118) rative fear, and postoperative discomfort/functional limitations were evaluated. |
119) , the patient presented pain-free without functional limitations although the osteon |
120) housing completed regular assessments of functional limitations and depressive symp |
121) Fear of movement may contribute to functional limitations and loss of well-be |
122) orting greater PA had significantly fewer functional limitations at 12 months. |
123) In multiple regression analysis, baseline functional limitations explained 66% of th |
124) chemic stroke insults may lead to chronic functional limitations that adversely affe |
125) effects of PA and depressive symptoms on functional limitations. |
126) We used functional network analyses to investigate |
127) Thus, a complex redundant functional network appears to coordinate T |
128) tant developmental process of the brain's functional network architecture during the |
129) The brain's mature functional network architecture has been e |
130) The results provided evidence of a functional network between the cerebellum |
131) dramatic development of each subregion's functional network was observed, providing |
132) but also the dysbalance of a distributed functional network. |
133) vGLUT2, and vGAT staining indicated that functional recovery after acute ChABC trea |
134) em/progenitor cells (NSPCs) could improve functional recovery for various neurologic |
135) bilitation could be sufficient to enhance functional recovery from a focal stroke. |
136) ient, during the 3-year follow-up period, functional recovery of injured median and |
137) nerve injuries frequently result in poor functional recovery. |
138) in early life as a strategy for improved functional recovery. |
139) muscle defects to restore anatomical and functional recovery. |
140) Further, to study the functional role of Pak1 in pancreatic canc |
141) e available on the expression profile and functional role of lncRNAs in non-small ce |
142) In order to assess the functional role of space coupled with the |
143) ical and physiological data to assess the functional role of the lateral excitatory |
144) Future experiments on the functional role of the mPFC should take in |
145) f excitability was in accordance with the functional role of the muscles in the acti |
146) omplex, and may be key in determining the functional role played by NMDA receptors. |
147) egions and temporal lobe, which also show functional changes associated with PPR. |
148) t an early marker for clinically relevant functional changes in HD. |
149) n brain regions highly relevant for brain functional changes in PG, the present stud |
150) that have previously been associated with functional changes in PG. |
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