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SUMMARY: Upper limb nerve variations may be related to the absence of a nerve, an interconnection between two nerves or a variant course. The purpose of this review is to screen the existing literature on upper limb nerve variations that may alter the neurologic diagnostic process. A scoping review was performed following PRISMA for Scoping Reviews guidelines. Initially, 1331 articles were identified by searching Pubmed and Web of Science until the 22nd of October 2022. After screening, reading, and additional searching 50 articles were included in this review. Variations were divided into two categories: 1) variations causing a different innervation pattern involving sensory, motor, or both types of fibers, and 2) variations causing or related to compression syndromes. Two-thirds of the included articles were cadaver studies. Nine articles were diagnostic studies on symptomatic or healthy individuals involving medical imaging and/or surgery. Nerve variations that may cause a different innervation pattern concern most frequently their interconnection. The connection between the median and musculocutaneous nerve in the upper limb and the connection between the median and ulnar nerve in the forearm (Martin-Gruber) or hand (Riche-Cannieu) may be present in half of the population. Injury to these connections may cause compound peripheral neuropathies a result of variant sensory and motor branching patterns. Muscular, vascular, or combined anomalies in the forearm were reported as causes of entrapment neuropathies. These nerve variations may mimic classical entrapment syndromes such as carpal tunnel syndrome or compression at ulnar canal (Guyon's canal). Knowledge of frequent nerve variations in the arm may be important during the diagnostic process and examination. Variant innervation patterns may explain non-classical clinical signs and/or symptoms during provocative tests. Classical nerve compression syndromes in the arm may warrant for differential diagnosis, especially in the case of persistent or recurrent symptoms.
Las variaciones nerviosas del miembro superior pueden estar relacionadas con la ausencia de un nervio, una interconexión entre dos nervios o un curso variante. El objetivo de esta revisión fue examinar la literatura existente sobre las variaciones de los nervios de los miembros superiores que pueden alterar el proceso de diagnóstico neurológico. Se realizó una revisión de alcance siguiendo las pautas de PRISMA para revisiones de alcance. Inicialmente, se identificaron 1331 artículos mediante la búsqueda en Pubmed y Web of Science hasta el 22 de octubre de 2022. Después de la selección, la lectura y la búsqueda adicional, se incluyeron 50 artículos en esta revisión. Las variaciones se dividieron en dos categorías: 1) variaciones que causan un patrón de inervación diferente que involucra fibras sensoriales, motoras o de ambos tipos, y 2) variaciones que causan o están relacionadas con síndromes de compresión. Dos tercios de los artículos incluidos eran estudios de cadáveres. Nueve artículos fueron estudios de diagnóstico en individuos sintomáticos o sanos que involucraron imágenes médicas y/o cirugía. Las variaciones nerviosas que pueden causar un patrón de inervación diferente se refieren con mayor frecuencia a su interconexión. La conexión entre el nervio mediano y musculocutáneo en el miembro superior y la conexión entre el nervio mediano y ulnar en el antebrazo (Martin-Gruber) o la mano (Riche-Cannieu) puede estar presente en la mitad de la población. La lesión de estas conexiones puede causar neuropatías periféricas compuestas como resultado de patrones de ramificación variantes sensitivos y motores. Se informaron anomalías musculares, vasculares o combinadas en el antebrazo como causas de neuropatías por atrapamiento. Estas variaciones nerviosas pueden imitar los síndromes de atrapamiento clásicos, como el síndrome del túnel carpiano o la compresión en el canal ulnar. El conocimiento de las variaciones nerviosas frecuentes en el brazo puede ser importante durante el proceso de diagnóstico y examen. Los patrones de inervación variantes pueden explicar los signos y/o síntomas clínicos no clásicos durante las pruebas de provocación. Los síndromes clásicos de compresión nerviosa en el brazo pueden justificar el diagnóstico diferencial, especialmente en el caso de síntomas persistentes o recurrentes.
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Humans , Peripheral Nerves/anatomy & histology , Upper Extremity/innervation , Anatomic VariationABSTRACT
ObjectiveTo study the effect of upper limb robot-assisted therapy on upper limb function and cerebral cortex activation in stroke patients using functional near-infrared spectroscopy (fNIRS). MethodsFrom January, 2022 to January, 2023, 32 stroke patients in Zhejiang Rehabilitation Medical Center were randomly divided into control group (n = 16) and experimental group (n = 16). Both groups received routine neurological medication and routine rehabilitation. The control group received routine upper limb exercises, the experimental group received upper limb robot-assisted therapy. They were assessed with Fugl-Meyer Assessment-Upper Extremities (FMA-UE) and fNIRS (oxyhemoglobin, deoxyhemoglobin, and total hemoglobin) before and four weeks after treatment. NIRS_SPM was used for activation analysis, Homer2 was used for blood oxygen concentration analysis. ResultsAfter treatment, the score of FMA-UE increased in both groups (|t| > 5.910, P < 0.001), and was higher in the experimental group than in the control group (t = -2.348, P < 0.05). fNIRS activation results showed that, the activation increased in the experimental group after treatment in channel 17 (F = 9.354, P < 0.01), and it was more than that in the control group (F = 5.217, P < 0.05). fNIRS blood oxygen concentration results showed that, the blood oxygen concentration increased in the experimental group after treatment in channel 17 (F = 12.179, P < 0.01), and it was more than that in the control group (F = 4.883, P < 0.05). ConclusionThe upper limb robot-assisted therapy can improve the upper limb motor function and cerebral cortex activation of stroke patients.
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ObjectiveTo investigate the effect of high-definition transcranial direct current stimulation (HD-tDCS) combined with rehabilitation robot on upper limb and hand dysfunction in patients with subacute stroke. MethodsFrom December, 2019 to December, 2021, 50 inpatients with subacute stroke in Zhejiang Provincial People's Hospital were randomly divided into control group (n = 25) and experimental group (n = 25). Both groups received routine rehabilitation therapy, while the control group added sham HD-tDCS combined with rehabilitation robot, and the experimental group added HD-tDCS combined with rehabilitation robot, for four weeks. The upper limb and hand function was assessed with Action Research Arm Test (ARAT), Fugl-Meyer Assessment-Upper Extremities (FMA-UE) and Motor Assessment Scale (MAS) before and after treatment. ResultsAfter treatment, the scores of ARAT, FMA-UE and MAS increased in the two groups (∣Z∣ > 3.320, t > 6.379, P < 0.01), while the scores of FMA-UE and MAS were higher in the experimental group than in the control group (Z = -2.379, t = 3.181, P < 0.05), as well as the scores of grasping and gross motor of ARAT (∣Z∣ > 2.033, P < 0.05). ConclusionThe combination of HD-tDCS and rehabilitation robot can be more effective on upper limb and hand function in patients with subacute stroke than rehabilitation robot alone.
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ObjectiveTo investigate the effect of transcutaneous auricular vagus nerve stimulation (taVNS) combined with robot-assisted therapy on upper limb function of subacute stroke patients. MethodsFrom March, 2022 to March, 2023, 60 subacute stroke patients from Dushu Lake Hospital and the First People's Hospital of Kunshan were randomly divided into control group (n = 20), robot group (n = 20) and combined group (n = 20). All the groups received conventional treatments including medication, physical therapy and occupational therapy; the robot group received sham taVNS combined with hand robot-assisted therapy; while the combined group received taVNS combined with hand robot-assisted therapy, for four weeks. They were assessed with Fugl-Meyer Assessment-Upper Extremities (FMA-UE) and hand part, the root mean square (RMS) electromyography of the extensor carpi radialis and extensor digitorum muscles during contraction, and the latency and amplitude of transcranial magnetic stimulation motor-evoked potential (TMS-MEP) before and after treatment. ResultsAfter treatment, the scores of FMA-UE and hand part, RMS of the extensor carpi radialis and extensor digitorum muscles, and latency and amplitude of TMS-MEP improved in all the groups (t > 2.099, P < 0.05); and they were the best in all indicators in the combined group (F > 9.106, P < 0.001). ConclusiontaVNS combined with robot-assisted therapy can promote central nervous system remodeling and further improve upper limb function in stroke patients.
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ObjectiveTo explore the effect of repetitive peripheral magnetic stimulation on upper limb motor function rehabilitation of stroke patients after contralateral seventh cervical nerve transfer (CC7). MethodsFrom May, 2020, to May, 2022, 34 stroke patients with hemiplegia underwent CC7 in Jing'an District Centre Hospital of Shanghai were randomly divided into control group (n = 17) and observation group (n = 17). Both groups received conventional rehabilitation. The observation group accepted repetitive peripheral magnetic stimulation, and the control group received sham stimulation, for eight weeks. They were assessed with Fugl-Meyer Assessment-Upper Extremities (FMA-UE) and Hua-Shan Grading of Upper Extremity (H-S grading) before and after treatment. ResultsTwo cases dropped down in each group. There was difference in gender between two groups (χ2 = 6.136, P < 0.05). After treatment, the scores of FMA-UE and H-S grading significantly improved in both groups (t > 4.000, P < 0.01), and the improvement was better in the observation group than in the control group (t > 2.362, P < 0.05). ConclusionRepetitive peripheral magnetic stimulation could improve the motor function of upper limb and hand of stroke patients with hemiplegia after CC7.
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ObjectiveTo explore the effect of transcranial direct current stimulation (tDCS) combined with acupuncture on central and upper limb function in stroke patients at flaccid stage based on central-peripheral-central theory. MethodsFrom September, 2018 to December, 2021, 120 patients with upper limb dysfunction after stroke in Guangdong Work Injury Rehabilitation Hospital were selected and randomly divided into control group 1 (n = 40), control group 2 (n = 40) and experimental group (n = 40). All the groups received conventional rehabilitation treatment. In addition, the control group 1 received acupuncture treatment, the control group 2 received anodal tDCS, and the experimental group received combined treatment of both, for four weeks. They were assessed with Fugl-Meyer Assessment-Upper Extremities (FMA-UE) and modified Barthel Index (MBI) before and after treatment. Electroencephalograph (EEG) was used to detect brain symmetry index (BSI), and electromyography (EMG) was used to detect root mean square values (RMS) of triceps brachii, biceps brachii, extensor wrist and flexor wrist of the affected upper limbs. ResultsTwo cases in the control group 1, one in the control group 2 and one in the experimental group dropped off, respectively. After treatment, the scores of FMA-UE and MBI significantly increased in all the groups (t > 11.757, P < 0.001), and they were higer in the experimental group than in the control groups (P < 0.001); the BSI decreased in the control group 2 and the experimental group (t > 2.324, P < 0.05), and it was less in the experimental group than in the control group 2 (P < 0.05); the RMS of biceps increased in all the groups (t > 2.953, P < 0.01), and was higer in the experimental group than in the control groups (P < 0.05); the RMS of flexor wrist and triceps increased in the control group 1 and the experimental group (t > 2.230, P < 0.05), and were higher in the experimental group than in the control group 1 (P < 0.05); the RMS of wrist extensor muscle increased only in the experimental group (t = 3.350, P < 0.01). ConclusiontDCS combined with acupuncture based on central-peripheral-central theory could effectively improve the upper limb function of stroke patients at flaccid stage, with advantages in improving hemispheric asymmetry and enhancing the activation level of affected muscles.
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ObjectiveTo investigate the effect of 1 Hz repetitive transcranial magnetic stimulation (rTMS) combined with mirror therapy on upper limb motor function and cortical neurophysiological indicators in stroke patients with hemiplegia. MethodsSixty stroke patients who were admitted to Jinshan Hospital of Fudan University, from October, 2022 to March, 2023 were randomly assigned to control group (n = 15), rTMS group (n = 15), mirror therapy group (n = 15) and combined group (n = 15). All groups received routine medicine and rehabilitation. In addition, the control group received sham rTMS and sham mirror therapy, rTMS group received 1 Hz rTMS and sham mirror therapy, the mirror therapy group received sham rTMS and mirror therapy, and the combined group received 1Hz rTMS combined with mirror therapy, for four weeks. Fugl-Meyer Assessment-Upper Extremities (FMA-UE) and Action Research Arm Test (ARAT) were used to evaluate the motor function of the affected upper limb. The motor-evoked potential (MEP) amplitude and central motor conduction time (CMCT) of the affected cortex were measured using a transcranial magnetic stimulation device. ResultsAfter treatment, the scores of FMA-UE and ARAT, and the amplitude of MEP significantly improved in all groups (|t| > 3.854, P < 0.001), while the CMCT significantly shortened (t > 5.967, P < 0.001). Compared to the control group, rTMS group, the mirror therapy group and the combined group showed more significant improvement in the scores of FMA-UE and ARAT, and the amplitude of MEP, and shorter CMCT (P < 0.05). When compared to rTMS group and the mirror therapy group, the combined group showed more significant improvement the scores of FMA-UE and ARAT, and the amplitude of MEP, and shorter CMCT (P < 0.05). There was significant positive correlation of the scores of FMA-UE and ARAT with the amplitude of MEP, and negative correlation with the CMCT in all groups (R2 > 0.804, P < 0.001). ConclusionThe combination of 1 Hz rTMS and mirror therapy contributes to the post-stroke brain functional remodeling and facilitates upper limb motor recovery in stroke patients with hemiplegia.
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ObjectiveTo investigate the effect of robot-assisted bilateral task-oriented upper limb training on upper limb function of patients with stroke. MethodsFrom January, 2021 to June, 2022, 52 patients with stroke in the Second Hospital of Jiaxing were enrolled and randomized into control group (n = 26) and experimental group (n = 26). Both groups received routine treatment. The control group added conventional bilateral upper limb training, while the experimental group added robot-assisted bilateral task-oriented upper limb training, for six weeks. Before and after treatment, the upper limb motor function and activities of daily living were assessed with Fugl-Meyer Assessment-Upper Extremity (FMA-UE) and modified Barthel Index (MBI). The upper limb proprioception test system was used to measure the average trace error (ATE) and test execution time of the upper limb. ResultsBefore treatment, there was no significant difference in the scores of FMA-UE and MBI, and ATE and test execution time between two groups (P > 0.05). After treatment, all the indexes improved significantly in both groups (|t| > 5.400, P < 0.001), and were better in the experimental group than in the control group (|t| > 2.123, P < 0.05). ConclusionRobot-assisted bilateral task-oriented upper limb training could facilitate to improve the upper limb motor function and activities of daily living of stroke patients.
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@#Medical implants are normally used in clinical practice to treat most orthopaedics situations involving bone fractures, deformities, dislocation, and lengthening. It should be noted that specific measures regarding biomechanical and biomaterial characteristics are required for a successful post-surgery procedure. Biomechanical evaluations on the medical implants could be performed by utilising computer and engineering technology. One of them is in silico studies using finite element method that could be simulated in high-performance computer. However, various assumptions are required in computer simulation, such as the constraints on data input and computer resources. This review paper discusses current approaches of constructing a finite element model of human bone with specific material properties for upper limb such as the shoulder joint, humerus, elbow joint, radius and wrist joint. Previous related literatures were reviewed from selected keywords and search engines. To narrow the literature search in this study, inclusion and exclusion criteria of the literature searching were applied. We looked at the current level of knowledge in this field and offered recommendations for future study. In conclusion, studies from previous literature have demonstrated several ways for developing mathematical models and simulating medical implants.
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Objective:To evaluate the efficacy of 3D printed individualised prosthesis in treating bone and joint defects in upper limbs remained after earlier microsurgical repairs.Methods:From June 2019 to September 2021, 12 patients were treated in the Institute of Orthopaedic Trauma of PLA, the 80th Group Army Hospital for bone and joint defects in upper limb that had been remained after earlier repairs with soft tissue flaps. The defects were: 1 in completely severed wrist, 2 defects of digit metacarpal bone, 4 defects of interphalangeal joint, 4 defects of bones in radiocarpal joint and 1 defect of lunate bone. The area of soft tissue defect ranged from 1.5 cm×3.0 cm to 12.0 cm×18.0 cm, and the length of bone defects ranged from 2.5 to 8.5(average 3.64) cm. For incompletely severed and completely severed limbs, replantation of severed limbs (digits) were performed in the primary surgery and the repair of soft tissue defects were performed in the second stage surgery. The remaining defects of bone and joint were reconstructed by 3D printed individualised prostheses in the third stage surgery. Finger soft tissue defects were covered with a local flap in the primary surgery, and bone and joint defects were reconstructed with a 3D printed prosthesis in the second surgery. Finger soft tissue defects were covered with a local flap in the first phase, and bone and joint defects were reconstructed with a 3D printed prosthesis in the second phase. After the surgery, the bone integration between the broken end of the bone joint defect and the prosthesis was determined based on the X-ray results and the Paley fracture healing score standard. Simultaneously measured the Total Active Motion(TAM) of the forearm and hand joints. At 1, 2, 3, 6, 9 and 12 months after hospital discharge. Follow-up X-ray examinations were taken followed by examinations on the recovery of soft tissues and bones. The upper limb function was graded according to the Evaluation Trial Standards of Upper Limb Partial Functional of Hand Surgery of Chinese Medical Association.Results:Postoperative follow-up at outpatient clinic lasted for 6 to 26 months, with an average of 11.5 months. All flaps were free from necrosis and infection, also there was no infection in bones and joints. According to the Paley fracture healing scale, 10 patients were in excellent and 2 in good. In addition, according to the Evaluation Trial Standards of Upper Limb Partial Functional of Hand Surgery of Chinese Medical Association, 5 patients achieved upper limb function in excellent, 5 in good and 2 in fair. The ranges of motion of the affected wrists were 30°-42°(average 37.3°) for the implanted prostheses of distal end of radius and the radial shaft. Wrist flexion 40° to 55°(average 43.5°). The range of motion of finger and wrist was 60° to 70°(average 65.7°) with a metacarpal and phalangeal bone prosthesis.Conclusion:3D printed individually customised prostheses are safe, accurate and effective in repair of the remained bone and joint defects in upper limbs after primary and early stages of microsurgical flap repairs. It can effectively restore anatomical structures of bone and joint in upper limbs.
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Objective:To summarise the clinical efficacy of free deep inferior epigastric artery perforator flap (DIEPF) in repairing large wounds in upper limb.Methods:From June 2016 to March 2022, free DIEPF repair surgery were performed for 9 cases with large defects in elbow, forearm and wrist in the Department of Hand Surgery, Xuzhou Renci Hospital. The patients were 3 males and 6 females at 36-65(average 50) years old. The sizes of defect ranged from 6.0 cm×7.0 cm to 25.0 cm×33.0 cm. Seven defects combined with radius-ulnar fracture, 4 with wrist fracture, 4 with metacarpal fracture and 1 with humerus fracture. All defects had various degrees of injuries of tendon, blood vessel and nerve. A total of 10 flaps were harvested, and the size of flaps were 7.0 cm×8.0 cm-12.0 cm×35.0 cm. Vessels in 7 flaps of 6 patients were anastomosed with unilateral vascular pedicles and 3 with bilateral vascular pedicles. End-to-end arterial anastomosis was performed on 1 flap, and the other 9 flaps of 8 patients had end-to-side arterial anastomoses. End-to-end vein anastomoses were performed on all flaps. Umbilical reconstruction was performed at the abdominal donor site for 3 patients, and all donor site wounds were closed in stage I surgery. Scheduled outpatient and WeChat follow-up were made after surgery.Results:Nine flaps in 8 patients survived successfully. Partial skin necrosis occurred in 1 flap and repaired by skin grafting. Follow-up lasted for 6 to 60 months(12 months in average). At the last follow-up, the colour of the flaps was found being similar to the surrounding skin with mildly bloated and soft in texture. Sensation of the flaps recovered to S 2 in 5 patients, and not detected in 4 cases. Conclusion:The free DIEPF has a relatively constant perforator and the flap can be used for repairing a large area of defect. The donor site wound can be closed in Ⅰ stage surgery. Free DIEPF is suitable for repair of large upper limb wounds.
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Objective:To explore any effect of upper limb swing training guided by rhythmic auditory stimulation (RAS) on the walking ability of stroke survivors.Methods:Eighty stroke survivors were randomly divided into an observation group and a control group. Both groups received conventional rehabilitation treatment, including neuromuscular facilitation, muscle strength training, balance training and gait training, but the observation group was additionally provided with RAS-guided upper limb swing training for 20min once a day, 5d per week for 6 weeks. Before and after the intervention, balance and lower limb function were quantified in both groups using Holden′s walking function classification, the Fugl-Meyer lower extremity motor function scale (FMA-LE), the Berg Balance Scale (BBS) and the 10m walk test (10MWT). Limits of stability were also quantified.Results:After the treatment, the average Holden, FMA-LE and BBS scores, as well as the average 10MWT time were significantly better in the observation group than in the control group. The average stability limits and their maintenance were also superior.Conclusion:RAS-guided upper limb swing training can improve the gait, walking ability, walking stability, walking speed and balance of stroke survivors.
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Objective:To observe any dependence of anticipatory postural adjustment (APA) on the difficulty of fine upper limb tasks and to document any effect of reticulospinal tract (RST) facilitation on APAs during such tasks.Methods:The study′s bivariate mixed design involved 4 different tasks and 3 different priming states. Thirteen healthy, male, right-handed subjects were recruited. They were asked to complete the 4 tasks of reaching, grasping a cup, pinching a card using the thumb or using the little finger, respectively for 10 times 1 in response to two different starting cues delivered through an earphone. Half of the trials with each task were initiated with 114dB white noise to startle and activate the reticulospinal tract (RST), while the others were activated with 80dB beeps as a control. Electromyographic signals were recorded from the bilateral sternocleidomastoid (SCM), lower trapezius (LT), latissimus dorsi (LD), lumbar erector spinae and right anterior deltoid muscles and also from the right flexor and extensor carpi radialis muscles (ECR/FCR). In the subsequent processing the electromyographic time domain and frequency domain indicators were converted into a pre-motor reaction time, a time to muscle peak contraction, an activation latency, and APA or compensatory postural adjustment (CPA) amplitude of the tested muscles. These were compared among the different tasks and stimuli. In addition, the 114dB test tasks were classified as two different priming status as SCM + and SCM - according to whether the sternocleidomastoid muscle (SCM) was activated in advance. Results:After RST activation the pre-motor reaction time and the time to peak contraction of all of the muscles were significantly shortened in all of the tasks. The deltoid muscle reaction times in the SCM + , SCM - and control states were (106.89±43.78)ms, (136.78±48.74)ms and (168.60±73.17)ms, respectively, and those differences are significant. The APA amplitudes of the contralateral LT and ipsilateral LD were significantly greater than normal, but the timing of muscle activation onset and the APA/CPA amplitudes of the ECR/FCR were not affected. The latency in the anticipatory muscle activation of the ECR in the little finger grip task was significantly shorter than that in reaching. Conclusions:The extensor carpi radialis show task-specific early activation in fine tasks of the upper limbs with different difficulties. RST activation can lead to early starting of expected actions, accelerate muscle contraction and increase APA amplitude of some trunk muscles, but it has no significant effect on APA/CPA amplitudes in the forearm muscles.
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Stroke is a disease with a high disability rate, and often leads to limb dysfunction, especially upper limb motor dysfunction, which significantly affects the patients’ abilities and quality of life. With patients' increasing demand for functional recovery, various therapeutic techniques of rehabilitation medicine have been rapidly developed. As an important active central intervention technology, motor imagery training can be initiated by the patient's brain and activate the sensorimotor network to accelerate the repair of limb functions. The development of preventive medicine has promoted the continuous evolution of the concept of rehabilitation. The strategies of full cycle functional protection and disability prevention have been improved and developed in the clinical and scientific research practice of upper limb rehabilitation after stroke. The motor imagery training can activate the upper limb motor neural network in the early stage of stroke to prevent functional loss; In the recovery period, it can accelerate the neural function remodeling and reduce the upper limb disability; In the later stage after stroke, it can improve the performance of upper limb function in daily life, thus helping patients return to family life and society. This article reviews the research progress in recent years in China and abroad in the application of motor imagery training for the full cycle function protection and disability prevention of stroke.
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ObjectiveTo systematically evaluate the effect of action observation therapy (AOT) on upper limb function in children with cerebral palsy. MethodsRelevant literatures about the effect of AOT on upper limb function in children with cerebral palsy were retrieved from the databases of PubMed, Embase, Cochrane Library, Web of Science and CNKI, from the establishment to July 9, 2022. ResultsEleven articles involving 497 patients were included, which were mainly published in the past ten years. The studies included hospital-based studies with therapist supervision and home-based studies without therapist supervision, mainly related to the improvement of upper limb function of AOT in children with cerebral palsy. Experimental group performed actions related to activities of daily living, while control group mainly watched video clips excluding actions, 15 to 120 minutes a time, three to five times a week, with most of the intervention periods of three to four weeks. AOT improved the upper limb function of children with cerebral palsy in terms of body structure and function, and activity and participation, specifically grip strength, muscle tension, and hand dexterity and function. ConclusionHospital-based AOT with therapist supervision can improve upper limb function in children with cerebral palsy, while the effect of home-based AOT without therapist supervision and the long-term effect of AOT need to be further studied.
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ObjectiveTo investigate the effect of anodal transcranial direct current stimulation (atDCS) combined with contralaterally controlled functional electrical stimulation (CCFES) on upper limb motor function of stroke patients. MethodsFrom January to December, 2022, 60 stroke patients from Zhejiang Provincial People's Hospital were randomly divided into atDCS group (n = 20), CCFES group (n = 20) and combined group (n = 20). All the groups accepted routine rehabilitation, while atDCS group accepted atDCS on the primary motor (M1) area of the damaged hemisphere, CCFES group accepted CCFES on the triceps brachii and extensors carpi muscles, and the combined group accepted atDCS on the M1 area of damaged hemisphere and CCFES on triceps brachii and extensors carpi muscles, for six weeks. They were assessed with Fugl-Meyer Assessment-Upper Extremities (FMA-UE), Wolf Motor Function Test (WMFT), and the electromyography root mean square (RMS) ratio of bilateral triceps brachii muscles and extensor carpi muscles, before and after treatment. ResultsThe FMA-UE score, WMFT score, and the RMS ratio of the triceps brachii muscles and extensor carpi muscles improved in all the groups after treatment (|t| > 5.007, P < 0.001), and improved the most in the combined group (F > 14.492, P < 0.001). ConclusionatDCS combined with CCFES can effectively improve upper limb motor function of stroke patients.
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ObjectiveTo observe the clinical efficacy of anodal or cathodal transcranial direct current stimulation (atDCS and ctDCS) on upper limb function of stroke patients with moderate to severe upper extremity impairment. MethodsFrom January to September, 2022, 69 patients in Zhongda Hospital Southeast University were randomly divided into control group (n = 23), atDCS group (n = 23) and ctDCS group (n = 23). All the groups received conventional rehabilitation. Moreover, atDCS group received atDCS over the M1 area of the affected hemisphere, ctDCS group received ctDCS over the M1 area of the unaffected hemisphere, and the control group received placebo stimulation. Before and four weeks after treatment, they were assessed with Fugl-Meyer Assessment-Upper Extremities (FMA-UE), Wolf Motor Function Test (WMFT) and modified Barthel index (MBI). ResultsBefore treatment, there was no significant difference in the scores of FMA-UE, WMFT and MBI among groups (F < 1.165, P > 0.05). After treatment, all the scores improved significantly in all the groups (|t| > 6.412, P < 0.001), and were higher in the atDCS group and ctDCS group than in the control group (P < 0.05), however, no significant difference was found between the atDCS group and ctDCS group (P > 0.05). ConclusionBoth atDCS and ctDCS could improve the upper limb motor function and activities of daily living of stroke patients with moderate to severe upper extremity impairment.
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ObjectiveTo explore the effects of graded motor imagery (GMI) combined with repetitive transcranial magnetic stimulation (rTMS) on upper limb function and activities of daily living of stroke patients. MethodsFrom June, 2022 to February, 2023, 45 stroke patients from Xuzhou Rehabilitation Hospital and Xuzhou Central Hospital were recruited and divided into control group (n = 15), GMI group (n = 15) and combined group (n = 15) randomly. All the groups received conventional rehabilitation, in addition, GMI group received GMI and the combined group received GMI and rTMS, for four weeks. They were assessed with Fugl-Meyer Assessment-Upper Extremities (FMA-UE), Action Research Arm Test (ARAT), modified Barthel Index (MBI) and Hong Kong version of Functional Test for the Hemiplegic Upper Extremity (FTHUE-HK) before and after treatment. ResultsThe scores of FMA-UE, ARAT and MBI, and grades of FTHUE-HK improved in all the groups after treatment (|t| > 9.681, P < 0.001), and all these indexes were the best in the combined group (F > 13.241, P < 0.001). ConclusionGMI combined with rTMS can further improve the motor function of upper limbs and activities of daily living of stroke patients.
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ObjectiveTo clarify the feasibility of the 3D scanning volume method for distal upper limb volume measurement, and to analyze its scorer reliability and criterion-related validity. MethodsFrom January to March, 2022, a therapist (operator A) who had not been exposed to 3D scanning volume method and water displacement method was trained to use a handheld 3D laser scanner and a spilt cup to measure the volume of a PVC distal upper limb model. The operation time of 30 operations of each method was recorded. The learning curves of the two methods were plotted using cumulative sum (CUSUM) analysis. The curve was cut into the learning stage and the mastery stage by the vertex of peak. The times required to reach the mastery stage and the operation time of the mastery stage for the two methods were recorded. A total of 20 healthy subjects were recruited from Huashan Hospital of Fudan University. Two trained therapists (operator A and operator B) measured the bilateral distal upper limb volume using a handheld 3D laser scanner, and operator A measured the bilateral distal upper limb volume using a spilt cup. ResultsThe fitting learning curve of the 3D scanning volume method (R² = 0.984) reached its peak after eight times of operation; while that of the water displacement method (R² = 0.494) reached its peak after five times of operation. At mastery stage, the operator spent less time using 3D scanning volume method than using water displacement method (P < 0.05). The intraclass correlation coefficient between the two operators were both 0.979 for bilateral distal upper limb volume measure (P < 0.001). The Pearson coefficients was above 0.979 between 3D scanning volume method and water displacement method (P < 0.001). ConclusionA therapist can master the use of the 3D scanning volume method after eight times of operation, and the operation time of 3D scanning volume method is shorter than that of water displacement method at mastery stage. The 3D scanning volume method is well reliable and valid, that can be used as an alternative to the water displacement method for distal upper limb volumetric measurement.
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ObjectiveTo investigate the effects of transcutaneous auricular vagus nerve stimulation (taVNS) combined with bilateral arm training (BAT) on upper limb motor function of hemiplegic stroke patients. MethodsFrom January, 2021 to January, 2022,105 stroke patients from Zhejiang Provincial People's Hospital were randomly divided into taVNS group (n = 35), BAT group (n = 35) and combined group (n = 35). All the patients received routine rehabilitation, while taVNS group received taVNS, BAT group received BAT, and the combined group received both taVNS and BAT, for eight weeks. The root mean square (RMS) of surface electromyography in deltoid, triceps brachii and extensor carpi was measured, and the scores of Box and Block Test (BBT), and Fugl-Meyer Assessment-Upper Extremities (FMA-UE) were obtained before and after treatment. ResultsThe RMS of all these muscles, and the scores of BBT and FMA-UE improved in all the three groups after treatment (|t| > 6.124, P < 0.001), and they were improved the most in the combined group (F > 18.162, P < 0.001). ConclusionBoth taVNS and BAT can enhance the muscle strength on the affected upper limb, increase the hand flexibility, and improve upper limb motor function of stroke patients, while the combination of both methods is more effective.