Super-Resolution Ultrasound
Super-Resolution Ultrasound Microvascular Imaging represents a groundbreaking advancement in ultrasound technology. By tracking contrast-agent microbubbles within vasculature, it achieves micron-level precision in blood flow visualization. This technology combines unparalleled resolution with deep-tissue penetration, clearly delineating microvascular networks and hemodynamics in brain, liver, kidney, and tumor tissues - providing a transformative tool for early disease diagnosis, mechanistic studies, and treatment monitoring.
Super-Resolution Ultrasound
Super-Resolution Ultrasound Microvascular Imaging represents a groundbreaking advancement in ultrasound technology. By tracking contrast-agent microbubbles within vasculature, it achieves micron-level precision in blood flow visualization. This technology combines unparalleled resolution with deep-tissue penetration, clearly delineating microvascular networks and hemodynamics in brain, liver, kidney, and tumor tissues - providing a transformative tool for early disease diagnosis, mechanistic studies, and treatment monitoring.
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· Microbubble Tracking: Achieves indirect microvascular reconstruction through 1-3 μm contrast-agent microbubble localization
· Super-Resolution: ~20 μm precision, resolving single capillaries when combined with high-frequency transducers
· Deep-Tissue Imaging: >10 cm penetration depth for brain/liver/kidney applications
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Neuroscience Research
-Disease Mechanisms: Visualizes vascular impairment in Alzheimer's amyloid plaque regions and age-related vascular tortuosity changes
-Key Pathologies: Stroke, brain tumors, neurodegenerative disorders
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Oncological Evaluation
-Vascular Heterogeneity: Quantifies correlations between tumor margin hypervascularity, tortuosity and pathological grading
-Treatment Monitoring: Early vascular density changes predict therapeutic response (preceding tumor volume reduction) -
Organ Function Studies
-Kidney: Detects microvascular constriction during acute injury (early-warning indicator preceding serum creatinine rise)
-Testis: Real-time monitors microcirculatory dysfunction in varicocele and other pathologies, assessing hemodynamic abnormalities
-Lymph Nodes: 3D-reconstructs metastatic nodal angiogenesis and flow disturbances
