Abstract
The latest neuroimaging studies about implicit memory (IM) have revealed that different IM types may be processed by different parts of the brain. However, studies have rarely examined what subtypes of IM processes are affected in patients with various brain injuries. Twenty patients with frontal lobe injury, 25 patients with occipital lobe injury, and 29 healthy controls (HC) were recruited for the study. Two subtypes of IM were investigated by using structurally parallel perceptual (picture identification task) and conceptual (category exemplar generation task) IM tests in the three groups, as well as explicit memory (EM) tests. The results indicated that the priming of conceptual IM and EM tasks in patients with frontal lobe injury was poorer than that observed in HC, while perceptual IM was identical between the two groups. By contrast, the priming of perceptual IM in patients with occipital lobe injury was poorer than that in HC, whereas the priming of conceptual IM and EM was similar to that in HC. This double dissociation between perceptual and conceptual IM across the brain areas implies that occipital lobes may participate in perceptual IM, while frontal lobes may be involved in processing conceptual memory.
Highlights
Neuropsychological studies of human memory have produced a wealth of data supporting the concept that memory is not a monolithic neural system
The performance of all basic neuropsychological tests was different in the three groups (MMSE, F = 39.95; digit span forward (DS-F), F = 14.58; DS-B, F = 6.53; verbal fluency test (VFT), F = 26.81; all P < 0.01)
The post hoc test showed that the performance of patients in the frontal lobe lesion group was significantly worse than that of the healthy controls (HC) group on the mini-mental state examination (MMSE), VFT, DS-F, and DS-B tests (DS-B, P < 0.05; other P < 0.01)
Summary
Neuropsychological studies of human memory have produced a wealth of data supporting the concept that memory is not a monolithic neural system. Instead, it consists of distinct components, which are in turn mediated by distinct and separable neural systems (Dienes and Perner, 1999; Reber, 2013). Patients coping with brain lesions, such as ischemia or traumatic brain injury, frequently demonstrate dissociated memory systems. IM refers to an individual’s past experience to influence the current task automatically but without conscious awareness of these previous experiences (Schacter, 1987). It has been determined that the performance of EM tasks, such as free recall and recognition, depends significantly upon
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