目的:观察康复训练结合电针疗法综合治疗汶川地震伤员四肢骨折术后关节活动度、肢体肿胀等功能障碍的疗效。方法: 将126例患者分为治疗组63例,采用康复训练结合电针疗法;对照组63例,于术后第2天自行功能锻炼。测量治疗前后关节活动度(ROM)、肢体肿胀消退时间及疼痛减轻程度并据此确定疗效。结果: 用统计学方法处理,说明两组之间ROM、肢体肿胀消退时间及疼痛减轻程度比较均有统计学意义(Plt;0.05)。结论: 采用康复训练结合电针能有效提高地震伤员四肢骨折后关节功能障碍的疗效。
ObjectiveTo explore the clinical effect of the end-traction upper limb rehabilitation training system on patients with upper limb motor dysfunction after stroke.MethodsPatients with upper limb motor dysfunction who were admitted to the Department of Rehabilitation Medicine, the First Affiliated Hospital of Nanchang University from September to November 2019 were selected. According to the software, the patients were randomly divided into the experimental group and the control group. Both groups received conventional medical treatment, basic rehabilitation, and activities of daily living training. In addition, the control group received traditional occupational therapy, while the experimental group received end-traction upper limb rehabilitation training. The training time of both groups was 30 min/ (times ·d) and 5 days per week. Rehabilitation evaluation and recording were performed before and after the four-week treatment in both groups using the simplified upper extremity Fugl-Meyer assessment (FMA) and the modified Barthel index (MBI).ResultsA total of 36 patients were enrolled, with 18 in each group. All patients completed the experiment, and no special discomfort was observed. Before the treatment, there was no statistically significant difference in FMA and MBI between the experimental group [(13.22±3.13) and (49.66±6.81) points] and the control group [(14.78±1.70) and (51.67±6.65) points] (t=1.858, 0.896; P=0.072, 0.377). After four-week treatment, FMA and MBI in both groups improved significantly (P<0.05); the difference between the experimental group [(27.56±15.68) and (73.55±8.72) points] and the control group [(17.67±6.73) and (65.33±9.20) points] was statistically significant (t=2.459, 2.751; P=0.019, 0.009).ConclusionsThe end-traction upper limb rehabilitation training system can significantly improve the upper limb motor function of patients with upper limb motor dysfunction after stroke and improve the patients’ daily life ability. It is worthy of clinical promotion and application.
This article presents the design of a motion control system for seated lower-limb rehabilitation training. The system is composed of lower limb exoskeleton, motor drive circuit, program of motion control, and so forth. The power of lower limbs joints is provided by six motors. The PCI-1240 motion control card is used as the core. This study achieved repetitive rotation training and gait trajectory training of lower limbs joints, of which the velocity, angle and time can be accurately controlled and adjusted. The experimental results showed that the motion control system can meet the requirement of repetitive rehabilitation training for patients with lower limb dysfunction. This article provides a new method to the research of motion control system in rehabilitation training, which can promote industrial automation technique to be used for health care, and conducive to the further study of the rehabilitation robot.
目的:探讨健康教育及康复训练对子宫全切术患者的愈后效果的影响。方法:将41例子宫全切手术患者分常规组20例和观察组21例。常规组按妇产科护理常规进行术前术后常规护理及相关注意事项的讲解;观察组对患者进行术前术后常规护理同时实施健康教育及康复训练。结果:常规组患者自我认知能力稍差,有缺失感,住院时间稍长;观察组患者术后乐观,配合术后康复训练较为积极,住院时间稍短。结论:认为做好子宫全切术后患者的健康教育并进行及时的康复训练,对其术后康复并提高生活质量起着至关重要的作用。
This research is to develop a weight-loss walking rehabilitation training system based on differential air pressure. The system adopted Proportion-Integral-Derivative (PID) algorithm to improve the precision of weight loss, taking MSP430F149 microprocessor of Texas Instruments as the core of pressure control system. The training software is designed based on Microsoft Visual C++ 6.0 of Microsoft. The system can provide comfortable training environment for patients with lower limb motor function impediment, and can collect electromyographic signals from patients, so as to further the scientific and normative management of the patient's information. Based on this training system, the initial bearing weight, bearing weight after maximum weight loss, and maximum weight loss percentage of 10 normal adults’ lower limbs were collected. It was found that the intraclass correlation coefficient (ICC) values were all greater than 0.6. The training system has a good reliability, which can provide scientific data for clinical weight-loss lower limb rehabilitation training.
Objective To research the relationship between decrease of serum surfactant protein D (SP-D) level reduced by pulmonary rehabilitation training and postoperative pulmonary complications (PPC). Methods From May 2015 through December 2015, 80 consecutive non-small cell lung cancer (NSCLC) patients with surgical treatment in West China Hospital, who were at least with a high risk factor, were randomly divided into two groups including a group R and a group C. There were 36 patients with 25 males and 11 females at age of 63.98±8.32 years in the group R and 44 patients with 32 males and 12 females at age of 64.58±6.71 years in the group C.The group R underwent an intensive preoperative pulmonary rehabilitation (PR) training for one week, and then with lobectomy. The group C underwent only lobectomy with conventional perioperative managements. Postoperative pulmonary complications, average days in hospital, other clinic data and the serum SP-D level in a series of time from the date of admission to discharge (5 time points) were analyzed. Results The incidence of PPC in the group R was 5.56%(2/36),which was lower than that in the group C (P=0.032). The descender of the serum SP-D level of the patients in the group R (30.75±5.57 ng/mlvs. 24.22±3.08 ng/ml) was more obvious than that in the group C (31.16±7.81 ng/mlvs. 30.29±5.80 ng/ml,P=0.012). The descender of the serum SP-D level of the patients with PPC was more obvious than that of patients without PPC (P=0.012). Conclusion The preoperative PR training could reduce the PPC of lung cancer surgery with high risk factors. The serum SP-D level could reflect the effect of preoperative pulmonary rehabilitation training.
The bidirectional closed-loop motor imagery brain-computer interface (MI-BCI) is an emerging method for active rehabilitation training of motor dysfunction, extensively tested in both laboratory and clinical settings. However, no standardized method for evaluating its rehabilitation efficacy has been established, and relevant literature remains limited. To facilitate the clinical translation of bidirectional closed-loop MI-BCI, this article first introduced its fundamental principles, reviewed the rehabilitation training cycle and methods for evaluating rehabilitation efficacy, and summarized approaches for evaluating system usability, user satisfaction and usage. Finally, the challenges associated with evaluating the rehabilitation efficacy of bidirectional closed-loop MI-BCI were discussed, aiming to promote its broader adoption and standardization in clinical practice.