Theragnostic 3D Ultrasound Imaging System for High-Resolution Image-Guided Therapy - Winter 2022

Theragnostic 3D Ultrasound Imaging System for High-Resolution Image-Guided Therapy - Winter 2022

Stanford Radiology via YouTube Direct link

Intro

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1 of 18

Intro

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Theragnostic 3D Ultrasound Imaging System for High-Resolution Image-Guided Therapy - Winter 2022

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  1. 1 Intro
  2. 2 Principles of ultrasound imaging
  3. 3 Ultrafast imaging: a new paradigm for ultrasound
  4. 4 Challenges of clinical ultrasound imaging
  5. 5 Wider arrays → more elements and more data The 1024-channel system
  6. 6 Large aperture geometries - ring array
  7. 7 Large aperture geometries - 2D array
  8. 8 How to optimize image-guided gene delivery?
  9. 9 How to fix the design geometry?
  10. 10 The imaging performance on point targets at 10 cm
  11. 11 Final design and steering capabilites
  12. 12 2D plane wave compounding
  13. 13 The image formation process
  14. 14 The importance of elevation focusing
  15. 15 Ex vivo assessment of microbubble sonication
  16. 16 How can we optimize 1024 channels to detect small lesions ?
  17. 17 Application to breast imaging (R01 CA258807) Awarded Dec 15th 2021
  18. 18 A wide range of clinical applications

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