L. Pelosi et al., IS MEMORY-SCANNING TIME IN THE STERNBERG PARADIGM REFLECTED IN THE LATENCY OF EVENT-RELATED POTENTIALS, Electroencephalography and clinical neurophysiology. Evoked potentials, 96(1), 1995, pp. 44-55
The time taken to scan short term memory for a target (probe) digit in
the Sternberg paradigm is thought to be reflected in the latency of a
major positive wave in the associated event-related potentials. In th
e present study we have recorded and analysed reaction time and event-
related potentials to a digit probe identification task in 37 healthy
subjects. Using methods similar to those of earlier studies, we have c
onfirmed the previously reported relationship between memory set size
and the apparent latency of the major positive wave. However, analysis
of the responses of individual subjects showed that increasing set si
ze had no consistent effects on this wave. One-third of the subjects s
howed no latency change with increasing set size. In the other subject
s, possible latency changes were invariably associated with wave form
changes, suggesting that impression of latency shifts may arise from a
comparison of non-analogous waves, We suggest that the most significa
nt effect of increasing set size, in the majority of subjects, is a ne
gative amplitude shift which overlaps and distorts a variable section
of the major positive wave. In these subjects, an apparent shift in th
e latency of the major positive wave could be attributed to a combinat
ion of attenuation of earlier contributions and relative preservation
of later subpeaks, with the result that the dominant positive waves at
different levels of memory load are not analogous. By contrast, react
ion time increased with set size in all subjects, irrespective of the
presence or absence of associated wave form changes. Whereas the react
ion time changes with increasing memory load in our study support the
original concept of memory scanning, we found no consistent relationsh
ip between the latency of event-related potentials generated by this d
igit probe identification task and memory load. While the presence or
absence of a latency shift in some subjects may be open to interpretat
ion, our findings do not support the hypothesis that the latency of th
e major positive waves is an index of the time involved in memory scan
ning.