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020) in the proportion of those with FMS ASLR score improvement to a score of 2 (ASLR exercise group, one; reverse-ASLR exercise group, eight) at follow-up 1, but no significance (P=0.106) at follow-up 2 (ASLR exercise group, none; reverse-ASLR exercise group, four). This study indicated that the reverse-ASLR exercise was more effective than repeating the ASLR exercise in order to improve the ASLR score among individuals with the ASLR-1-SMCD.The purpose of this study was to investigate changes in dynamic balance and gross motion function when dual-task training was performed on an unstable support surface by children with spastic diplegia. The subjects of this study were 14 children (experimental group n=7, control group n=7) who were medical diagnosed with spastic diplegia. Both groups were administered treatment for 30 min, 2 times a week for 8 weeks, with the experimental group performing dual-task exercise in which cognitive tasks related to daily living were performed while maintaining balance on an unstable surface, and the control group being administered neurodevelopmental treatment. Balance and gross motor function Assessments were conducted before intervention and after 8 weeks of intervention. Wilcoxon signed-rank test was performed to analyze changes in balance, gross motor function in the group, and the Mann-Whitney test was conducted to compare the differences between the two groups before and after intervention. The results showed that there was a statistically significant difference in both groups when balance in a sitting position and gross motor function (P less then 0.05). There was a statistically significant difference between the two groups in balance and gross motor function assessment (P less then 0.05). Based on the results of this study, it was confirmed that dual-task training improves balance, gross motor function in children with spastic diplegia. Therefore, dual-task training may be considered as an effective method of intervention method in the functional aspect of children with spastic diplegia.Previous studies have examined the quantitative results of using an organized approach of teaching and learning magic tricks-a therapeutic magic camp-but set aside the qualitative aspect. The purpose of this qualitative study is to explore the interpretation of the lived experience of children with hemiparesis after they have participated in a therapeutic magic camp. Six children, aged between 11 and 14 years old, with hemiparesis who completed the magic camp program 3 months prior were invited to participate in an in-person individual semistructured interview. The interviews were audio-recorded and transcribed verbatim for content analysis. YM155 datasheet Results from the initial qualitative analysis yielded categories of enjoyment, positive social and learning experience from participation in the camp, increased confidence, and self-motivation to use the affected upper limb. These categories were grouped into two themes "having fun with others while learning" and "helping my arm perform." Having fun with others while learning was an amalgamation of fun, and positive social and learning experience. Helping my arm perform reflected a sense of increased competence and self-belief, and a willingness and motivation of the children to attempt challenging daily activities. The lived experiences of children with hemiplegia who participated in an organized delivery of learning to perform magic tricks yield-ed positive outcomes. These themes are consistent with the limited literature that is available suggesting that further research is needed to confirm the efficacy of the therapeutic magic camp intervention.Digital pathology incorporates the acquisition, management, sharing, and interpretation of pathological information, including slides and data, in a digital environment. Digital slides are created using a scanning device to capture a high-resolution image on glass slides for analysis on a computer or a mobile device. Though digital pathology has drastically grown over the last 10 years and has created opportunities to support specialists, few have attempted to address its full-scale implementation in routine clinical practice. To incorporate new technologies in diagnostic processes, it is necessary to study their application, the value they provide to specialists, and their effects on improvements across the entire workflow, rather than studying a particular element. In this study, we aimed to identify what have the current digital pathology systems contributed to the pathological and diagnostic process. We retrieved articles published between 2010 and 2020 from the databases PubMed and Google Scholar. We explored how digital pathology systems can better utilize existing medical data and new technologies within the current diagnostic workflow. While the evidence concerning the efficacy and effectiveness of digital pathology is mounting, high-quality evidence regarding its impact on resource allocation and value for diagnosis is still needed to support clinical diagnosis and policy decision-making.It is well documented that the inherent ability of small arteries and arterioles to regulate intraluminal diameter in response to alterations in intravascular pressure determines peripheral vascular resistance and blood flow (termed myogenic response or pressure-induced vasoconstriction/dilation). This autoregulatory property of resistance arteries is primarily originated from mechanosensitive vascular smooth muscle cells (VSMCs). There are diverse biological apparatuses in the plasma membrane of VSMCs that sense mechanical stimuli and generate intracellular signals for the contractility of VSMCs. Although the roles of transient receptor potential (TRP) channels in pressure-induced vasoconstriction are not fully understood to date, TRP channels that are directly activated by mechanical stimuli (e.g., stretch of VSMCs) or indirectly evoked by intracellular molecules (e.g., inositol trisphosphate) provide the major sources of Ca2+ (e.g., Ca2+ influx or release from the sarcoplasmic reticulum) and in turn, evoke vascular reactivity. This review sought to summarize mounting evidence over several decades that the activation of TRP canonical, TRP melastatin, TRP vanilloid, and TRP polycystin channels contributes to myogenic vasoconstriction.