Sonorover fUS
Precise Functional Imaging for Brain Research
The Sonorover fUS Series uses ultrafast and ultrasensitive ultrasound to monitor blood flow dynamics across the brain’s microvascular network. With spatial resolution at the hundred-micron level, it captures rapid blood flow changes during neurovascular coupling, enabling whole-brain connectivity mapping, seizure monitoring, and evaluation of circulation after stroke.
Sonorover fUS
Precise Functional Imaging for Brain Research
The Sonorover fUS Series uses ultrafast and ultrasensitive ultrasound to monitor blood flow dynamics across the brain’s microvascular network. With spatial resolution at the hundred-micron level, it captures rapid blood flow changes during neurovascular coupling, enabling whole-brain connectivity mapping, seizure monitoring, and evaluation of circulation after stroke.
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·High Temporal Resolution
Optimized pulse sequences enable millisecond-level resolution to precisely capture dynamic brain activity changes.
·High Spatial Resolution
Uses ultra-high frequency probes and beamforming for clear images of microvessels and tissues.
·High-Speed ImagingUses high-frame-rate ultrasound for fast monitoring of brain blood flow, supporting neural activity studies.
·Micro Flow Imaging Technology
Uses super-resolution imaging to see blood flow at the capillary level, beyond traditional ultrasound limits.
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Cerebral Blood Flow Imaging
The fUS system has high sensitivity to blood flow, clearly showing brain microvessels for real-time monitoring of cortical and whole-brain vessels.
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Neurological Disease Model
Supports functional studies in small animals to explore brain injury, stroke, epilepsy, and Parkinson’s disease.
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Brain Functional Research
Studies neural activity during behaviors in small animals to understand brain networks involved in cognition and movement.
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Drug Testing and Evaluation
Monitors real-time brain function to assess drug and treatment effects.
