Clinical Perfusion MRI
Techniques and Applications
Herausgeber: Barker, Peter B; Zaharchuk, Gregory; Golay, Xavier
Clinical Perfusion MRI
Techniques and Applications
Herausgeber: Barker, Peter B; Zaharchuk, Gregory; Golay, Xavier
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
This concise and comprehensive review uniquely contains all the information required to perform and interpret clinical MR perfusion imaging.
Andere Kunden interessierten sich auch für
- Biopharmaceutical Processing383,99 €
- Paul SuetensFundamentals of Medical Imaging167,99 €
- Craig H. MallinckrodtPreventing and Treating Missing Data in Longitudinal Clinical Trials41,99 €
- Gary LineyMRI from A to Z69,99 €
- David J. GrandPractical Body MRI120,99 €
- Mri-Negative Epilepsy210,99 €
- Essential Medical Imaging103,99 €
-
-
-
This concise and comprehensive review uniquely contains all the information required to perform and interpret clinical MR perfusion imaging.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 368
- Erscheinungstermin: 28. Juni 2013
- Englisch
- Abmessung: 249mm x 196mm x 33mm
- Gewicht: 1293g
- ISBN-13: 9781107013391
- ISBN-10: 1107013399
- Artikelnr.: 37067844
- Verlag: Cambridge University Press
- Seitenzahl: 368
- Erscheinungstermin: 28. Juni 2013
- Englisch
- Abmessung: 249mm x 196mm x 33mm
- Gewicht: 1293g
- ISBN-13: 9781107013391
- ISBN-10: 1107013399
- Artikelnr.: 37067844
Preface; Part I. Techniques: 1. Imaging of flow: basic principles James R.
Ewing, David Bonekamp and Peter B. Barker; 2. Susceptibility contrast MRI:
acquisition and analysis techniques Matthias J. P. van Osch; 3. Arterial
spin labeling-MRI: acquisition and analysis techniques Xavier Golay; 4.
DCE-MRI: acquisition and analysis techniques Paul S. Tofts and Geoff J. M.
Parker; 5. Imaging of brain oxygenation Weili Lin, Hongyu An, Andria Ford,
Katie Vo, Jin-Moo Lee and Greg Zaharchuk; 6. Vascular space occupancy
(VASO) imaging of cerebral blood volume Hanzhang Lu and Jinsoo Uh; 7. MR
perfusion imaging in neuroscience Manus J. Donahue and Peter Jezzard; Part
II. Clinical Applications: 8. MR perfusion imaging in neurovascular disease
Greg Zaharchuk; 9. MR perfusion imaging in neurodegenerative disease
Norbert Schuff; 10. MR perfusion imaging in clinical neuroradiology Blake
E. McGehee, Joseph A. Maldjian and Jonathan Burdette; 11. MR perfusion
imaging in oncology: neuro applications Ramon Francisco Barajas, Jr and
Soonmee Cha; 12. MR perfusion imaging in oncology: applications outside the
brain James P. B. O'Connor and Geoff J. M. Parker; 13. MR perfusion imaging
in breast cancer Riham El-Khouli, Katarzyna J. Macura and David A. Bluemke;
14. MR perfusion imaging in the body: kidney, liver, and lung Pottumarthi
V. Prasad and Robert R. Edelman; 15. MR perfusion imaging in cardiac
diseases Jürg Schwitter; 16. MR perfusion imaging in pediatrics Neel Madan
and P. Ellen Grant; Index.
Ewing, David Bonekamp and Peter B. Barker; 2. Susceptibility contrast MRI:
acquisition and analysis techniques Matthias J. P. van Osch; 3. Arterial
spin labeling-MRI: acquisition and analysis techniques Xavier Golay; 4.
DCE-MRI: acquisition and analysis techniques Paul S. Tofts and Geoff J. M.
Parker; 5. Imaging of brain oxygenation Weili Lin, Hongyu An, Andria Ford,
Katie Vo, Jin-Moo Lee and Greg Zaharchuk; 6. Vascular space occupancy
(VASO) imaging of cerebral blood volume Hanzhang Lu and Jinsoo Uh; 7. MR
perfusion imaging in neuroscience Manus J. Donahue and Peter Jezzard; Part
II. Clinical Applications: 8. MR perfusion imaging in neurovascular disease
Greg Zaharchuk; 9. MR perfusion imaging in neurodegenerative disease
Norbert Schuff; 10. MR perfusion imaging in clinical neuroradiology Blake
E. McGehee, Joseph A. Maldjian and Jonathan Burdette; 11. MR perfusion
imaging in oncology: neuro applications Ramon Francisco Barajas, Jr and
Soonmee Cha; 12. MR perfusion imaging in oncology: applications outside the
brain James P. B. O'Connor and Geoff J. M. Parker; 13. MR perfusion imaging
in breast cancer Riham El-Khouli, Katarzyna J. Macura and David A. Bluemke;
14. MR perfusion imaging in the body: kidney, liver, and lung Pottumarthi
V. Prasad and Robert R. Edelman; 15. MR perfusion imaging in cardiac
diseases Jürg Schwitter; 16. MR perfusion imaging in pediatrics Neel Madan
and P. Ellen Grant; Index.
Preface; Part I. Techniques: 1. Imaging of flow: basic principles James R.
Ewing, David Bonekamp and Peter B. Barker; 2. Susceptibility contrast MRI:
acquisition and analysis techniques Matthias J. P. van Osch; 3. Arterial
spin labeling-MRI: acquisition and analysis techniques Xavier Golay; 4.
DCE-MRI: acquisition and analysis techniques Paul S. Tofts and Geoff J. M.
Parker; 5. Imaging of brain oxygenation Weili Lin, Hongyu An, Andria Ford,
Katie Vo, Jin-Moo Lee and Greg Zaharchuk; 6. Vascular space occupancy
(VASO) imaging of cerebral blood volume Hanzhang Lu and Jinsoo Uh; 7. MR
perfusion imaging in neuroscience Manus J. Donahue and Peter Jezzard; Part
II. Clinical Applications: 8. MR perfusion imaging in neurovascular disease
Greg Zaharchuk; 9. MR perfusion imaging in neurodegenerative disease
Norbert Schuff; 10. MR perfusion imaging in clinical neuroradiology Blake
E. McGehee, Joseph A. Maldjian and Jonathan Burdette; 11. MR perfusion
imaging in oncology: neuro applications Ramon Francisco Barajas, Jr and
Soonmee Cha; 12. MR perfusion imaging in oncology: applications outside the
brain James P. B. O'Connor and Geoff J. M. Parker; 13. MR perfusion imaging
in breast cancer Riham El-Khouli, Katarzyna J. Macura and David A. Bluemke;
14. MR perfusion imaging in the body: kidney, liver, and lung Pottumarthi
V. Prasad and Robert R. Edelman; 15. MR perfusion imaging in cardiac
diseases Jürg Schwitter; 16. MR perfusion imaging in pediatrics Neel Madan
and P. Ellen Grant; Index.
Ewing, David Bonekamp and Peter B. Barker; 2. Susceptibility contrast MRI:
acquisition and analysis techniques Matthias J. P. van Osch; 3. Arterial
spin labeling-MRI: acquisition and analysis techniques Xavier Golay; 4.
DCE-MRI: acquisition and analysis techniques Paul S. Tofts and Geoff J. M.
Parker; 5. Imaging of brain oxygenation Weili Lin, Hongyu An, Andria Ford,
Katie Vo, Jin-Moo Lee and Greg Zaharchuk; 6. Vascular space occupancy
(VASO) imaging of cerebral blood volume Hanzhang Lu and Jinsoo Uh; 7. MR
perfusion imaging in neuroscience Manus J. Donahue and Peter Jezzard; Part
II. Clinical Applications: 8. MR perfusion imaging in neurovascular disease
Greg Zaharchuk; 9. MR perfusion imaging in neurodegenerative disease
Norbert Schuff; 10. MR perfusion imaging in clinical neuroradiology Blake
E. McGehee, Joseph A. Maldjian and Jonathan Burdette; 11. MR perfusion
imaging in oncology: neuro applications Ramon Francisco Barajas, Jr and
Soonmee Cha; 12. MR perfusion imaging in oncology: applications outside the
brain James P. B. O'Connor and Geoff J. M. Parker; 13. MR perfusion imaging
in breast cancer Riham El-Khouli, Katarzyna J. Macura and David A. Bluemke;
14. MR perfusion imaging in the body: kidney, liver, and lung Pottumarthi
V. Prasad and Robert R. Edelman; 15. MR perfusion imaging in cardiac
diseases Jürg Schwitter; 16. MR perfusion imaging in pediatrics Neel Madan
and P. Ellen Grant; Index.