RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
Nice work from my former student Zheng Wang, from his own lab at ION Shanghai.
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
RT @andreashorn_: Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the g…
Beautiful fMRI study modeling which areas to "stimulate" in Parkinson's Disease to achieve maximal normalization of the graph toward healthy controls. Out of 92 regions, pallidum comes out strongest (and is validated on a 1000 region random graph). https:/