Carter ES, Newman LA, Galler JR, Mcgaughy J (2008) Effects of cholinergic deafferentation of medial, prefrontal cortex on a cross-modal divided attention task. Neuroscience 2008 Abstracts 590.6/TT58. Society for Neuroscience, Washington, DC.
Summary: Previous research has shown that cholinergic lesions of the nucleus basalis magnocellularis impair cross-modal divided attention (Turchi and Sarter 1997). Cholinergically lesioned rats showed increased response latencies relative to sham-lesioned rats if required to divide attention but did not differ from sham-lesioned rats when tested in a focused attention condition. In the present study, the effects of selective cholinergic depletion of the medial, prefrontal cortex were assessed in the same cross-modal divided attention task (CMDAT). Male, Long-Evans rats were trained on one set of conditional response rules for visual stimuli and another for auditory stimuli. In the CMDAT, rats received 20 trials of either auditory or visual stimuli followed by twenty trials of the alternate modality (focused attention). Within the same session rats received 60 trials of a randomized sequence of all possible stimuli (divided attention). These trials were followed by two additional blocks of focused attention (20 trials/block) so the trial block sequence was Focused Attention 1 (FA1): Divided Attention (DA) : Focused attention 2 (FA2). Subjects received infusions of 192 IgG saporin (pACh-LX) or its vehicle (SHAM-LX) to the prelimbic cortex. Response latencies for all subjects were longer under conditions of divided attention when performance was compared to the first block of focused attention trials. However in pACh-LX rats response latencies in the second block of focused attention trials were longer than in the divided attention trials. The slowed performance in the FA2 block may suggest cognitive fatigue after performing the divided attention trials or may be due to the effects of prolonged time on task. To address this question, a novel sequence of trials DA : FA1 : FA2 was tested. This session showed no difference in response latencies across blocks in either group. The lack of increased response latencies in FA2 suggests the effect in the standard task is related to cognitive fatigue after completion of the DA block and prolonged time on task. The accuracy of pACh-LX rats was decreased in the divided attention block relative to SHAM-LX rats in this block and relative to pACh-LX rats’ own performance in the DA block of the standard task. This loss of accuracy with decreased latency suggests that lesioned rats show a cost of divided attention if no focused attention blocks precede divided attention testing. These data support the hypothesis that cholinergic afferents to the prefrontal cortex mediate divided attention and a loss of these afferents exacerbates cognitive fatigue.
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