2009 Alina Liberman: Difference between revisions
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As mentioned above, Golarai et al. (2007) showed that the right FFA (Figure 1 and 2) and left PPA (Figure 3) are significantly smaller in children and that FFA size correlates with face-recognition memory performance on a recognition memory test for faces, abstract sculptures and places. No age difference was found in face-selective STS or object-selective LOC (Figure 3). | As mentioned above, Golarai et al. (2007) showed that the right FFA (Figure 1 and 2) and left PPA (Figure 3) are significantly smaller in children and that FFA size correlates with face-recognition memory performance on a recognition memory test for faces, abstract sculptures and places. No age difference was found in face-selective STS or object-selective LOC (Figure 3). | ||
<gallery widths= | <gallery widths=200px> | ||
File:GolaraiFFAResults.JPG| Figure 1 | File:GolaraiFFAResults.JPG| Figure 1 | ||
File:GolaraiChildFFA.JPG| Figure 2 | File:GolaraiChildFFA.JPG| Figure 2 | ||
Revision as of 05:21, 17 August 2010
Back to Psych 204 Projects 2009
Fusiform Face Area Development
The Fusiform Face Area (FFA) is a region in the occipitotemporal cortex that preferentially responds to visual face stimuli compared to place or object stimuli. Golarai et al.(2007) found that the right FFA was significantly smaller in children (ages 7-11) than in adolescents (12-16) or adults (>18). This size difference was not present for the right or left hemisphere face-selective superior temporal sulcus (STS) or object-selective lateral occipital complex area (LOC). The left hemisphere place-selective parahippocampal place area (PPA) was also significantly smaller in children. These results support a region and category-specific development of high-level visual cortex for faces and places.
An ongoing follow-up study with a new set of subjects and stimuli replicates the right FFA results, except that we find a significantly smaller right FFA in adolescents ages 12-16. This result suggests that cortical development for face processing continues beyond childhood and into adolescence. What may account for this difference in results? In addition to slightly different stimuli, the original study had different analysis methods for their fMRI data. The original study had bigger voxels (3.75mm x 3.75mm vs. 3.125mm x 3.125mm in-plane resolution) and spatially smoothed the data using a 6mm full-width-half-maximum kernel. Scherf et al.(2007) also only found a significant difference in the right FFA in kids but not adolescents, but this study spatially normalized their data into Talairach space. As a result, I wanted to ask the following questions:
- How would the current data, analyzed in native space and without spatial smoothing, change if it was spatially smoothed and normalized?
- Specifically, how would the group-map differ from the individual maps in terms of face-, place-, and object-selective ROI locations, response amplitudes, and sizes?
- Would there still be a significant age difference in the size of the right FFA between adolescents and adults?
Background
The ventral temporal cortex contains different regions that respond preferentially to faces more strongly than objects, objects more strongly than scrambled objects, or places more strongly than objects and faces.
The FFA is located on the fusiform gyrus in the ventral temporal cortex. It was first described as a module for face processing in Kanwisher et al. (1997). Since then, there has been a lot of debate about the properties of the FFA, including whether or not it processes other relevant and well-known objects.
As mentioned above, Golarai et al. (2007) showed that the right FFA (Figure 1 and 2) and left PPA (Figure 3) are significantly smaller in children and that FFA size correlates with face-recognition memory performance on a recognition memory test for faces, abstract sculptures and places. No age difference was found in face-selective STS or object-selective LOC (Figure 3).
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Figure 1
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Figure 2
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Figure 3
Methods
Measuring object selective cortex
Object-selective cortical maps were obtained in 25 subjects using two localizer scans. The right and left FFA was localized in most of the subjects using an uncorrected threshold of p=.001.
Subjects
Subjects were 14 healthy adolescents and 11 healthy adults .
MR acquisition
Data were obtained on a GE scanner.
MR Analysis
The MR data was analyzed using mrVista software tools.
Pre-processing
All data were slice-time corrected, motion corrected, and repeated scans were averaged together to create a single average scan for each subject. Et cetera.
GLM model fits
Results
Retinotopic models in native space
Some text. Some analysis. Some figures.
Conclusions
Here is where you say what your results mean.
References - Resources and related work
References
Software