219) Using resting-state functional MRI and functional parcellation |
220) on patterns of brain activity observed in functional MRI contrasts may be helpful fo |
221) To address this issue, resting state functional MRI data from the brains of lig |
222) orrelation existed between the Pro-Change Functional Well-Being Scale and Well-Being |
223) ric evidence suggests that the Pro-Change Functional Well-Being Scale is a reliable |
224) this study was to develop the Pro-Change Functional Well-Being Scale, a measure tha |
225) Functional activation during sound-localiz |
226) acterized 30-month longitudinal change in functional activation and connectivity dur |
227) and phorbol myristate acetate resulted in functional activation of LRPM; and enhance |
228) However, the effects of the DISC1 gene on functional brain connectivity and networks |
229) One of the fundamental challenges in functional brain mapping based on N-fMRI i |
230) d the relationship between structural and functional brain senescence and speech per |
231) Finally, we conclude by discussing the functional consequences of future and coun |
232) we use a zebrafish model to describe the functional consequences of pVHL loss on th |
233) tion that may have serious anatomical and functional consequences. |
234) s showed a bilateral extra-activation and functional coupling of the secondary somat |
235) success, and displayed conflict-enhanced functional coupling with medial-temporal l |
236) ed heterogeneous task-dependent shifts in functional coupling with various subnetwor |
237) with a six-month history of cognitive and functional decline in the absence of delir |
238) important role in the pathophysiology of functional decline. |
239) mulating damaged proteins and age-related functional decline. |
240) y of targeted migration of stem cells and functional deficits in stem cell-based the |
241) o severe contour defects and the risk for functional deficits resulting from contrac |
242) postoperative complications or long-term functional deficits. |
243) LCs raises important questions about the functional differences between these subse |
244) led structural brain differences and also functional differences in motor performanc |
245) yramidal neurons, and may help to explain functional differences in their output pro |
246) ed for more than 80 % of the variance in functional impairment. |
247) nce and it is associated with significant functional impairment. |
248) nd causes brain edema, axonal injury, and functional impairment. |
249) ocial support are important moderators of functional improvement after TC among Lati |
250) f blood vessels formed and its associated functional improvement in bone formation a |
251) eport, leading to significant symptom and functional improvement with high patient s |
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