C: What Life Scientists Should Know About Imaging Modalities

Optical Imaging, Ultrasound, Photoacoustics


Physics of Ultrasound Imaging by Georg Schmitz
Learning Objectives & Abstract PDF


Physics of Ultrasound Imaging – Contrast Agents and Flow Imaging by Georg Schmitz
Learning Objectives & Abstract PDF


Advanced Microscopy Technologies by Udo Birk
Learning Objectives & Abstract PDF


Advanced Microscopy Technologies by Jorge Ripoll
Learning Objectives & Abstract PDF


Optical Tomography by Jorge Ripoll
Learning Objectives & Abstract PDF


Optical Tomography of Deep Tissues by Joseph P. Culver
Learning Objectives & Abstract PDF


Optoacoustic Imaging by Vasilis Ntziachristos
Learning Objectives & Abstract PDF


Photoacoustic Imaging by Stanislav Emelianov
Learning Objectives & Abstract PDF


Presentation 1: Advanced Beamforming for Fast 2D and 3D Imaging by Pai-Chi Li
Learning Objectives & Abstract PDF
Presentation 2: Application of Optical Projection Tomography to observe in-vivo and ex-vivo specimens by Di Dong
Learning Objectives & Abstract PDF
Presentation 3: Image reconstruction methods: The principles of Diffuse Light Propagation. From datasets to 3D tomographic images by Athanasios Zacharopoulos
Learning Objectives & Abstract PDF
Presentation 4: Multiscale molecular and functional photoacoustic imaging: fundamentals, applications, and prospects by Liang Song
Learning Objectives & Abstract PDF
Please note- the slides in these presentations can be advanced using the navigation controls on the presentation frame.

 

MR Fundamentals for Life Scientists


Introduction to MR Physics by Andrew Fagan
Learning Objectives & Abstract PDF


Introduction to MR Hardware – RF Coils by Dominik von Elverfeldt
Learning Objectives & Abstract PDF


Introduction to Magnetic Resonance II: Macroscopic and Microscopic Magnetization Effects by Truman R. Brown
Learning Objectives & Abstract PDF


Magnets for Magnetic Resonance Imaging Systems by Michael Parizh
Learning Objectives & Abstract PDF


Contemporary MR: Pushing the Limits by Joel R. Garbow
Learning Objectives & Abstract PDF


Other Practical Considerations by T. Dixon
Learning Objectives & Abstract PDF


Presentation 1: Hyperpolarized MRI sensors and contrast mechanisms by Leif Schröder
Learning Objectives & Abstract PDF
Presentation 2: Chemical Design of Magnetic Nanoparticles for MR Imaging Agent by Jinwoo Cheon
Learning Objectives & Abstract PDF
Presentation 3: MRI reporters by Eric T. Ahrens
Learning Objectives & Abstract PDF
Please note- the slides in these presentations can be advanced using the navigation controls on the presentation frame.

 

Nuclear Imaging: Physical Principles and Instrumentation


Principles of PET and SPECT by Steven Meikle
Learning Objectives & Abstract PDF


Principles of PET and SPECT by Roger Fulton
Learning Objectives & Abstract PDF


Detector Technologies by Dennis Schaart
Learning Objectives & Abstract PDF


SPECT and PET Detector Technologies by Dennis R. Schaart
Learning Objectives & Abstract PDF


Hybrid Imaging Systems by Roger Fulton
Learning Objectives & Abstract PDF


PET and SPECT Based Hybrid Imaging Systems by Robert Miyaoka
Learning Objectives & Abstract PDF


Presentation 1: Principles of SPECT and PET by Robert Miyaoka
Learning Objectives & Abstract PDF
Presentation 2: Detector Technologies by Dennis R. Schaart
Learning Objectives & Abstract PDF
Presentation 3: SPECT and PET Based Hybrid Imaging Systems by Jae Sung Lee
Learning Objectives & Abstract PDF
Please note- the slides in these presentations can be advanced using the navigation controls on the presentation frame.