Influence of transcutaneous electrical nerve stimulation conditions on disynaptic reciprocal Ia inhibition and presynaptic inhibition in healthy adults

This study investigated the influence of stimulus conditions of transcutaneous electrical nerve stimulation (TENS) on disynaptic reciprocal Ia inhibition (RI) and presynaptic inhibition (D1 inhibition) in healthy adults. Eight healthy participants received TENS (stimulus frequencies of 50, 100, and 200?Hz) over the deep peroneal nerve and tibialis anterior (TA) muscle in the resting condition for 30?min. At pre- and post-intervention, the RI from the TA to the soleus (SOL) and D1 inhibition of the SOL alpha motor neuron were assessed by evoked electromyography. The results showed that RI was not changed by TENS at any stimulus frequency condition. Conversely, D1 inhibition was significantly changed by TENS regardless of the stimulus frequency. The present results and previous studies pertaining to RI suggest that the resting condition might strongly influence the lack of pre- vs. post-intervention change in the RI. Regarding the D1 inhibition, the present results suggest that the effect of TENS might be caused by post-tetanic potentiation. The knowledge gained from the present study might contribute to a better understanding of fundamental studies of TENS in healthy adults and its clinical application for stroke survivors.     

Modulation of spinal inhibitory reflexes depends on the frequency of transcutaneous electrical nerve stimulation in spastic stroke survivors

Neurophysiological studies in healthy subjects suggest that increased spinal inhibitory reflexes from the tibialis anterior (TA) muscle to the soleus (SOL) muscle might contribute to decreased spasticity. While 50?Hz is an effective frequency for transcutaneous electrical nerve stimulation (TENS) in healthy subjects, in stroke survivors, the effects of TENS on spinal reflex circuits and its appropriate frequency are not well known. We examined the effects of different frequencies of TENS on spinal inhibitory reflexes from the TA to SOL muscle in stroke survivors. Twenty chronic stroke survivors with ankle plantar flexor spasticity received 50-, 100-, or 200-Hz TENS over the deep peroneal nerve (DPN) of the affected lower limb for 30?min. Before and immediately after TENS, reciprocal Ia inhibition (RI) and presynaptic inhibition of the SOL alpha motor neuron (D1 inhibition) were assessed by adjusting the unconditioned H-reflex amplitude. Furthermore, during TENS, the time courses of spinal excitability and spinal inhibitory reflexes were assessed via the H-reflex, RI, and D1 inhibition. None of the TENS protocols affected mean RI, whereas D1 inhibition improved significantly following 200-Hz TENS. In a time-series comparison during TENS, repeated stimulation did not produce significant changes in the H-reflex, RI, or D1 inhibition regardless of frequency. These results suggest that the frequency-dependent effect of TENS on spinal reflexes only becomes apparent when RI and D1 inhibition are measured by adjusting the amplitude of the unconditioned H-reflex. However, 200-Hz TENS led to plasticity of synaptic transmission from the antagonist to spastic muscles in stroke survivors.     

The morphology of the medial gastrocnemius in typically developing children and children with spastic hemiplegic cerebral palsy

We collected 3D ultrasound images of the medial gastrocnemius muscle belly (MG) in 16 children with spastic hemiplegic cerebral palsy (SHCP) (mean age: 7.8 years; range: 4–12) and 15 typically-developing (TD) children (mean age: 9.5 years; range: 4–13). All children with SHCP had limited passive dorsiflexion range on the affected side with the knee extended (mean ± 1SD: −9.3° ± 11.8). Scans were taken of both legs with the ankle joint at its resting angle (RA) and at maximum passive dorsiflexion (MD), with the knee extended. RA and MD were more plantar flexed (p < 0.05) in children with SHCP than in TD children.

We measured the volumes and lengths of the MG bellies. We also measured the length of muscle fascicles in the mid-portion of the muscle belly and the angle that the fascicles made with the deep aponeurosis of the muscle. Volumes were normalised to the subject’s body mass; muscle lengths and fascicle lengths were normalised to the length of the fibula.

Normalised MG belly lengths in the paretic limb were shorter than the non-paretic side at MD (p = 0.0001) and RA (p = 0.0236). Normalised muscle lengths of the paretic limb were shorter than those in TD children at both angles (p = 0.0004; p = 0.0003). However, normalised fascicle lengths in the non-paretic and paretic limbs were similar to those measured in TD children (p > 0.05). When compared to the non-paretic limb, muscle volume was reduced in the paretic limb (p < 0.0001), by an average of 28%, and normalised muscle volume in the paretic limb was smaller than in the TD group (p < 0.0001).

The MG is short and small in the paretic limb of children with SHCP. The altered morphology is not due to a decrease in fascicle length. We suggest that MG deformity in SHCP is caused by lack of cross-sectional growth.     

Effects of bone marrow mesenchymal stromal cells on gross motor function measure scores of children with cerebral palsy: a preliminary clinical study

Background aimsPre-clinical evidence indicates that autologous bone marrow-derived mesenchymal stromal cell (BM-MSC) transplantation improves motor function in patients with central nervous system disorders.MethodsAfter providing informed consent, 52 patients with cerebral palsy (CP) who met the study criteria received BM-MSC transplantation. Gross motor function was assessed using the Gross Motor Function Measure (GMFM)-88 and GMFM-66 scales at baseline (before transplantation) and at 1 month, 6 months and 18 months post-transplantation. The participants completed the trial without visible side effects. The GMFM-66 percentile (motor growth curves) was used as the control index of motor function to exclude the interference of improvement with age.ResultsThe score domains A, B, C and D and the total GMFM-88 and GMFM-66 scores in participants increased at 1 month, 6 months and 18 months post-transplantation compared with the baseline value (P < 0.01). The scores of domain E also increased at 6 months and 18 months post-transplantation, although they were not significantly increased at 1 month post-transplantation. There were significant increases in the GMFM-66 score and the GMFM-66 percentile corresponding to patient age and Gross Motor Function Classification System level after cell transplantation.ConclusionsAutologous BM-MSC transplantation appears to be a feasible, safe and effective therapy for patients with CP. The treatment improved the development of children with CP with regard to motor function.     

Evaluation of combined effects of brief electrical stimulation and Schwann-like cells on sciatic nerve injury model

Severe nerve injuries can be treated with electrical stimulation and stem cell therapies, but little is known about the potential benefits of combining these two treatments. In an effort to investigate this combination, we conducted a study to evaluate the effectiveness of electrical stimulation and Schwann-like cell transplantation in female Wistar albino rats. Our study consisted of five groups of rats: a sham group, an injury group, an electrical stimulation group, a Schwann-like cell group, and a combination group. The experimental groups received electrical stimulation, Schwann-like cell transplantation, or both. The animals sciatic function index was evaluated during a 6-week recovery period, and nerve conduction velocity, wet muscle mass, and nerve tissues were also analyzed. The results of the study showed that all experimental groups had a faster functional recovery compared to the injury group, although the difference between groups was not statistically significant. Both the combination group and the Schwann-like cell transplantation group had a higher nerve conduction velocity compared to the other experimental groups. However, there was no significant difference between the combination and Schwann-like cell transplantation groups. Nonetheless, histological analysis showed a better axonal reorganization in the combination group. The study provides preliminary evidence of the potential benefits of combining electrical stimulation and Schwann-like cell transplantation in treating severe nerve injuries. However, further studies with larger sample sizes are needed to confirm these findings and optimize the treatment parameters.     

The severity of chewing disorders is related to gross motor function and trunk control in children with cerebral palsy

Abstract

Purpose: The frequency of chewing disorders increases with decreasing level of gross motor function in children with cerebral palsy (CP). Besides its frequency, the severity of chewing disorders is also important. The aim of this study was to determine the relationship between chewing performance level and gross motor function, and trunk postural control in children with CP.

Materials and methods: The study included 119 children with CP (age 2–10 years). Chewing performance level was determined by the Karaduman Chewing Performance Scale (KCPS). The Gross Motor Function Classification System (GMFCS) was used to determine the level of gross motor function. Segmental Assessment of Trunk Control (SATCo) was used to measure trunk control.

Results: Children with spastic CP with a median age of 4?years were evaluated, of which 50.4% were male. The percentages of patients classified to GMFCS levels I to V were 43.7%, 6.7%, 9.2%, 5.0%, and 35.3%, respectively. The median KCPS score was 3 (min?=?0, max?=?4). A good correlation was found between KCPS and GMFCS (p?<?.001, r?=?0.70). Negative, excellent correlations between KCPS and SATCo static, SATCo active, and SATCo reactive postural controls were found (p?<?.001, r?=?–0.75, r?=?–0.77, r?=?–0.79; respectively).

Conclusions: The severity of chewing disorders is related to the level of gross motor function and trunk postural control in children with CP.

Clinical trial number: NCT03241160     

Effect of locomotor training and functional electrical stimulation on postural function in children with severe cerebral palsy

Cerebral palsy (CP) considerably impairs the ability to maintain upright stance. The effects of locomotor training and functional electrical stimulation (FES) on postural control were determined in 27 children aged 6–12 years with severe CP. The severity level of the clinical manifestations of CP was classified as 3 according to the Gross Motor Function Classification System (GMFCS). All patients participated in 15 30-min mechanical therapy sessions using robot-assisted passive stepping. In 12 out of 27 children, the locomotion therapy was accompanied by FES. Stabilometry and plantography tests were performed in 23 healthy age-matched children. Postural control in children with CP differed from the stabilograms of healthy children in a forward shift of the center of pressure (COP) projection; higher values of the COP trajectory area and length, the mean amplitude of the COP oscillations, and the absence of COP response to the eyes closed condition. After treatment, the posturographic characteristics tended to normalize in relation to the values obtained in neurologically intact children. The improvement was observed in 43% of children without FES and in 75% of children in the group with FES. Analysis of plantograms revealed normalization of footprints in children who received FES. Thus, it was demonstrated that FES combined with locomotor training resulted in the improvement in vertical posture control in children with severe CP.     

Mechanobiological prediction of proximal femoral deformities in children with cerebral palsy

Children with cerebral palsy (CP) walk with altered gait and frequently exhibit proximal femoral deformities, such as anteversion and coxa valga. The objective of this research was to investigate the effect of specific gait patterns on the femoral morphology in CP.

In this study, the mechanobiological principles were implemented on a 3D finite element (FE) model of the proximal femur in order to predict changes in morphology over time in healthy and CP children. This model relies on the assumption that cyclic octahedral shear stress promotes growth and cyclic hydrostatic compressive stress inhibits growth. Growth was simulated over 16 iterations, representing approximately 5 months of growth.

The FE model predicts an increase in the femoral anteversion and coxa valga for CP loading conditions when compared with healthy ones. Understanding the role of loading in skeletal morphogenesis may help prevent bone deformities and improve function in children with gait abnormalities.     

Hearing function and auditory evoked potentials in children with spastic forms of cerebral palsy

We studied auditory short-latency brainstem and long-latency cortical evoked potentials (EP)in 62 healthy children and 126 children with spastic forms of childrens cerebral palsy, CP (spastic tetraparesis, spastic diplegia, and left-and right-side hemiplegias). An increase in the thresholds of audibility (independently of the CP form) was the most typical disturbance of the function of hearing revealed by the analysis of EP recorded in children suffering from CP. Disturbances in transmission of afferent impulsation in the brain-stem structures of the auditory system and disorders in the perception of different tones within the speech frequency range were also rather frequent. Modifications of the brainstem and cortical auditory EP typical of different CP forms, in particular hemiplegias, are described. It is demonstrated that recording and analysis of EP allow one to diagnose in children with CP those disorders in the hearing function that, in many cases, are of a subclinical nature. This technique allows clinicians to examine the youngest children (when verbal contact with the child is difficult or impossible), to study brainstem EP, and to obtain more objective data; these are significant advantages, as compared with subjective audiometry.Neirofiziologiya/Neurophysiology, Vol.36, No.4, pp.306–312, July-August, 2004.     

Electrophysiological correlates of action observation treatment in children with cerebral palsy: A pilot study

Action Observation Treatment (AOT) has been shown to be effective in the functional recovery of several clinical populations. However, little is known about the neural underpinnings of the clinical efficacy of AOT in children with Cerebral Palsy (CP). Using electroencephalography (EEG), we recorded µ rhythm desynchronization as an index of sensorimotor cortex modulation during a passive action observation task before and after AOT. The relationship between sensorimotor modulation and clinical outcomes was also assessed. Eight children with CP entered the present randomized controlled crossover pilot study in which the experimental AOT preceded or followed a control Videogame Observation Treatment (VOT). Results provide further evidence of the clinical efficacy of AOT for improving hand motor function in CP, as assessed with the Assisting Hand Assessment (AHA) and Melbourne Assessment of Unilateral Upper Limb Function Scale (MUUL). The novel finding is that AOT increases µ rhythm desynchronization at scalp locations corresponding to the hand representation areas. This effect is associated to functional improvement assessed with the MUUL. These preliminary findings, although referred to as a small sample, suggest that AOT may affect upper limb motor recovery in children with CP and modulate the activation of sensorimotor areas, offering a potential neurophysiological correlate to support the clinical utility of AOT.     

电刺激大鼠脊神经皮支对远距离机械感受单位电活动的影响

实验采用分离神经细束的方法,观察逆行电刺激大鼠脊神经背侧皮支后,在相距较远的神经细束上记录到的Aδ和C类机械感受单位电活动的变化。刺激T9脊神经背侧皮支,在T12神经细束上记录到59.3%（16/27）的Aδ和71.2%(37/52）的C类单位在刺激后90～120s放电显著增加。刺激T8脊神经背侧皮支,在T12神经细束上记录到47.8%(11/23）的Aδ单位和36.6%(15/41）的C类单位在刺激后120～150s放电显著增加。大多数单位（18/23）的机械感受阈值在电刺激远距离脊神经背侧皮支后降低。结果表明,逆行电刺激外周感觉神经,可以使相距较远的Aδ和C类机械感受单位致敏,其传入放电增加。     

功能性电刺激对痉挛型双瘫型脑瘫患儿下肢运动功能的影响

目的:探讨功能性电刺激(FES)对痉挛型双瘫型脑瘫患儿下肢运动功能的影响。方法:将2012年7月-2014年6月我院儿科康复中心141例痉挛型双瘫脑瘫患儿随机分为观察组(73例)与对照组(68例),对照组采用常规综合康复治疗,观察组在此基础上再给予FES治疗,持续治疗12周,在治疗前及治疗后12周后测定MAS评分、踝关节背屈活动度(ROM)评分以及粗大运动功能测试量表(GMFM)评分。结果:经治疗12周后,两组ROM评分和GMFM评分均显著高于治疗前(P0.05),且观察组上升更明显(P0.05);两组MAS评分均显著低于治疗前(P0.05),且观察组降低更明显(P0.05)。结论:FES结合运动训练可显著缓解下肢肌群痉挛程度,改善踝关节运动范围和功能,促进下肢运动功能的恢复,值得临床推广。     

肌内效贴联合经皮神经电刺激对脑卒中后偏瘫肩痛患者肩关节疼痛、肩关节功能和血液流变学的影响

摘要 目的：探讨肌内效贴联合经皮神经电刺激（TENS）对脑卒中后偏瘫肩痛患者肩关节疼痛、肩关节功能和血液流变学的影响。方法：选取2019年5月~2022年1月期间江苏省人民医院收治的脑卒中后偏瘫肩痛患者100例,根据随机数字表法将其分为对照组（n=50）和研究组（n=50）,在常规康复训练的基础上,对照组接受肌内效贴干预,研究组接受肌内效贴联合TENS干预。对比两组视觉模拟评分法（VAS）评分、上肢Fugl-Meyer运动功能评定量表（FMA）、改良Barthel指数（MBI）、Constant-Murley肩关节功能评分量表（CMS）评分、血液流变学指标、肩关节功能变化情况。结果：研究组干预后VAS评分低于同期对照组（P<0.05）。研究组干预后FMA、MBI、CMS评分高于同期对照组（P<0.05）。研究组干预后血浆黏度、纤维蛋白原、全血黏度、红细胞压积均低于同期对照组（P<0.05）。研究组干预后患侧肩关节的外旋、前屈、外展的主动/被动活动度（AROM/PROM）均大于对照组同期（P<0.05）。结论：肌内效贴联合TENS应用于脑卒中后偏瘫肩痛患者,可有效改善肩关节疼痛、肩关节功能和血液流变学。     

电刺激迷走神经对蟾蜍心率和心率变异的影响

目的:观察不同频率迷走神经刺激对蟾蜍离体心脏的心率及心率变异的影响。方法:将蟾蜍心脏和右侧迷走交感干离体后,以不同频率电刺激神经,记录心电图曲线并作心率变异性(HRV)分析。结果:交感神经阻断后,电刺激迷走交感干,心率(HR)显著下降(P0.01),全部正常心动周期的标准差(SDNN)和相邻正常心动周期差值的均方根(RMSSD)显著升高(P0.01),不同频率刺激组之间没有明显差异;与对照组相比,各指标变化较大;给药组0.2Hz时高频(HF)显著升高(P0.01),低频/高频比值(LF/HF)明显降低(P0.05),0.8Hz时HF和LF/HF接近刺激前水平。结论:一定范围内增加刺激频率,迷走神经降低心率的作用增强;没有交感神经调节条件下的迷走神经对心率和心率变异的调节可能存在不同的机制。     

The influence of electrical stimulation of vagus nerve on elemental composition of dopamine related brain structures in rats

Recent studies of Parkinson's disease indicate that dorsal motor nucleus of nerve vagus is one of the earliest brain areas affected by alpha-synuclein and Lewy bodies pathology. The influence of electrical stimulation of vagus nerve on elemental composition of dopamine related brain structures in rats is investigated. Synchrotron radiation based X-ray fluorescence was applied to the elemental micro-imaging and quantification in thin tissue sections. It was found that elements such as P, S, Cl, K, Ca, Fe, Cu, Zn, Se, Br and Rb are present in motor cortex, corpus striatum, nucleus accumbens, substantia nigra, ventral tectal area, and dorsal motor nucleus of vagus. The topographic analysis shows that macro-elements like P, S, Cl and K are highly concentrated within the fiber bundles of corpus striatum. In contrast the levels of trace elements like Fe and Zn are the lowest in these structures. It was found that statistically significant differences between the animals with electrical stimulation of vagus nerve and the control are observed in the left side of corpus striatum for P (p = 0.04), S (p = 0.02), Cl (p = 0.05), K (p = 0.02), Fe (p = 0.04) and Zn (p = 0.02). The mass fractions of these elements are increased in the group for which the electrical stimulation of vagus nerve was performed. Moreover, the contents of Ca (p = 0.02), Zn (p = 0.07) and Rb (p = 0.04) in substantia nigra of right hemisphere are found to be significantly lower in the group with stimulation of vagus nerve than in the control rats.     

骶神经电刺激对急性脊髓损伤大鼠肠黏膜免疫屏障功能的影响

目的:观察骶神经根电刺激对急性完全性脊髓损伤大鼠肠黏膜免疫屏障功能的影响。方法:56只Wistar大鼠分为正常组(SG=8只)、脊髓损伤组(CG=24只)和骶神经电刺激组(EG=24只)。CG、EG (分别设24、48和72 h组,8只/组)。CG、EG大鼠均于全麻下用Fehlings法98 g动脉瘤夹横行钳夹行脊髓损伤并植入骶神经刺激电于右侧骶3神经孔。CG不进行干预,EG行骶神经电刺激。刺激参数:电压4 V,波宽210μs,频率15 Hz,刺激10s,间歇20 s。每次持续10 min,间歇10 min,共2 h。早8:00-10:00,晚6:00-8:00两次。分组采集标本,进行HE染色光镜、透射电镜组织学观察、Western blot方法检测组织锌指蛋白A20、NOD2和CD68蛋白表达量。结果:(1)肠道形态学观察:光镜和电镜观察脊髓损伤后黏膜结构破坏明显,肠腔细菌和杂质进入破损的肠黏膜上皮细胞、M细胞和经细胞间连接缝隙进入黏膜下,引起局部炎症反应;经电刺激后均有了很大程度改善。(2)锌指蛋白A20:与SG相比,CG各小组A20表达均明显降低(P<0.01);与SG、C...     

Safety and tolerability of intrathecal delivery of autologous bone marrow nucleated cells in children with cerebral palsy: an open-label phase I trial

Background aimsCerebral palsy (CP) is related to severe perinatal hypoxia with permanent brain damage in nearly 50% of surviving preterm infants. Cell therapy is a potential therapeutic option for CP by several mechanisms, including immunomodulation through cytokine and growth factor secretion.MethodsIn this phase I open-label clinical trial, 18 pediatric patients with CP were included to assess the safety of autologous bone marrow–derived total nucleated cell (TNC) intrathecal and intravenous injection after stimulation with granulocyte colony-stimulating factor. Motor, cognitive, communication, personal-social and adaptive areas were evaluated at baseline and 1 and 6 months after the procedure through the use of the Battelle Developmental Inventory. Magnetic resonance imaging was performed at baseline and 6 months after therapy. This study was registered in ClinicaTrials.gov (NCT01019733).ResultsA median of 13.12 × 10⁸ TNCs (range, 4.83–53.87) including 10.02 × 10⁶ CD34+ cells (range, 1.02–29.9) in a volume of 7 mL (range, 4–10.5) was infused intrathecally. The remaining cells from the bone marrow aspirate were administered intravenously; 6.01 × 10⁸ TNCs (range, 1.36–17.85), with 3.39 × 10⁶ cells being CD34+. Early adverse effects included headache, vomiting, fever and stiff neck occurred in three patients. No serious complications were documented. An overall 4.7-month increase in developmental age according to the Battelle Developmental Inventory, including all areas of evaluation, was observed (±SD 2.63). No MRI changes at 6 months of follow-up were found.ConclusionsSubarachnoid placement of autologous bone marrow–derived TNC in children with CP is a safe procedure. The results suggest a possible increase in neurological function.