Developing Topics.

Abstract

Apathy, defined as a lack of motivation towards goal-directed behavior, is a common neuropsychiatric symptom in Alzheimer's (AD) and Parkinson's (PD) disease. However, the mechanism underlying apathy is still unclear. Studies have postulated that the degeneration of frontal cortical and subcortical structures may play a major role in the mechanism of apathy. This study investigates whether associations between degeneration in structural and functional connectivity between frontal and subcortical regions contributes to the development of apathetic behavior and whether these associations differ by diseases. Forty-four patients, 8 with AD, 14 amnestic mild cognitive impairment (aMCI), and 22 PD, received MRI brain scans, a decision-making behavioral task, cognitive and psychosocial assessments including the dimensional apathy scale (DAS). We quantified functional connectivity and white matter tract integrity for a set of frontal and subcortical regions of interest, and examined the associations among fronto-subcortical connectivity, behavioral measures, and the DAS. These associations were tested for patient group interactions. Combining AD and aMCI into one patient group, the AD/aMCI group showed worse apathy than PD in terms of the total, the executive, and the behavioral/cognitive subscores (see Table 1), while the DAS emotional subscore was not different between the two groups. For the decision-making task, the proportion of trial acceptance was similar between the groups, but AD/aMCI had slower decision latency than PD. Group interaction with brain measures was observed in the association between DAS total score and the functional connectivity between the right pars triangularis in the inferior frontal gyrus and the caudate (See Figure 1; interaction effect: beta = -.367, p = .0422 FDR corrected). The white matter tract connecting the right pars triangularis to subcortical regions also showed a group interaction with DAS total score but at an uncorrected statistical level (Figure 2; beta = 3.61, p = .0454, uncorrected). Our preliminary analyses exposed phenotypic differences in apathy profiles and decision-making behavior between AD and PD. Furthermore, the observed functional and structural neurodegenerative changes associated with higher apathy severity may also differ between the two diseases. Future analyses in a larger cohort will examine distinct neurodegeneration patterns between the two diseases.