Validity and Reliability of Star Excursion Balance Test for Dynamic Balance Assessment in Stroke Patients / 中国康复理论与实践

Objective:To apply Star Excursion Balance Test (SEBT) in evaluating dynamic balance function in stroke patients. Methods:From September, 2018 to November, 2019, 38 stroke hemiplegic patients of Brunnstrom IV and above who could walk independently were included. They completed SEBT by two testers; the anterior, posteromedial and posterolateral extension standardized distance of the affected leg support were recorded. One of the testers measured SEBT again the day after the next day. The intraclass correlation coefficient (ICC) was calculated. The limits of stability on different directions were measured with active balancer EAB-100 (EAB) and tested with Timed 'Up & Go' Test (TUGT) by the third tester. The correlation of SEBT to EAB and TUGT was analyzed with Pearson correlation coefficient. Results:ICCs of three directions was 0.892 to 0.951 between testers, and 0.888 to 0.963 of test-retest. The standardized distance of three directions of SEBT correlated with the anterior and lateral stability limits of EAB (r = 0.479 to 0.671, P < 0.05), as well as TUGT (r = -0.557~-0.633， P < 0.05). Conclusion:SEBT is valid and reliable for evaluation of the dynamic balance for stroke patients of Brunnstrom IV and above who can walk independently.

Advance in Application of Functional Reach Test (review) / 中国康复理论与实践

The evaluation of balance includes clinical observation, scales and instrumental measures. Functional Reach Test is simple and can be carried out in both standing and sitting, but the error of reading the measuring ruler is large, which results in new moving rulers and inertial sensors. The factors influencing the results of Functional Reach Test are moving strategy, age, moving efficiency, goal orientation, single or double arms, human characteristics, number of experiments and others. In the future, combination of electromyogram and inertia sensor can be used to discuss the variety of muscles and the changes of muscle strength, and more influence factors for the test are needed to research.

Effects of Kinesio Taping on Lower Limb Function for Stroke Patients at Different Recovery Stages / 中国康复理论与实践

Objective:To observe the effect of Kinesio taping on lower limb motor function in patients with hemiplegia at different stages of stroke. Methods:From August, 2015 to August, 2017, 60 patients at stages of Brunnstrom III (n = 30) and Brunnstrom IV (n = 30) were randomly divided into control group (n = 15) and treatment group (n = 15). All the patients received comprehensive rehabilitation training, while the treatment group taped Kinesio taping in the lower extremities, for four weeks. They were assessed with Fugl-Meyer Assessment-Lower Extremity (FMA-LE), Time 'Up & Go' Test (TUGT) and gait analysis before and after treatment. Results:The results of all the measurements improved after treatment in all the groups (P < 0.001). For the patients at Brunnstrom IV, FMA-LE score and walking speed improved more in the treatment group than in the control group after treatment (P < 0.01); for those at Brunnstrom III, FMA-LE score, walking speed, TUGT time, hip extension angle and gait symmetry improved more in the treatment group than in the control group after treatment (P < 0.05). Conclusion:Kinesio taping is effective on the lower limb motor function for patients with hemiplegia after stroke, especially for patients at Brunnstrom III.

Investigation of Single-stranded Deoxyribonucleic Acid Translocation Through α-Hemolysin Nanopore with Ionic Liquid Supporting Electrolytes / 分析化学

Due to the difference in spatial configuration and charge of the bases in a DNA molecule, characteristic translocation current pulses through a single nanopore could be obtained. This could become the basis of DNA sequencing method. However, due to the fast translocation speed (sub-micro seconds) and the small current change (about pA), it is still a challenge to obtain the accurate molecular substructure with present electronic techniques. In this work, in order to control the translocation behavior of ssDNA, two kinds of ionic liquids with high viscosity and conductivity were introduced to establish a viscosity gradient with the α-hemolysin single nanopore interface and the acidity of the solution was optimized. The trans chamber contained pure BmimPF6 and the cis chamber contained 1 mol/ L BmimCl and 10 mmol/ L Tris-HCl ( pH 5. 5 ). Preliminary experiment results under this electrolyte configuration showed that poly ( dC) 15 , poly ( dC) 15 , poly(dC) 30 and poly(dC) 50 exhibited obvious long duration pulses with high current suppression ratio. The blocking depth reached more than 95％ of long blocking events. The duration time of long blocking events prolonged to tens or hundreds of milliseconds. Meanwhile, the peak-peak of baseline noise was reduced by about 30％ .

Study on Interaction of Protamine and Single-stranded DNA by Current Pulses Through Single Nanopore / 分析化学

Single nanopore current pulse method is a new, rapid and simple detection method, which is promising for single-molecule DNA sequencing and bio-sensing. Due to the short duration and the low current amplitude of the pulses caused by molecular translocation under normal conditions, pulse detection system with fast response and high sensitivity is required. In this work, based on a lab-established pulse detection system, the effect of protamine in the regulation of single-stranded (ssDNA) current pulses with α-hemolysin (α-HL) single nanopore interface was investigated. Experimental results showed that the pulses positive charged protamine and negative ssDNA probes were both well observed with the established system, and both the pulse amplitude and duration of ssDNA were increased as a result of interaction with protamine. This study provides a way to improve the resolving power of current pulses based on molecular interactions.