Lund University Publications

@misc{82b5cc45-9d57-4140-8b23-bba135e821c6,
  abstract     = {{Background <br/><br>
How many time's a word appear in a corpu's constitute's it's <br/><br>
word frequency. Word frequency affect's memory in robust <br/><br>
but puzzling way's. In free recall paradigm's high frequency <br/><br>
(HF) word's are easier to recall than low frequency (LF) <br/><br>
word's, in list's with homogenou's word frequencie's. If HF <br/><br>
and LF word's are mixed together in a list thi's affect recall of <br/><br>
HF word's negatively while recall of LF word's i's better than <br/><br>
in homogenou's list's. (Gregg, 1976; Ward, Woodward, <br/><br>
Steven's &amp; Stinson, 2003). <br/><br>
HF word's have more inter-item relation's than LF word's <br/><br>
(Gregg, Montgomery &amp; Castaño, 1980). Inter-item <br/><br>
association's ha's been suggested by variou's researcher's a's an <br/><br>
explanation for frequency effect's or a's a partial explanation <br/><br>
(review's in Gregg et al, 1980, and in Ward et al, 2003). <br/><br>
The ERP (Event Related Potential) component N400, a <br/><br>
central negativity approximately 400m's after stimulu's onset, <br/><br>
i's thought to reflect semantic integration (Hinojosa, Martín- <br/><br>
Loeche's, &amp; Rubia, 2001). N400 thu's could be an <br/><br>
electrophysiological measure of the effect of inter-item <br/><br>
association's and it's amplitude should increase when inter- <br/><br>
item association's decrease, i.e. when les's HF word's are in a <br/><br>
list. However, N400 ha's also been interpreted a's an index of <br/><br>
distinctivenes's (Fabiani &amp; Donchin, 1995) which yield's a <br/><br>
different prediction. In thi's view LF word's in a mixed list's <br/><br>
are thought to be more distinctive than in a pure list, in <br/><br>
which case the N400 should also be larger. <br/><br>
In the present experiment HF and LF word's are presented <br/><br>
in list's with homogenou's frequencie's and with mixed <br/><br>
frequencie's. We hypothesize that the relative size of the <br/><br>
N400 in mixed list's should distinguish between the <br/><br>
alternative interpretation's of N400. <br/><br>
Method <br/><br>
Eighty list's of six word's each were shown to 13 paid <br/><br>
student's in a study-test paradigm. Each word wa's shown <br/><br>
1250 m's and inter-stimulu's interval varied randomly <br/><br>
between 1500 and 2000 m's. Between study and test there <br/><br>
wa's a 10 's distraction task. Half of the list's had homogenou's <br/><br>
word frequencie's, half had mixed frequencie's, half of the <br/><br>
word's were HF word's, half were LF word's. Order of word's <br/><br>
were randomized. During study phase EEG wa's recorded <br/><br>
with a 129 electrode channel Geodesic Sensor Net. <br/><br>
<br/><br>
<br/><br>
Result's <br/><br>
Recall rate's were analyzed in an ANOVA with word <br/><br>
frequency and list composition a's factor's. There wa's a main <br/><br>
effect of frequency (F(1, 13) = 10.6, p = 0.006 &lt; 0.05, MSe <br/><br>
= 0.006) and an interaction effect between frequency and <br/><br>
list composition (F(1, 13) = 8.3, p = 0.013 &lt; 0.05, MSe = <br/><br>
0.004). <br/><br>
Mean ERP amplitude of grouped electrode's in the time <br/><br>
window dominated by the N400, 375 – 600 m's, were <br/><br>
analyzed in an ANOVA with word frequency, list <br/><br>
composition, recall, left-right axi's (3 level's), and anterior- <br/><br>
posterior axi's (4 level's). Greenhouse-Geisser correction wa's <br/><br>
used. There wa's a main effect of frequency ( F( 1, 12) = 6.6, <br/><br>
p = 0.025 &lt; 0.05, MSe = 126) and an interaction between <br/><br>
frequency, list composition and left-right axi's ( F( 1.4, 17) <br/><br>
= 6.0, p = 0.018 &lt; 0.05, MSe = 4.1) reflecting a minimal <br/><br>
N400 for HF word's in pure list's, a larger N400 for HF <br/><br>
word's in mixed list's and an even larger N400 för LF word's <br/><br>
in both list type's. <br/><br>
Discussion <br/><br>
Thi's i's the first time mixing HF and LF word's ha's been <br/><br>
shown to affect an ERP component. The result's support the <br/><br>
view that inter-item relationship's among word's affect N400 <br/><br>
rather than distinctivenes's. <br/><br>
Reference's <br/><br>
Gregg, V. (1976). Word frequency, recognition and recall. <br/><br>
In J. Brown (ED.), Recall and recognition. London: <br/><br>
Wiley &amp; Son's. <br/><br>
Gregg, V. H., Montgomery, D. C., &amp; Casta<br/><br>
̃o, D. (1980). <br/><br>
Recall of common and uncommon word's from pure and <br/><br>
mixed list's. Journal of Verbal Learning and Verbal <br/><br>
Behavior, 19, 240-245. <br/><br>
Hinojosa, J. A., Martín-Loeche's, M., &amp; Rubia, F. J. (2001). <br/><br>
Event-related potential's and semantic's: An overview and <br/><br>
an integrative proposal. Brain and Language, 78, 128- <br/><br>
139. <br/><br>
Fabiani, M., &amp; Donchin, E. (1995). Encoding proces's and <br/><br>
memory organization: A model of the von Restorff effect. <br/><br>
Journal of Experimental Psycholog: Learning, memory, <br/><br>
and cognition, 21, 224-240. <br/><br>
Ward, G., Woodward, G., Steven's, A., &amp; Stinson, C. <br/><br>
(2003). Using overt rehearsal's to explain word frequency <br/><br>
effect's. Journal of Experimental Psycholog: Learning, <br/><br>
memory, and cognition, 29( 2), 186-210.}},
  author       = {{Kallioinen, Petter and Sikström, Sverker}},
  language     = {{eng}},
  title        = {{N400 as a measure of inter-item relatedness}},
  year         = {{2005}},
}