A Novel Hybrid Brain-Computer Interface Combining Motor Imagery and Intermodulation Steady-State Visual Evoked Potential.

The hybrid brain-computer interface (hBCI) combining motor imagery (MI) and steady-state visual evoked potential (SSVEP) has been proven to have better performance than a pure MI- or SSVEP-based brain-computer interface (BCI). In most studies on hBCIs, subjects have been required to focus their attention on flickering light-emitting diodes (LEDs) or blocks while imagining body movements. However, these two classical tasks performed concurrently have a poor correlation. Therefore, it is necessary to reduce the task complexity of such a system and improve its user-friendliness. Aiming to achieve this goal, this study proposes a novel hybrid BCI that combines MI and intermodulation SSVEPs. In the proposed system, images of both hands flicker at the same frequency (i.e., 30 Hz) but at different grasp frequencies (i.e., 1 Hz for the left hand, and 1.5 Hz for the right hand), resulting in different intermodulation frequencies for encoding targets. Additionally, movement observation for subjects can help to perform the MI task better. In this study, two types of brain signals are classified independently and then fused by a scoring mechanism based on the probability distribution of relevant parameters. The online verification results showed that the average accuracies of 12 healthy subjects and 11 stroke patients were 92.40 ± 7.45% and 73.07 ± 9.07%, respectively. The average accuracies of 10 healthy subjects in the MI, SSVEP, and hybrid tasks were 84.00 ± 12.81%, 80.75 ± 8.08%, and 89.00 ± 9.94%, respectively. The high recognition accuracy verifies the feasibility and robustness of the proposed system. This study provides a novel and natural paradigm for a hybrid BCI based on MI and SSVEP.

Effect of Tui Na on upper limb spasticity after stroke: a randomized clinical trial.

OBJECTIVE: To investigate the efficacy and safety of Tui Na for treating spasticity of the upper limbs of stroke patients. DESIGN: A prospective, multicenter, blinded, randomized controlled intervention study. SUBJECTS: Stroke patients with upper limb spasticity who were treated between December 2013 and February 2017 in 16 participating institutions in China were randomly assigned to receive either Tui Na plus conventional rehabilitation (Tui Na group, n = 222,) or conventional rehabilitation only (control group, n = 222). METHODS: Eligible adult patients (aged 18-75 years) were enrolled 1-12 months after stroke and randomly allocated in a 1:1 ratio to the two groups. Outcome assessors were blinded to treatment allocation. Muscle tone in the spastic muscles was evaluated using the Modified Ashworth Scale (MAS), and the primary endpoint was the change in MAS score over 4 weeks of treatment. RESULTS: Among patients who had experienced stroke 1-3 months before treatment, the Tui Na group experienced significantly greater reductions in MAS scores for three muscle groups than did the control group after 4 weeks of treatment. These improvements were sustained at the 3- and 6-month follow-ups. However, among patients who suffered from stroke 4-6 months and 7-12 months before treatment, the change in MAS with treatment did not differ significantly between those who did and those who did not receive Tui Na. No Tui Na-related adverse events during treatment were reported the groups. CONCLUSION: Tui Na was effective and safe for alleviating poststroke spasticity within 1-3 months after stroke onset.

Breath Qigong Improves Recognition in Seniors With Vascular Cognitive Impairment.

CONTEXT: Vascular cognitive impairment (VCI) or vascular dementia is widely considered to be the second-most-common cause of dementia after Alzheimer's disease, accounting for 20% of cases. Little is known about the effectiveness of breath qigong for seniors suffering from VCI or dementia. OBJECTIVES: For seniors with VCI, the study aimed to compare the benefits of qigong practice, cognitive training, and qigong practice + cognitive training in improving cognitive function, memory, executive function, and daily problem-solving ability. DESIGN: The study was a randomized, controlled pilot study that used a prospective design with repeated measures. SETTING: The study took place at the Tianjin Medical University General Hospital (Tianjin, China). PARTICIPANTS: Participants were 93 patients with VCI at a clinic at the hospital. INTERVENTION: The participants were randomly assigned to 1 of 3 groups: (1) qigong practice, an intervention group; (2) cognitive training, a positive control group; or (3) a combination of qigong practice and cognitive training, an intervention group. Participants received the treatments for 3 mo. OUTCOME MEASURES: All outcome measures were undertaken at baseline and postintervention. The measures included (1) the Montreal cognitive assessment, (2) the Loewenstein occupational therapy cognitive assessment, and (3) the Barthel activities of daily living index. RESULTS: All 3 groups showed significant improvements in general cognitive function, memory, executive function, and daily problem-solving ability (P < .05). CONCLUSION: Qigong practice is an easy and convenient exercise performed at no cost and has the potential to improve the cognitive functions of older adults with mild VCI.

Low­frequency pulsed electromagnetic field promotes functional recovery, reduces inflammation and oxidative stress, and enhances HSP70 expression following spinal cord injury.

Low­frequency pulsed electromagnetic fields (LPEMFs) have been reported to be protective for multiple diseases. However, whether the administration of LPEMFs inhibits inflammation and oxidative stress following spinal cord injury requires further investigation. In the current study, a contusion spinal cord injury model was used and LPEMFs administration was applied to investigate the molecular changes, including inflammation, oxidative stress and heat shock protein 70 (HSP70) levels. The results revealed that LPEMFs significantly promoted functional recovery following spinal cord injury, as demonstrated by an increased Basso, Beattie and Bresnahan score. The results demonstrated that LPEMFs decreased the expression of inflammatory factors, including tumor necrosis factor­α, interleukin­1ß and nuclear factor­κB. Additionally, LPEMFs exposure reduced the levels of inducible nitric oxide synthase and reactive oxygen species, and upregulated the expression of catalase and superoxide dismutase. Furthermore, treatment with LPEMFs significantly enhanced the expression of HSP70 in spinal cord­injured rats. Overall, the present study revealed that LPEMFs promote functional recovery following spinal cord injury, potentially by modulating inflammation, oxidative stress and HSP70.

Dynamics of endogenous endothelial progenitor cells homing modulated by physiological ischaemia training.

OBJECTIVE: To locate and trace endogenous endothelial progenitor cells (EPCs) in rabbits subjected to myocardial ischaemia and/or physiological ischaemia training. METHODS: Rabbits were randomly divided into 4 groups: a myocardial ischaemia group (subjected to myocardial ischaemia only); a physiological ischaemia training group (subjected to physiological ischaemia training only); a physiological ischaemia training-myocardial ischaemia group (subjected to both myocardial ischaemia and physiological ischaemia training); and a sham-operated group. Myocardial ischaemia was induced experimentally by a 2-min ischaemia, followed by a 1-h reperfusion. Physiological ischaemia training involved a 4-min isometric contraction elicited by electrical stimulation (biphase square wave, 40 Hz, 1 ms), which generated a contraction force at 40% of the maximal isometric contraction force. Myocardial ischaemia I and/or physiological ischaemia training were performed twice a day, 5 days a week for 4 weeks. Capillary densities and EPC levels in both blood and the ischaemic heart region were then measured. EPCs were traced by double-labelling with super paramagnetic iron oxide and chloromethyl-benzamidodialkylcarbocyanine. RESULTS: EPC levels in the blood and the ischaemic heart region both improved significantly in the physiological ischaemia training-myocardial ischaemia group (mean 0.046% (standard deviation (SD) 0.007), 0.013% (SD 0.005)) and group myocardial ischaemia (mean 0.038% (SD 0.016), 0.008% (SD 0.004)). For the physiological ischaemia training group, moderately raised EPCs were found in the blood (0.026 ± 0.010%), but not in the heart. Capillary density increased in the physiological ischaemia training-myocardial ischaemia and myocardial ischaemia groups. The dual-labelled EPCs were confirmed in the ischaemic heart region. Pearson's analysis demonstrated that there is a positive correlation between EPC levels in the blood and the heart region (p < 0.05), and between circulating EPCs and the capillary (p < 0.05) for the physiological ischaemia training-myocardial ischaemia group. CONCLUSION: Physiological ischaemia training can effectively improve endogenous EPCs. Their homing process from the circulating blood to the ischaemic myocardium was clearly traced in this study on rabbits. This homing process is of great importance for remote neovascularization.