Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 The importance of specific diagnosis in stroke patient management
- 2 Limitations of current brain imaging modalities in stroke
- 3 Clinical efficacy of CT in acute cerebral ischemia
- 4 Computerized tomographic-based evaluation of cerebral blood flow
- 5 Technical introduction to MRI
- 6 Clinical use of standard MRI
- 7 MR angiography of the head and neck: basic principles and clinical applications
- 8 Stroke MRI in intracranial hemorrhage
- 9 Using diffusion-perfusion MRI in animal models for drug development
- 10 Localization of stroke syndromes using diffusion-weighted MR imaging (DWI)
- 11 MRI in transient ischemic attacks: clinical utility and insights into pathophysiology
- 12 Perfusion-weighted MRI in stroke
- 13 Perfusion imaging with arterial spin labelling
- 14 Clinical role of echoplanar MRI in stroke
- 15 The ischemic penumbra: the evolution of a concept
- 16 New MR techniques to select patients for thrombolysis in acute stroke
- 17 MRI as a tool in stroke drug development
- 18 Magnetic resonance spectroscopy in stroke
- 19 Functional MRI and stroke
- Index
- Plate Section
7 - MR angiography of the head and neck: basic principles and clinical applications
Published online by Cambridge University Press: 26 August 2009
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 The importance of specific diagnosis in stroke patient management
- 2 Limitations of current brain imaging modalities in stroke
- 3 Clinical efficacy of CT in acute cerebral ischemia
- 4 Computerized tomographic-based evaluation of cerebral blood flow
- 5 Technical introduction to MRI
- 6 Clinical use of standard MRI
- 7 MR angiography of the head and neck: basic principles and clinical applications
- 8 Stroke MRI in intracranial hemorrhage
- 9 Using diffusion-perfusion MRI in animal models for drug development
- 10 Localization of stroke syndromes using diffusion-weighted MR imaging (DWI)
- 11 MRI in transient ischemic attacks: clinical utility and insights into pathophysiology
- 12 Perfusion-weighted MRI in stroke
- 13 Perfusion imaging with arterial spin labelling
- 14 Clinical role of echoplanar MRI in stroke
- 15 The ischemic penumbra: the evolution of a concept
- 16 New MR techniques to select patients for thrombolysis in acute stroke
- 17 MRI as a tool in stroke drug development
- 18 Magnetic resonance spectroscopy in stroke
- 19 Functional MRI and stroke
- Index
- Plate Section
Summary
Since the first publication of a clinical magnetic resonance angiogram (MRA) in 1985, there has been extensive growth in the vascular applications of magnetic resonance. Although for many years a purely investigational tool, the technology and validation studies have progressed to the point that MRA has largely supplanted X-ray angiography (XRA) for evaluation of the extracranial carotid arteries, and is often an alternative to XRA for evaluation of the vertebral arteries and circle of Willis.
In this chapter, we will first review the basic principles of MRA, including time of flight and phase contrast techniques, and introduce the use of paramagnetic contrast agents for MRA. Advantages and pitfalls of MRA as compared with duplex sonography (DUS) and XRA will be addressed, and we will consider future directions for this rapidly advancing technology.
Basic principles of MRA
Unlike computed tomography (CT), which relies solely on the attenuation of X-ray photons to generate an image, MR uses a combination of magnetic fields and radiofrequency energy in order to produce images. The appearance of blood in an MR image depends on the intrinsic magnetic relaxation properties (T1 and T2), the oxygenation status and physical state of the blood (e.g. venous vs. arterial vs. hematoma), the direction, rate, and pulsatility of flow, as well as the presence of exogenously administered contrast agents.
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- Magnetic Resonance Imaging in Stroke , pp. 85 - 102Publisher: Cambridge University PressPrint publication year: 2003
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