OBJECTIVE: To study the clinical result of treating firearm-wound with the vessel pedicel tissue flap. METHODS: From May 1992 to October 2000, 21 cases of firearm-wound of upper limbs underwent transplantation with the vessel pedicel tissue flap. Of them, the locations of the wound were upper arm in 11 cases, forearm in 7 cases, hand in 3 cases. The size of wound was 1.0 cm x 0.5 cm to 8.0 cm x 6.5 cm; the wound course was 3 minutes to 8 hours with an average of 3 hours and 30 minutes. The patients were followed up 3 months to 2 years. RESULTS: In 21 cases, the results were excellent in 19 cases and poor in 2 cases. The good rate was 90.5%. CONCLUSION: Treatment of firearm-wound with vessel pedicel tissue flap has the good effect.
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.
To solve the safety problems caused by the restriction of interaction space and the singular configuration of rehabilitation robot in terminal traction upper limb rehabilitation training, a trajectory planning and tracking control scheme for rehabilitation training is proposed. The human-robot safe interaction space was obtained based on kinematics modeling and rehabilitation theory, and the training trajectory was planned based on the occupational therapy in rehabilitation medicine. The singular configuration of the rehabilitation robot in the interaction space was avoided by exponential adaptive damped least square method. Then, a nonlinear controller for the upper limb rehabilitation robot was designed based on the backstepping control method. Radial basis function neural network was used to approximate the robot model information online to achieve model-free control. The stability of the controller was proved by Lyapunov stability theory. Experimental results demonstrate the effectiveness and superiority of the proposed singular avoidance control scheme.
ObjectiveTo explore the effectiveness of the dissociative saphenous arteria flap in repairing upper limbs soft tissue defect. MethodsBetween June 2012 and April 2014, 10 cases of skin and soft tissue defects at the upper limbs were treated, including 6 males and 4 females with an average age of 42 years (range, 23-58 years). The causes of injury was the machine injury in 9 cases, the interval of injury and operation was 2 hours to 32 days (mean, 5.5 days); the locations were the dorsal radial side in 3 cases and the dorsal forearm in 6 cases. Skin defect with tendon exposure was observed in 1 case after contracture of the first web space resection. The defect size varied from 5 cm×3 cm to 16 cm×9 cm. The size of the flaps ranged from 6.0 cm×3.6 cm to 19.2 cm×10.8 cm. In 7 cases, the saphenous nerve was anastomosed with the nerve of the donor (cutaneous nerve, radial nerve, or ulnar nerve); in 5 cases, tendon defect was repaired by sartorius muscle tendon bridge. The donor sites were repaired by free skin graft or suture. ResultsThe other flaps survived and obtained healing by first intention except 1 flap which had partial necrosis with healing by second intention. The skin graft at donor site survived. All patients were followed up 5-17 months (mean, 12 months). The flaps had good color and texture without contracture. At last follow-up, the sensation recovered to S1-S3+; in 7 cases undergoing nerve anastomosis, the sensation reached S3-S3+, and it was better than that not undergoing nerve anastomosis (S1-S2); in 5 cases receiving sartorius muscle tendon bridging, the hand function recovered satisfactorily except 1 case of total active movement (TAM) value >75% of contralateral TAM at last follow-up. According to the Chinese Medical Society of Hand Surgery function evaluation standards, the results were excellent in 8 cases and good in 2 cases. ConclusionThe dissociative saphenous arteria flap is an effective way to repair skin defects of the upper limbs because of reliable blood supply and simple surgical procedure.
At present, fatigue state monitoring of upper limb movement generally relies solely on surface electromyographic signal (sEMG) to identify and classify fatigue, resulting in unstable results and certain limitations. This paper introduces the sEMG signal recognition and motion capture technology into the fatigue state monitoring process and proposes a fatigue analysis method combining an improved EMG fatigue threshold algorithm and biomechanical analysis. In this study, the right upper limb load elbow flexion test was used to simultaneously collect the biceps brachii sEMG signal and upper limb motion capture data, and at the same time the Borg Fatigue Subjective and Self-awareness Scale were used to record the fatigue feelings of the subjects. Then, the fatigue analysis method combining the EMG fatigue threshold algorithm and the biomechanical analysis was combined with four single types: mean power frequency (MPF), spectral moments ratio (SMR), fuzzy approximate entropy (fApEn) and Lempel-Ziv complexity (LZC). The test results of the evaluation index fatigue evaluation method were compared. The test results show that the method in this paper has a recognition rate of 98.6% for the overall fatigue state and 97%, 100%, and 99% for the three states of ease, transition and fatigue, which are more advantageous than other methods. The research results of this paper prove that the method in this paper can effectively prevent secondary injury caused by overtraining during upper limb exercises, and is of great significance for fatigue monitoring.
ObjectiveTo investigate the effects of transcranial direct current stimulation (tDCS) combined with virtual reality (VR) on upper limb dysfunction of stroke patients.MethodsPatients with stroke who were hospitalized in the Department of Rehabilitation Medicine, the Third Affiliated Hospital of Sun Yat-Sen University from July 2018 to January 2020 were selected. The patients were divided into tDCS group, VR group and combined treatment group by random number table method. All three groups received conventional rehabilitation treatment. Based on this, tDCS group received 2.0 mA tDCS treatment, VR group received 20 min VR treatment, and combined treatment group received the same tDCS and VR treatment. Before and 4 weeks after treatment, the Fugl-Meyer assessment-upper limb (FMA-UL), Wolf motor function test (WMFT) and modified barthel index (MBI) were used to evaluate the upper limb motor function and activities of daily life (ADL) of the three groups.ResultsA total of 45 patients were included, 15 in each group. No adverse reactions or fall off occurred during the treatment. Before treatment, there were no significant difference in FMA-UL, WMFT-Times, WMFT functional ability scores (WMFT-FAS), and MBI between the three groups (P>0.05). After 4 weeks of treatment, the FMA-UL, WMFT-Times, WMFT-FAS, and MBI scores of the three groups were significantly improved compared with those before treatment (P<0.05); the MBI score of the combination treatment group was significantly better than the tDCS group and VR group, and the FMA-UL was significantly better than the tDCS group, and the differences were statistically significant (P<0.05). Also, there were no significant differences in the improvement of FMA-UL, WMFT-Times, WMFT-FAS, and MBI scores between the tDCS group and the VR group (P>0.05); the differences of FMA-UL, WMFT-Times, WMFT-FAS, and MBI scores before and after treatment in the combined treatment group, which were significantly better than those in tDCS group and VR group (P<0.05). ConclusiontDCS combined with virtual reality can significantly improve the upper limb motor function and ADL ability of stroke patients, and the effect is superior to tDCS or VR treatment solely.
Objective To study the effects of partial axillary lymph node dissection (PALD) on prognosis and upper limb function in patients with breast cancer. Methods Ninety-eight breast cancer patients with stage Ⅰ and Ⅱ were randomly divided into two groups and different surgical procedures following modified mastectomy were performed: partial axillary lymph node (level Ⅰ and Ⅱ) dissection (PALD) group (n=48) and total axillary lymph node (levelⅠ, Ⅱ and Ⅲ) dissection (TALD) group (n=50). The longterm positive relapse rate and upper limb function between 2 groups were compared. Results During the follow-up of 5 to 10 years (average 4.5 years), there were 2 cases (4.2%) of local recurrence on chest wall and one case (2.1%) of recurrence in axillary lymph node and one case (2.1%) of recurrence in supraclavicular lymph node in PALD group, and 2 cases (4.0%) of local recurrence on chest wall and no axillary lymph node recurrence and one case (2.0%) of recurrence in supraclavicular lymph node happened in TALD group. There was no statistical difference between PALD group and TALD group (Pgt;0.05). The incidence of upper limb edema and dysfunction was 4.2% (2/48) in PALD group and 16.0%(8/50) in TALD group (P<0.01). There was no significant statistical difference of 5year and 10year survival rate between PALD group and TALD group (89.6% vs. 88.0%, 79.2% vs. 78.0%,Pgt;0.05). Conclusion PALD may reduce upper limb dysfunction after operation in patients with stage Ⅰ and Ⅱ breast cancer, and does not increase prognostic risk.
ObjectiveTo systematically review the efficacy of three transcranial direct current stimulation protocols (anodal stimulation, cathodal stimulation, and bipolar stimulation) on upper extremity function interventions in stroke patients. MethodsPubMed, EMbase, The Cochrane Library, Web of Science, CNKI, CBM, WanFang Data and VIP databases were electronically searched to collect randomized controlled trials (RCTs) on the efficacy of three transcranial direct current stimulation protocols on upper extremity function interventions in stroke patients from inception to April 2022. Two reviewers independently screened literature, extracted data and assessed the risk of bias of included studies; then, the network meta-analysis was performed by using R software and ADDIS software. ResultsA total of 64 RCTs involving 3 968 patients were included. The results of network meta-analysis showed that, the probability order of the three stimulation methods on FMA-U, MBI, NIHSS score was: anode>bipolar>cathode>control. In addition, the probability order on ARAT and BBT score was: anode>cathode>bipolar>control. ConclusionCurrent evidence shows that the intervention effect of anodic stimulation on upper limb function of stroke patients may be better. Due to limited quality and quantity of the included studies, more high-quality studies are needed to verify above conclusion.
ObjectivesTo investigate the influence of the abduction angle of the upper extremities on the image quality of non-enhanced CT scan and clinical value of the patients who cannot lift with double upper limbs by vehicle accident.Methods60 patients with double upper limbs that could not lift by vehicle accidents were required to receive liver non-enhanced CT scan, the patients were divided into 3 groups according to the abduction angle (group A, B, C), 20 cases in each group, another 20 cases with standard pose as the control group (group D). The CT value and standard deviation of the liver region of interest, the erector and the background air were measured, and the contrast to noise ratio of liver images, image noise value were calculated, together with the assessment of image quality and statistic analysis.ResultsThe liver non-enhanced CT scan were completed successfully. The image quality of group D was significantly better than A, B, C (Z=–10.753, P<0.05;Z=–11.645, P<0.05;Z=–12.281, P<0.05), respectively. Group C was better than A and B (Z=–8.502, P<0.05;Z=–4.068, P<0.05), respectively. Group B was better than A (Z=–5.885, P<0.05). The CNR of the four groups of images increased gradually, group A (0.09±0.77), group B (1.56±0.83), group C (2.51±0.87), group D (2.59±0.97), respectively. There were significant differences between four groups (F=36.323, P<0.05). The image noise decreased systematically, group A (14.84±2.94), group B (13.04±1.59), group C (11.60±1.72), group D (10.44±1.13), respectively. There were significant differences between four groups (H=426.755, P<0.05).ConclusionOn the premise of safety inspection, with the enlargement of angle of the upper limbs of patients who cannot lift with double upper limbs by vehicle accidents, the image noise decreased and image quality is improved with the increase of signal noise ratio.
Stroke causes abnormality of brain physiological function and limb motor function. Brain-computer interface (BCI) connects the patient's active consciousness to an external device, so as to enhance limb motor function. Previous studies have preliminarily confirmed the efficacy of BCI rehabilitation training in improving upper limb motor function after stroke, but the brain mechanism behind it is still unclear. This paper aims to review on the brain mechanism of upper limb motor dysfunction in stroke patients and the improvement of brain function in those receiving BCI training, aiming to further explore the brain mechanism of BCI in promoting the rehabilitation of upper limb motor function after stroke. The results of this study show that in the fields of imaging and electrophysiology, abnormal activity and connectivity have been found in stroke patients. And BCI training for stroke patients can improve their upper limb motor function by increasing the activity and connectivity of one hemisphere of the brain and restoring the balance between the bilateral hemispheres of the brain. This article summarizes the brain mechanism of BCI in promoting the rehabilitation of upper limb motor function in stroke in both imaging and electrophysiology, and provides a reference for the clinical application and scientific research of BCI in stroke rehabilitation in the future.