382599-3C41443C-F02C-4CFC-892C-7830A27A0F05Q30392079-53F3A269-9E65-4390-9F83-F38107769F7AQ30396796-9089C875-ADDB-4A58-AC72-7628CA06B3C5Q30401749-FCC70C4B-E416-48EA-8EAC-D13822A3E517Q30403294-9FE4F620-2CB2-4324-826D-D091E3641D0BQ30405715-8386EA61-E5A4-4FC4-A517-BF3E4F48DAD0Q30407966-E098E75D-E1E0-4840-8856-990585CFEE48Q30414161-5EB55F6F-F9B9-455A-9792-9CE6AC49DD8BQ30420199-957EBA20-ACD1-4510-9A0A-8EFD05EB97EDQ30421753-76B8DB0A-492F-41AA-A02E-EEAF8DED8C3CQ30425522-BA4860FA-B241-40AE-9340-37FCA25DFF1BQ30426071-F4B59C99-0375-455C-A0F5-B47FDCF5FD55Q30426118-9FE75294-58AB-401D-8709-B02531590687Q30428858-0DF0D4B5-8D03-43DA-A064-D3D4127C9AE0Q30428888-BC41E8B8-304D-4D07-AE6A-36C156A38B12Q30429148-B614347B-E340-4C7E-B114-A882A517803CQ30437715-39E0BC4C-70A3-4669-8378-3C7D5537B5B7Q30437779-AD8A479B-2B6B-4B62-825E-B667F5F83C8DQ30438805-FEF0C747-4765-4020-87CC-EC0494762343Q30439593-489B0552-7BE5-43D7-B3CA-CDB05CBBE7A9Q30442545-4AA130CE-0A42-490F-8EBC-B21DD2B56D8FQ30442606-8D91C4C9-A914-410B-AEA5-7552AC9437EAQ30444583-E608C5CD-C1C2-46EE-94E4-B7D851090AF8Q30444782-61C2A4D5-8253-4326-92E9-EF386358BDE3Q30445616-F132E36F-1BC1-4ABA-96DB-055730044F59Q30446414-680AD4A7-57FA-41C5-990E-ABB25BCC8EA8Q30446713-5594BF3C-B1D3-4DB8-BACF-75BE8D09D602Q30447713-19B4D999-A64C-4820-B756-0A58BA4D16DCQ30448532-DC5FB7D5-2AEF-413E-8306-FC6C74EECCADQ30448926-7F974275-51EB-49F6-8E9E-130A1CC76995Q30449484-7C46D42F-F2B6-4992-83B3-08019273D902Q30449629-975679E6-3ED5-4CE2-89AE-C8EFF3D898A9Q30451178-A0B6B3BE-65BE-42B4-B8B1-AB8FDDB47257
P50
description
Professor of biomedical engineering
@en
wetenschapper
@nl
name
Stanislav Emelianov
@ast
Stanislav Emelianov
@en
Stanislav Emelianov
@es
Stanislav Emelianov
@it
Stanislav Emelianov
@nl
type
label
Stanislav Emelianov
@ast
Stanislav Emelianov
@en
Stanislav Emelianov
@es
Stanislav Emelianov
@it
Stanislav Emelianov
@nl
prefLabel
Stanislav Emelianov
@ast
Stanislav Emelianov
@en
Stanislav Emelianov
@es
Stanislav Emelianov
@it
Stanislav Emelianov
@nl
P21
P2456
P31
P496
0000-0002-7098-133X