Abstract
Perceptual functions change with age, particularly motion perception. With regard to healthy aging, previous studies mostly measured motion coherence thresholds for coarse motion direction discrimination along cardinal axes of motion. Here, we investigated age-related changes in the ability to discriminate between small angular differences in motion directions, which allows for a more specific assessment of age-related decline and its underlying mechanisms. We first assessed older (>60 years) and younger (<30 years) participants' ability to discriminate coarse horizontal (left/right) and vertical (up/down) motion at 100% coherence and a stimulus duration of 400 ms. In a second step, we determined participants' motion coherence thresholds for vertical and horizontal coarse motion direction discrimination. In a third step, we used the individually determined motion coherence thresholds and tested fine motion direction discrimination for motion clockwise away from horizontal and vertical motion. Older adults performed as well as younger adults for discriminating motion away from vertical. Surprisingly, performance for discriminating motion away from horizontal was strongly decreased. Further analyses, however, showed a relationship between motion coherence thresholds for horizontal coarse motion direction discrimination and fine motion direction discrimination performance in older adults. In a control experiment, using motion coherence above threshold for all conditions, the difference in performance for horizontal and vertical fine motion direction discrimination for older adults disappeared. These results clearly contradict the notion of an overall age-related decline in motion perception, and, most importantly, highlight the importance of taking into account individual differences when assessing age-related changes in perceptual functions.
Highlights
Healthy aging in the absence of neurodegenerative diseases is accompanied by a variety of perceptual and sensory changes, including those related to vision (Andersen, 2012; Lindenberger & Baltes, 1997; Owsley, 2011)
A mixed-design analysis of variance (ANOVA) on duration accuracy with age group as a between-subject factor and motion direction as a within-subject factor revealed no main effect of motion direction, F(1, 33) 1⁄4 0.001, p 1⁄4 0.9, g2 1⁄4 0, and no interaction, F(1, 33) 1⁄4 1.2, p 1⁄4 0.24, g2 1⁄4 0.036, with a mean performance around 95% accuracy in all conditions for both age groups [older adults: horizontal (M 1⁄4 0.97, SD 1⁄4 0.06), vertical (M 1⁄4 0.95, SD 1⁄4 0.06); younger adults: horizontal (M 1⁄4 0.96, SD 1⁄4 0.09), vertical (M 1⁄4 0.98, SD 1⁄4 0.04)]
Further analyses of our results showed a relationship between slopes for fine motion direction discrimination and motion coherence thresholds for coarse motion direction discrimination for older adults for horizontal motion, which indicated that performance deficits for fine motion direction discrimination were due to low motion coherence thresholds
Summary
Healthy aging in the absence of neurodegenerative diseases is accompanied by a variety of perceptual and sensory changes, including those related to vision (Andersen, 2012; Lindenberger & Baltes, 1997; Owsley, 2011). 2010; Schmolesky, Wang, Pu, & Leventhal, 2000; Yu, Wang, Li, Zhou, & Leventhal, 2006) These changes have been observed from orientation selective neurons in V1 and V2 to motion direction sensitive neurons in area MT, and it has been suggested that they could be involved in the decline of motion perception in healthy older adults (Bennett et al, 2007; Betts, Sekuler, & Bennett, 2007). To assess age-related changes in low-level motion perception, tasks typically involve the coarse discrimination of motion directions along the cardinal axes (Allen et al, 2010; Billino et al, 2008; Gilmore, Wenk, Naylor, & Stuve, 1992a; Snowden & Kavanagh, 2006; Tran et al, 1998; Trick & Silverman, 1991; Wojciechowski, Trick, & Steinman, 1995). The individually determined coherence thresholds for horizontal and vertical motion were used to assess participants’ ability do finely discriminate motion clockwise away from horizontal and vertical
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