about
Noninvasive, Targeted, and Non-Viral Ultrasound-Mediated GDNF-Plasmid Delivery for Treatment of Parkinson's Disease.Noninvasive and targeted gene delivery into the brain using microbubble-facilitated focused ultrasound.Pharmacodynamic and therapeutic investigation of focused ultrasound-induced blood-brain barrier opening for enhanced temozolomide delivery in glioma treatment.Focused ultrasound-induced blood-brain barrier opening to enhance temozolomide delivery for glioblastoma treatment: a preclinical study.Low-Pressure Burst-Mode Focused Ultrasound Wave Reconstruction and Mapping for Blood-Brain Barrier Opening: A Preclinical Examination.Submicron-bubble-enhanced focused ultrasound for blood-brain barrier disruption and improved CNS drug delivery.Improved thrombolytic effect with focused ultrasound and neuroprotective agent against acute carotid artery thrombosis in rat.Characterization of Different Microbubbles in Assisting Focused Ultrasound-Induced Blood-Brain Barrier Opening.Focused Ultrasound-Induced Blood-Brain Barrier Opening: Association with Mechanical Index and Cavitation Index Analyzed by Dynamic Contrast-Enhanced Magnetic-Resonance ImagingNeural immune modulation and immunotherapy assisted by focused ultrasound induced blood-brain barrier openingUltrasound/Magnetic Targeting with SPIO-DOX-Microbubble Complex for Image-Guided Drug Delivery in Brain Tumors.Neuromodulation accompanying focused ultrasound-induced blood-brain barrier opening.Enhanced Therapeutic Epidermal Growth Factor Receptor (EGFR) Antibody Delivery via Pulsed Ultrasound with Targeting Microbubbles for Glioma TreatmentFocused ultrasound-induced blood-brain barrier opening to enhance interleukin-12 delivery for brain tumor immunotherapy: a preclinical feasibility study.Contrast-enhanced ultrasound imaging for the detection of focused ultrasound-induced blood-brain barrier opening.Investigation of temporal vascular effects induced by focused ultrasound treatment with speckle-variance optical coherence tomography.Considering angle selection when using ultrasound electrode displacement elastography to evaluate radiofrequency ablation of tissues.Combining microbubbles and ultrasound for drug delivery to brain tumors: current progress and overview.An approach for the visualization of temperature distribution in tissues according to changes in ultrasonic backscattered energy.Pharmacodynamic analysis of magnetic resonance imaging-monitored focused ultrasound-induced blood-brain barrier opening for drug delivery to brain tumors.Low-pressure pulsed focused ultrasound with microbubbles promotes an anticancer immunological response.Novel magnetic/ultrasound focusing system enhances nanoparticle drug delivery for glioma treatment.In vivo assessment of macrophage CNS infiltration during disruption of the blood-brain barrier with focused ultrasound: a magnetic resonance imaging study.Magnetic resonance monitoring of focused ultrasound/magnetic nanoparticle targeting delivery of therapeutic agents to the brain.Real-time monitoring of inertial cavitation effects of microbubbles by using MRI: In vitro experiments.Magnetic resonance imaging enhanced by superparamagnetic iron oxide particles: usefulness for distinguishing between focused ultrasound-induced blood-brain barrier disruption and brain hemorrhage.Enhanced therapeutic agent delivery through magnetic resonance imaging-monitored focused ultrasound blood-brain barrier disruption for brain tumor treatment: an overview of the current preclinical status.Ultrasound temperature estimation based on probability variation of backscatter data.Magnetic gold-nanorod/ PNIPAAmMA nanoparticles for dual magnetic resonance and photoacoustic imaging and targeted photothermal therapy.Manipulation of magnetic nanoparticle retention and hemodynamic consequences in microcirculation: assessment by laser speckle imaging.Enhanced photoacoustics from gold nano-colloidal suspensions under femtosecond laser excitation.Sufficient virus-neutralizing antibody in the central nerve system improves the survival of rabid rats.Bioconjugation of recombinant tissue plasminogen activator to magnetic nanocarriers for targeted thrombolysis.Non-invasive screening for early Alzheimer's disease diagnosis by a sensitively immunomagnetic biosensor.Potential of magnetic nanoparticles for targeted drug deliveryIn vitro investigation of ultrasound-induced oxidative stress on human lens epithelial cells.Non-invasive, neuron-specific gene therapy by focused ultrasound-induced blood-brain barrier opening in Parkinson's disease mouse model.Angiogenesis-targeting microbubbles combined with ultrasound-mediated gene therapy in brain tumors.Focused ultrasound-induced blood-brain barrier opening for non-viral, non-invasive, and targeted gene delivery.Drug-loaded bubbles with matched focused ultrasound excitation for concurrent blood-brain barrier opening and brain-tumor drug delivery.
P50
Q27301281-EDCAF350-03D4-4F7B-BCB2-B58A6A29FFD4Q27312535-AFB29949-1881-475D-AE3F-1D4C467AD21CQ27322329-80DE40AB-CE23-45B8-B4A8-2E631D084701Q27334453-7B6A2577-59D9-4CCA-AECB-DE10CA2CD24EQ27340101-AF21F4F8-624A-4DAD-AEDC-A861C761EF93Q28538441-B45332DE-918D-4F5E-B1FE-62BBA21E849FQ30356179-9BAA168E-9A0D-4695-A73B-5D7F8C9086B4Q30358276-7130EF96-40C9-4AA7-88A9-A2A8C0900563Q30374237-5D0181EE-B395-4D76-9F2D-803F07FC71BAQ30374364-707CF903-2487-47F6-82D6-11890B9278DCQ30378616-79309AA6-516C-4236-90C2-D16A7EBFF89AQ30400282-ED142025-4E12-4EA9-B629-57F46EDF9894Q30412519-21B6B27D-C7EA-483C-81B5-95189EF1544FQ30416228-FD893121-C4FD-495A-8C7A-1A1C0144450AQ30432455-1EC943AA-D501-4586-933A-0F97F4266BB3Q30434125-24178E89-0442-4202-A434-CA416A40642DQ30436002-E66EDD23-286C-4E63-8459-CD68151DF4A8Q30442623-1870C98B-8303-4D84-AF28-AC5A25500DD9Q30446993-7C4F0240-B9B1-48D9-976A-C4DE34462888Q30455361-23CC26BB-D5B5-4AFD-A13E-33280A653BDEQ30459141-C2575CB3-5D94-44A4-BC7B-2D58260C038CQ30474002-8422D709-1608-424A-8DCE-0E1F30E6CA0EQ30477641-9AE42183-8AF7-4093-A861-D4D86127270DQ30479578-A09BF5FF-408B-495A-BC4D-1A15F05B20A2Q31034383-12E7BCA6-854D-4AC9-9F79-7C19BCDD6817Q34015326-FB97E731-BA0D-45B4-A01E-C67E5A644CDAQ34114732-AD261DA1-F578-418B-958C-14E5CBD0A8ADQ34258405-28A29D77-2759-4E29-AD75-509C36C8C005Q34678826-B1357142-B798-4028-8F2D-40D33A1B0FF6Q36058854-58CA7420-FF9A-49A5-B75A-09396C9776E3Q36075782-D10AD060-9F3A-4B17-812A-BEE344CA8558Q36200661-92C4856E-24F3-443E-9098-98D19365C25CQ36297030-F6A4984E-B363-463C-9621-E677C82AEC74Q36835545-BF70D3E3-EDBF-4E4F-A2AE-F9C73D90CF27Q37194054-B8E032F5-1BA8-49D7-8081-CA83A32C1279Q38728568-C977B8DC-9BC0-43DB-A456-064341E78054Q38767820-D44F5231-AD39-4474-A250-A1AED440EEF2Q38837715-9E9C16BB-9AE3-4ED0-89DB-752150A6D3CBQ38864446-95E89672-B37C-4287-BF7D-0BB505E4E4A0Q38921502-AD04935A-715B-4F96-BB41-935DA54D8B44
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Hao-Li Liu
@en
Hao-Li Liu
@nl
type
label
Hao-Li Liu
@en
Hao-Li Liu
@nl
prefLabel
Hao-Li Liu
@en
Hao-Li Liu
@nl
P31
P496
0000-0003-1541-1227