Oncology
Tumor Research Applications: Ultrasound imaging provides a non-invasive solution for in vivo monitoring, enabling dynamic tracking of tumor progression and treatment response. High-frequency imaging delineates morphological features and internal structural changes, while contrast-enhanced techniques precisely evaluate neovascularization and perfusion. This real-time approach offers operational simplicity and repeatable observations, serving as a robust tool for investigating tumor mechanisms and assessing anti-cancer drug efficacy.
Oncology
Tumor Research Applications: Ultrasound imaging provides a non-invasive solution for in vivo monitoring, enabling dynamic tracking of tumor progression and treatment response. High-frequency imaging delineates morphological features and internal structural changes, while contrast-enhanced techniques precisely evaluate neovascularization and perfusion. This real-time approach offers operational simplicity and repeatable observations, serving as a robust tool for investigating tumor mechanisms and assessing anti-cancer drug efficacy.
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· Tumor Detection & Grading: Accurately evaluates tumor size, morphology, and margins through 2D/3D imaging.
· Vascular Perfusion Assessment: Utilizes color Doppler mode to evaluate tumor hemodynamics and angiogenesis.
· Treatment Response Monitoring: Tracks real-time tumor volume and hemodynamic changes during pharmacotherapy to assess therapeutic efficacy.
· Tumor Model Establishment: Guides precise tumor cell injection for orthotopic models, enhancing engraftment success rates.
