Shape Analysis on Neuroimaging Data: Difference between revisions
imported>Projects221 No edit summary |
imported>Projects221 |
||
| Line 3: | Line 3: | ||
== Introduction == | == Introduction == | ||
Magnetic Resonance Diffusion Imaging coupled with tractography is a recent technique to estimate trajectories of white-matter neuronal tracts (fascicles) in the living human brain. Understanding the relationships between structure and function in the brain is a key interest in neuroscience. In this project we explored the efficacy of projections in describing the shape of two types of neuroimaging data: Structural MRI and Diffusion Weighted MRI coupled with tractography. | |||
== Data == | == Data == | ||
Revision as of 23:09, 20 March 2014
Tanya Glozman
Introduction
Magnetic Resonance Diffusion Imaging coupled with tractography is a recent technique to estimate trajectories of white-matter neuronal tracts (fascicles) in the living human brain. Understanding the relationships between structure and function in the brain is a key interest in neuroscience. In this project we explored the efficacy of projections in describing the shape of two types of neuroimaging data: Structural MRI and Diffusion Weighted MRI coupled with tractography.
Data
Methods
- Describe your algorithm or approach. - Detail any issues or problems that were particularly important. - Emphasize the parts of the project that you wrote (instead of ISET or downloaded code). - Describe the analysis in enough detail so that someone could understand and repeat your analysis. - What data and software did you use? What were the ideas of the algorithm and data analysis?
Results
- Organize your results in a good logical order (not necessarily historical order). - Include relevant graphs and/or images. Make sure graph axes are labeled. - Make sure you draw the reader's attention to the key element of the figure. - The key aspect should be the most visible element of the figure or graph. Help the reader by writing a clear figure caption.
Conclusions
- Describe what you learned. What worked? What didn't? Why? What would you do if you kept working on the project?
References
_ List references. Include links to papers that are online.
Appendix I
This project is ongoing. The data was acquired through collaboration with Dr. Franco Pestilli (for the connectome data )and Prof. Tony Norcia's group (for the structural MRI data. I am not free to share the data. Since we are hoping to publish the results of this work, we prefer to not share the code currently. Please email tanyagl@stanford.edu if you'd like to learn more.