Effects of Tactile Vibration Feedback System on Balance Function and Walking Ability of Unilateral Transtibial Amputees with Prostheses / 中国康复理论与实践

Objective:To observe the effect of the tactile vibration feedback system on the balance and walking function of the unilateral transitional amputees with prostheses. Methods:From October, 2019 to November 2020, eleven unilateral transtibial amputees with prostheses were selected from our hospital. They performed daily activities for three hours wearing tactile vibration feedback system designed by our department. The patients were evaluated by Performance Oriented Mobility Assessment (POMA), gait analysis and outdoor 1000 meters complex road walking test before and after treatment. Results:The balance score of the POMA improved (Z = -2.264, P < 0.05), the gait score and total score of the POMA increased significantly (|t| > 6.249, P < 0.001) after treatment. Gait analysis showed that the step length of the affected side improved, the bilateral step time and double support phase shortened, and the walking speed increased (|t| > 2.250, |Z| > 2.756, P < 0.05) after installation. The outdoor 1000 meters complex road walking test showed that the total steps, energy consumption and time decreased (|t| > 2.412, |Z| > 2.045, P < 0.05). All the patients finished the trail, and no discomfort appeared. Conclusion:The tactile vibration feedback system could safely and effectively improve the balance and walking function of the unilateral transtibial amputees with prostheses.

Genome-wide identification and expression analysis of CSLA gene family of Dendrobium catenatum / 中国中药杂志

Glucomannan is the key active ingredient of Dendrobium catenatum, and CSLA family is responsible for glucomannan biosynthesis. In order to systematically evaluate the CSLA family members of D. catenatum, the bioinformatics methods were performed for genome-wide identification of DcCSLA gene family members through the genomic data of D. catenatum downloaded from the NCBI database, and further analyses of their phylogenetic relationship, gene structure, protein conserved domains and motifs, promoter cis-elements and gene expression profiles in response to stresses. The results showed that D. catenatum contains 13 CSLA members, all of which contain 9-10 exons. In the evolutionary relationship, CSLA genes were clustered into 5 groups, DcCSLA genes were distributed in all branches. Among which the ancestral genes of groupI existed before the monocot-dicot divergence, and groupⅡ-Ⅴ only existed in the monocot plants, indicating that group Ⅰ represents the earliest origin group. CSLA proteins are characteristic of the signature CESA_CaSu_A2 domain. Their promoter regions contain cis elements related to stresses and hormones. Under different stress treatments, low temperature induces the expression of DcCSLA5 and inhibits the expression of DcCSLA3. Infection of Sclerotium delphinii inhibits DcCSLA3/4/6/8/9/10 expression. Under the treatment of jasmonic acid, DcCSLA11 expression was significantly up-regulated, and DcCSLA2/5/7/12/13 were significantly down-regulated. These results laid a foundation for further study on the function of DcCSLA genes in glucomannan biosynthesis and accumulation.