Principles of Neuroimaging B - 2014: Difference between revisions
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==''Monday 2/24/14. TMS. ''Speaker'': [http://faculty.bri.ucla.edu/institution/personnel?personnel_id=121107 Allan Wu]== | ==''Monday 2/24/14. TMS. ''Speaker'': [http://faculty.bri.ucla.edu/institution/personnel?personnel_id=121107 Allan Wu]== | ||
'Required Readings'' | 'Required Readings'' | ||
:* [[media: | :* [[media:Wu-TMS-2014-02-24-sm.pdf | Wu 2013 Lecture slides]] | ||
:* [[media:TMSSafetyAndEthics-Rossi.pdf | TMS Safety and Ethics - Rossi, 2009]] | :* [[media:TMSSafetyAndEthics-Rossi.pdf | TMS Safety and Ethics - Rossi, 2009]] | ||
:* [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6T0J-50CV801-1&_user=4423&_coverDate=01%2F31%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000059605&_version=1&_urlVersion=0&_userid=4423&md5=f9fa3c7d63942dfb3c74e047a1f848bc&searchtype=a | M Sandrini, C Umilta and E Rusconi, “''The use of transcranial magnetic stimulation in cognitive neuroscience: a new synthesis of methodological issues.''” '''Neurosci Biobehav Rev''', '''35'''(3): p. 516-536. 2011] | :* [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6T0J-50CV801-1&_user=4423&_coverDate=01%2F31%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000059605&_version=1&_urlVersion=0&_userid=4423&md5=f9fa3c7d63942dfb3c74e047a1f848bc&searchtype=a | M Sandrini, C Umilta and E Rusconi, “''The use of transcranial magnetic stimulation in cognitive neuroscience: a new synthesis of methodological issues.''” '''Neurosci Biobehav Rev''', '''35'''(3): p. 516-536. 2011] | ||
''Suggested Further Reading'' | ''Suggested Further Reading'' | ||
Once upon a time we demonstrated that this sort of magnetic stimulation can take place in the MRI machines: | Once upon a time we demonstrated that this sort of magnetic stimulation can take place in the MRI machines: | ||
:*[http://onlinelibrary.wiley.com/doi/10.1002/mrm.1910140226/pdf MS Cohen, RM Weisskoff, RR Rzedzian and HL Kantor, “Sensory stimulation by time-varying magnetic fields.” Magnetic Resonance in Medicine, 14(2): p. 409-414. 1990] | :*[http://onlinelibrary.wiley.com/doi/10.1002/mrm.1910140226/pdf MS Cohen, RM Weisskoff, RR Rzedzian and HL Kantor, “Sensory stimulation by time-varying magnetic fields.” Magnetic Resonance in Medicine, 14(2): p. 409-414. 1990] | ||
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==Wednesday 2/26/14. PET applications. ''Speaker'': [http://www.semel.ucla.edu/profile/edythe-london Edythe London]== | ==Wednesday 2/26/14. PET applications. ''Speaker'': [http://www.semel.ucla.edu/profile/edythe-london Edythe London]== | ||
:*[[Media: | :*[[Media:London_NITP_PET_2-26-14_sm.pdf | Dr. Edythe London PET Slides]] | ||
=Week 9 - Spectroscopy= | =Week 9 - Spectroscopy= | ||
==''Monday 3/3/14'' - Class canceled== | ==''Monday 3/3/14'' - Class canceled== | ||
==''Wednesday 3/5/14'' - Spectroscopy. "Speaker:" Albert Thomas - UCLA Radiology | ==''Wednesday 3/5/14'' - Spectroscopy. "Speaker:" Albert Thomas - UCLA Radiology. Handouts distributed in class | ||
=Week 10 - Compressed sensing and finals= | =Week 10 - Compressed sensing and finals= | ||
==''Monday 3/10/14'' - Compressed Sensing. "Speaker:" Ming Yan - UCLA Applied Mathematics | ==''Monday 3/10/14'' - Compressed Sensing. "Speaker:" Ming Yan - UCLA Applied Mathematics | ||
:*[[IntroductionToCS.pdf | Ming Yan's slides on compressive sensing]] | |||
''Suggested Further Reading'' | ''Suggested Further Reading'' | ||
:*READING | :*READING | ||
Revision as of 05:15, 11 March 2014
Principles of Neuroimaging B, Winter, 2012 - Class Schedule and Syllabus
Week 1 - A late start
Monday 1/6/14, Wednesday 1/8/14 - No Class
Week 2 - in class lab project
Monday 1/13/14, Wednesday 1/15/14 - EKG Circuit Build Speaker: Cameron Rodriguez
Week 4 Magnetic Resonance Imaging
Magnetic Resonance Imaging (MRI) is probably the most influential and most felxible current means of imaging the human brain. It features a vast number of separable contrast mechanisms, and a near ideal combination of non-invasiveness, safety, resolution and metric accuracy. However, it is extraordinarily expensive and has limited temporal resolution, especially for functional studies == OUTLINE Required Readings
- MRI Slides
- These notes by Joseph Hornak are highly professional and complete coverage of MRI.
- eMRI is another excellent online MRI learning resource
- Erwin Hahn - Spin Echoes: Essential reading for the MRI community
above: Figure 1 from Hahn, 1950
Suggested Further Reading
Monday 1/27/1 - MRI I. Speaker: Cohen
Required Readings
Wednesday 1/29/14 - MRI II. Speaker: Cohen
Week 5 MRI and multimodal imaging
Monday 2/3/14 - MRI (fMRI) III. Speaker: Cohen
Wednesday 2/5/14 - Multimodal imaging. Speaker: Cohen
=Week 6 Diffusion and PET ==Monday 2/10/14 - Diffusion imaging. Speaker: Ben Ellingson Required Readings Slides should be up soon. Suggested Further Reading
- Sadly, the library does not have a subscription for the journals below (Mark has copies on reserve in his office):
Wednesday 2/12/14 - Positron Emission Tomography. Speaker: Magnus Dahlboun
Handouts distributed in class.
Week 7
Monday 2/17/14 Presidents Day - No class
Wednesday 2/19/14
Week 8 Transcranial Magnetostimulation and PET applications
Monday 2/24/14. TMS. Speaker: Allan Wu
'Required Readings
Suggested Further Reading Once upon a time we demonstrated that this sort of magnetic stimulation can take place in the MRI machines:
Wednesday 2/26/14. PET applications. Speaker: Edythe London
Week 9 - Spectroscopy
Monday 3/3/14 - Class canceled
==Wednesday 3/5/14 - Spectroscopy. "Speaker:" Albert Thomas - UCLA Radiology. Handouts distributed in class
Week 10 - Compressed sensing and finals
==Monday 3/10/14 - Compressed Sensing. "Speaker:" Ming Yan - UCLA Applied Mathematics
Suggested Further Reading
- READING