1 / 1

The Limits of the Left Hemisphere Interpreter in a Split Brain patient

The Limits of the Left Hemisphere Interpreter in a Split Brain patient. Rami H. Gabriel University of California, Santa Barbara Department of Psychology – Cognitive and Perceptual Sciences. Introduction.

nen
Télécharger la présentation

The Limits of the Left Hemisphere Interpreter in a Split Brain patient

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. The Limits of the Left Hemisphere Interpreter in a Split Brain patient Rami H. Gabriel University of California, Santa BarbaraDepartment of Psychology – Cognitive and Perceptual Sciences Introduction Since a split brain patient has no connection between their two hemispheres, information cannot be sent between them. Thus we are able to test each hemisphere in isolation and explore their individual specializations and idiosyncratic characteristics. The Left hemisphere is dominant in terms of language. The Right hemisphere has very little language ability. We expect the RH to fail at the inferential tasks which involve narrative situations and to succeed at inferential tasks that involve spatial situations. This is because the RH cannot create narratives to string events together and a narrative is essentially a set of inferences and counterfactuals. This experiment is designed to show the dissociation between inferences implicated in the process of narrative formation and inferences in other tasks (viz., spatial) to demonstrate that inference is not a unitary ability but one that is particular to certain levels of practice and use in specialized processes, specifically the Left hemisphere Interpreter. Research has shown that the Right Hemisphere is superior at tasks which necessitate spatial reasoning while the Left Hemisphere is superior at tasks that necessitate higher level cognitive processing. I investigate these findings by exposing a Split Brain patient to two types of sequences of images: a) narrative events (viz. comic strips) and b) spatial patterns. After viewing a given spatial or narrative sequence, the patient is given a two alternative forced choice asking her to decide “what comes next” in a given sequence. Each hemisphere is tested separately using both types of sequences. In this way I am able to compare narrative vs. spatial interpretation across hemispheres. Normal participant responses will be used as control data. I hypothesize that the Right Hemisphere will be able to correctly complete the spatial, but not the narrative sequences; the Left Hemisphere, by contrast, is hypothesized to show the reverse pattern in performance. The basis of this experiment is the question: can the RH make inferences? The literature indicates that the RH has trouble creating narratives, whereas the left hemisphere is adept to the point of making illusory connections (Phelps & Gazzaniga, 1992). Our stimuli consists of specially drawn comic strip sequences (ranging from 3-12 pictures in length) which conclude in a two alternative forced choice between the actual ending, which follows through its inferential relations to the previous images, and another image that contains the same elements but is not inferentially related to the narrative at hand. The results of the inference task within a narrative situation are contrasted with sequences of spatial patterns (3 frames long) concluding with a two alternative forced choice of either the correct next step in the pattern or an image not consistent with the pattern. The motivation for this comparison is that the RH has been found to be adept at tasks of spatial reasoning (Gazzaniga, 2000). Spatial reasoning necessitates inferential capabilities but not in the form of a narrative. There are 28 narrative sequences and 9 spatial sequences. Method – Example of narrative condition 4 3 1 2 Choose which box comes next: This experiment joins the debate on how narrative, and thus interpretation, within consciousness is represented in the mind of a Split Brain patient. It helps clarify the nature of the Left Hemisphere Interpreter through identifying its specific type of content, namely, narrative events. Further work will focus on the nature of the relationship between interpretation and conscious experience. Method - Example of spatial control condition Choose which box comes next: 2 3 1

More Related