Acute effects of alcohol on neural correlates of episodic memory encoding Söderlund, H., Grady,...
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Transcript of Acute effects of alcohol on neural correlates of episodic memory encoding Söderlund, H., Grady,...
Acute
effec
ts o
f alc
ohol
on n
eura
l
corr
elat
es o
f episo
dic m
emor
y
enco
ding
Söder
lund, H
., Gra
dy, C.L
., Eas
don, C
. & T
ulving, E
.
By Miranda Marchand
• The effects of alcohol on on episodic memory have been well established through laboratory memory tasks
• It has been found that encoding of memories is more affected than retrieval
• Previous studies have shown that:• When compared to a placebo, alcohol reduces cerebral blood flow in
task-implicated areas during perceptual processing, simulated driving, verbal fluency and divided attention (Calhoun et al., 2004, Haier et al., 1999, Wendt and Risberg, 2001)
• Though alcohols effects have been demonstrated through behaviour, no previous studies have identified the neural relations of memory impairment due to alcohol consumption
• Hypothesized that alcohol would impair memory performance, particularly associative memory due to its effects on the hippocampus
Introduction
• 27 males
• Prescreened for any neurological, psychiatric or medical disorders
• Those on any medication, who were left-handed, had not spoken English since age 7 and were outside the 20-40 year range, were using marijuana on a regular basis or had problematic drinking habits were excluded
• Accepted participants consumed between 2 and 16 drinks a week
• No one had drink a on more than 3 separate occasion during a week
• Experimental and control groups were matched for age, education and initial memory performance
Participants
• Participants were seen on 2 days
• Day 1• Participants were given practice trials of the different tasks that
would be performed in the scanner • Participants were then given their drinks – either placebo or
alcohol• Participants were placed in the scanner to complete the tasks –
this took about an hour
• Day 2• Participants returned the next day to test their memory for
materials presented• There was no beverage or scanning in the second day
Procedure
Experimental condition
• 18 pairs of line drawings of objects were presented in the experimental condition, each pair was presented twice, each block contained 6 pairs
• Each pair was presented for 4 seconds, and then a cross-hair was presented for 1 second
• Participants were asked to decide if there was a meaningful relationship
Control condition
• Pairs of the same line drawing were presented in 5 blocks, 3 pairs per block, 15s long
• Participants had to indicate which of the drawings was smaller
Experiments – Object Pairs
Experimental condition
• Participants were shown photos of people with a gender appropriate name and were asked to judge whether the name fit the face
• Shown 5 per block, each pair was shown for 4 seconds followed by a 1 second cross hair
Control condition
• Participants were shown photos labeled either man or woman and they had to determine whether the label was correct or not
• Shown 3 pairs per block and there was a total of 7 blocks
Experiments – Face-Name Pairs
• The only region active during both associative and perceptual encoding was an area in the left superior frontal gyrus
• Regions activated in the placebo group• Frontal• Cerebellum • Parahippocampal gyrus• Occipital cortex • Precuneus
• Regions activated in the alcohol group• Medial frontal gyrus
Results – Object Pair fMRI Data
• Main difference between the alcohol and placebo groups was the activation of the right frontal area in the placebo group
• The left precuneus and and right temporal regions were deactivated in the placebo group, no change in activation was seen in the alcohol group
Results –Face-Name fMRI Data
Results – Comparing BOLD responses
Hippocampus:• Alcohol group
showed activation during both conditions
• Placebo group only showed activation during the semantic condition
• What area was activated during all semantic encoding?
• Placebo group – the left inferior-middle frontal gyrus was activated during all semantic encoding
• Alcohol group – this prefrontal activation was seen only during the encoding of verbal materials
Analysis – Semantic Encoding
1. When performance was not significantly effected by alcohol the group activated the same prefrontal regions as the placebo group
2. Encoding under the influence of alcohol was associated with reduced activity in other encoding related areas
3. The apparent lack of parahippocampal/fusiform activity in the alcohol group was actually due to non-specific activation during both experimental and control conditions
The Three Major Findings
• Supported behavioural experiment findings with the use of fMRI
• Was very well laid out
• The majority of the paper was easy to understand
• There were a lot of experiments presented in paper
• The “control” condition was not only used on the control group, made understanding the experiments more complicated
• Limitations: Only used males
• Future experiments: use females
My Thoughts on the Paper
Calhoun, V.D., Pekar, J.J., Pearlson, G.D. (2004). Alcohol intoxicationeffects on simulated driving: exploring alcohol-dose effects on brain activation using functional MRI. Neuropsychopharmacology 29, 2097–2107.
Haier, R.J., Schandler, S.L., MacLachlan, A., Soderling, E., Buchsbaum, M.S., Cohen, M.J., (1999). Alcohol induced changes in regional cerebral glucose metabolic rate during divided attention. Pers. Individ. Dif. 26, 425–439.
Söderlund, H., Grady, C.L., Easdon, C. & Tulving, E.(2006). Acute effects of alcohol on neural correlates of episodic memory encoding. Neuroimage, 35, 928-939.
Wendt, P.E., Risberg, J., (2001). Ethanol reduces rCFB activation of left dorsolateral prefrontal cortex during a verbal fluency task. Brain Lang. 77, 197–215.
References