Background and Purpose: Middle cerebral artery (MCA) territory infarction commonly induces a variety of motor function deficits because it involves multiple descending motor pathways, including the corticospinal tract (CST) and corticofugal tract (CFT). Despite the importance of the MCA territory for motor function, there is currently insufficient evidence regarding an injury of the CFT from the secondary motor area in MCA territory infarctions. We investigated injury of the CFT from the secondary motor area and CST in patients with MCA using diffusion tensor tractography (DTT). <break><break>Methods: Thirty-five patients with MCA territory infarctions and 30 controls were recruited. DTT parameters, including fractional anisotropy (FA) and tract volume (TV), of the CST and CFTs from the dorsal premotor cortex (dPMC) and supplementary motor area (SMA), were analyzed. <break><break>Results: In the affected hemisphere, the FA values of the CFTs from the secondary motor areas and CST were significantly lower than those in the unaffected hemisphere and control groups. Additionally, the TV of the CFTs from the dpmc and SMA were significantly lower than those from the unaffected hemisphere. <break><break>Conclusion: We observed concurrent injury to the CFTs from the secondary motor area and CST after MCA territory infarction. Our findings explain the neural mechanisms underlying motor weakness and limb kinetic apraxia in patients with MCA.
Purpose:The purpose of this study was to investigate the effectiveness of the elastic compression stockings and Kinesio taping on muscle activity and mechanical properties in healthy women during the heel raise exercise that causes muscle fatigue. Methods: Participants were divided into the elastic compression stockings group (ESG, n= 8), Kinesio taping group (KTG, n= 8), and control group (CG, n= 8). All participants performed the heel raise exercise to cause muscle fatigue. Muscle activity, stiffness, and the muscle tone of the gastrocnemius and tibialis anterior were measured before and after the heel raise exercise. Results: In the gastrocnemius, muscle activity was significantly increased after the heel raise exercise in both the ESG and KTG (p< 0.05). There was a significant difference in the change in the gastrocnemius muscle activity between the groups (p< 0.05). Post hoc analysis showed that the ESG exhibited a significantly greater change in gastrocnemius muscle activity than the CG (p< 0.05). The muscle stiffness of the gastrocnemius was significantly decreased after the heel raise exercise in the ESG (p< 0.05). The muscle tone of the gastrocnemius was significantly increased after the heel raise exercise in the control group (p< 0.05). There were no significant differences in the change in the gastrocnemius stiffness and muscle tone between the groups (p> 0.05). In the tibialis anterior, there were no significant differences in muscle activity, stiffness, and muscle tone between and within the groups (p> 0.05). Conclusion: Our findings suggest that the use of elastic compression stockings and Kinesio taping during the heel raise exercise are beneficial and delay muscle fatigue in the gastrocnemius.
Purpose: Gait termination (GT) is the transition from steady-state walking to a complete stop, occurring under planned gait termination (PGT) or unplanned gait termination (UGT) conditions. This study aimed to investigate the biomechanical differences between PGT and UGT, which could help develop therapeutic interventions for individuals experiencing difficulty with GT. Methods: Twenty healthy adults performed three walking trials, followed by PGT and UGT trials. Gait termination was analyzed in three phases as follows: Phase 1 (pre-stopping), Phase 2 (initial stopping phase), and Phase 3 (terminal stopping phase). Spatiotemporal, kinematic, and kinetic data during each phase were compared between conditions. Results: The GT time and GT step length were significantly different between the PGT and UGT trials. Ankle range of motion (ROM) demonstrated significant differences in Phase 1, with the PGT having a slightly lower ankle ROM than the UGT. In Phase 2, the hip, knee, and ankle ROM exhibited significant differences between the conditions. Finally, in Phase 3, UGT showed reduced hip ROM but increased knee ROM and kinetic parameters compared to PGT. Conclusion: Our results indicate that the ankle joint primarily contributes to deceleration during the initial preparation for generating braking force during PGT. Conversely, UGT reveals disrupted kinesthetic control due to instability, leading to a preference for a hip and knee strategy to absorb force and control the center of mass for a safe and rapid GT in response to unexpected stimuli. These findings provide valuable insights into the biomechanical mechanisms underlying body stability during GT and may contribute to the development of effective rehabilitation strategies for individuals with gait impairment.
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