Advances in Cardiovascular MRI Steven Wolff

Advances in Cardiovascular MRI

Steven Wolff

Martin Prince

Hall 2

Alsh

Study Group program detail available at http://www.ismrm.org/01

Hall 1

Study Group program detail available at http://www.ismrm.org/01

Forth

Study Group program detail available at http://www.ismrm.org/01

Hall 1

• 
  Recognize the relevance of recent MRI technology developments to diagnostic imaging of the chest, abdomen, and pelvis.
  
• 
  Identify the role of fast imaging sequences in body MRI techniques.
  
• 
  Describe new imaging applications for evaluating abnormalities of the abdominal and pelvic organs.
  
• 
  Implement new protocols for functional imaging of the lung, pancreas, kidney, prostate, and pelvic floor.
  
• 
  Recognize the potential value of new methods for interpreting body MRI data.
  

07:00 Functional MRCP

07:20 Perfusion MR in the Pelvis

07:40 Perfusion MR in the Abdomen

Hall 2

• 
  List and explain the advantages of imaging, spectroscopy and fMRI at field strengths of 3T and higher compared to 1.5T and lower.
  
• 
  Describe the basic components of a high-field system for clinical imaging and research.
  
• 
  Imaging: List clinical imaging methods, applications and research directions enhanced by high-field MRI.
  
• 
  Spectroscopy: Appraise spectroscopy as a diagnostic tool at 3T; review research progress at fields to 7T.
  
• 
  fMRI: Evaluate the clinical potential of fMRI at 3T and research applications to 7T; explain fMRI contrast mechanisms and their dependency on field strength.
  
• 
  Recognize the role(s) of high-field fMRI in the clinic or laboratory.
  

07:00 Spectroscopy Diagnostics

07:30 Spectroscopy Research

Hall 5

• 
  Describe the current theoretical models for the hemodynamic response to brain activation.
  
• 
  Identify those physiological parameters which are accessible to MR measurement.
  
• 
  Explain the optimum experimental methods for accessing these parameters.
  
• 
  Describe emerging areas of functional MRI methodology.
  

07:00 Characterizing the Hemodynamic Response

07:15 Dynamic Measurement of Cerebral Blood Flow

07:30 Dynamic Measurement of Cerebral Blood Volume

07:45 Discussion

Lomond

• 
  Use MRI findings to identify mechanisms of joint injury and improve their diagnosis of sports-related abnormalities.
  
• 
  Tailor MRI protocols to address sports-related musculoskeletal injuries.
  
• 
  Explain the role of MR arthrography in the evaluation of intro-articular injuries.
  
• 
  Assess the clinical relevance of sports injuries and correlate MRI findings with surgical treatments.
  
• 
  Distinguish trauma-related bone and muscle injuries from neoplastic lesions.
  

07:00 MRI in Surgical Therapy of Cartilage and ACL Injuries

07:25 Muscle and Tendon Injuries

07:50 Discussion

Forth

• 
  Describe gridding theory and compare different gridding techniques.
  
• 
  Describe the hardware used in real-time imaging.
  
• 
  Explain reconstruction techniques used when the usual amount of data is not available.
  
• 
  Describe specialized techniques to correct for system imperfections and to reduce effects of noise.
  

07:00 Fluoroscopy and Real-Time Reconstruction Processor

07:30 Reconstruction of Data from Multiple Coils

Clyde Auditorium

08:15 - 09:30
Chairs: Mathias Hoehn
Chrit Moonen

Educational Objectives
Upon completion of this session, participants should be able to

• 
  Evaluate the economic and medical implications for MRI of an aging population.
  
• 
  Identify technical approaches to enhance patient throughput.
  
• 
  Describe how the normal “aged” brain differs from a normal “young” brain.
  
• 
  Use various MR techniques to detect disease processes associated with aging in the brain, the cardiovascular system, and the musculoskeletal system.