• Title of article

    Myelin breakdown mediates age-related slowing in cognitive processing speed in healthy elderly men

  • Author/Authors

    Lu، نويسنده , , Po H. and Lee، نويسنده , , Grace J. and Tishler، نويسنده , , Todd A. and Meghpara، نويسنده , , Michael and Thompson، نويسنده , , Paul M. and Bartzokis، نويسنده , , George، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    8
  • From page
    131
  • To page
    138
  • Abstract
    Background ess the hypothesis that in a sample of very healthy elderly men selected to minimize risk for Alzheimer’s disease (AD) and cerebrovascular disease, myelin breakdown in late-myelinating regions mediates age-related slowing in cognitive processing speed (CPS). als and methods efrontal lobe white matter and the genu of the corpus callosum myelinate later in brain development (late-myelinating white matter; LMWM) and are more vulnerable to breakdown due to the effects of normal aging. An in vivo MRI biomarker of myelin integrity (transverse relaxation rates; R2) of LMWM was obtained for 38 very healthy elderly adult men (mean age = 66.3 years; SD = 6.0; range = 55–76). To evaluate regional specificity, we also assessed a contrasting early-myelinating region (splenium of the corpus callosum; SWM), which primarily contains axons involved in visual processing. CPS was assessed using the Trail Making Test. s 2 and CPS measures were significantly correlated (r = .515, p = .0009), but no significant association between R2 and CPS was detected in the splenium (p = .409). LMWM R2, but not SWM R2, was a significant mediator of the relationship between age and CPS (p = .037). sions s very healthy elderly sample, age-related slowing in CPS is mediated by myelin breakdown in highly vulnerable late-myelinating regions but not in the splenium.
  • Keywords
    healthy aging , Cognitive processing speed , Cognition , myelin , Magnetic Resonance Imaging , white matter
  • Journal title
    Brain and Cognition
  • Serial Year
    2013
  • Journal title
    Brain and Cognition
  • Record number

    2250652