Mohammed Warsi1, D William Molloy2,
Tim Standish2, Graeme Wardlaw3, Michael D. Noseworthy4
1School of Biomedical Biomedical Engineering,
McMaster University, Hamilton, Ontario, Canada; 2Medicine, St.
Peters Hospital, Hamilton, Ontario, Canada; 3Medical Physics and
Applied Radiation Sciences, McMaster University, Hamilton, Ontario, Canada; 4Electrical
and Computer Engineering, School of Biomedical Engineering, McMaster
University, Hamilton, Ontario, Canada
We
present a BOLD signal fractal dimension (FD) mapping approach to assess the
tissue microvascular environment in Alzheimer's dementia. The periodicity or temporal complexity can
be quantified using this method thus allow insight into the underlying
microvascular processes. Alzheimers
Disease (AD) is associated with
regional hypermicrovascularity, especially in the deep grey matter. Furthermore our BOLD FD was inversely correlated
to our MRS measures of total creatine.