This interactive session covered practical techniques for optimizing image acquisition, improving workflow, and enhancing data quality across a range of research models. Participants asked questions in real time, troubleshoot challenges and explored new applications; from advanced Doppler methods to guided injections and functional imaging. Whether you’re refining existing skills or expanding into new modalities, this workshop offered hands-on guidance to elevate your ultrasound research.
Overview
This virtual workshop provided a deep dive into the full spectrum of preclinical ultrasound imaging, covering applications across oncology, cardiology, abdominal research, and developmental biology. Attendees learned how to optimize B-mode, M-mode, Doppler, contrast-enhanced imaging, and 3D acquisitions to capture reliable, high-resolution physiological data. Case-based demonstrations highlighted tumor growth monitoring, vascular remodeling, cardiac function assessment, fetal development imaging, and noninvasive abdominal organ evaluation, showing how ultrasound can be integrated into longitudinal, multimodal research pipelines.
Participants were encouraged to arrive with specific questions, imaging challenges, and new applications they wanted assistance with. The workshop provided hands-on guidance for advanced techniques such as shear wave elastography, high-frequency 3D imaging, and ultrasound-guided injections for precise delivery of cells, therapeutics, and viral vectors. Through interactive discussions, live feedback, and real-time troubleshooting tailored to attendees’ needs, researchers left with improved imaging skills, clearer workflows, and customized strategies for applying ultrasound across diverse preclinical models.
Learning objectives
- Understand core preclinical ultrasound modes (B-mode, M-mode, Doppler, Contrast, and 3D) and how to optimize them for various research models.
- Learn practical workflows for imaging in oncology, cardiology, abdominal studies, and developmental biology.
- Gain hands-on exposure to advanced techniques such as shear wave elastography, volumetric 3D imaging, and ultrasound-guided injections.
- Bring project-specific questions and applications to receive tailored guidance, troubleshooting, and method recommendations.
- Develop strategies to integrate ultrasound into multimodal and longitudinal in vivo study designs.
Learn more about our Preclinical Ultrasound System: https://scintica.com/product/imaging/high-frequency-ultrasound/
Sharper Images, Stronger Studies- Optimizing Your Preclinical Ultrasound Techniques