Walking Function Research Articles

Targeted Biofeedback Training to Improve Gait Parameters in Subacute Stroke Patients: A Single-Blind Randomized Controlled Trial

Biofeedback (BFB) is a rehabilitation method, which, among other things, is used for the restitution of motor and gait function. As of now, it has become technically feasible to use BFB training based on target gait parameters to improve the gait function in stroke patients. The walking patterns of stroke patients are generally characterized by significant gait phase asymmetries, mostly of the stance phase and the single stance phase. The aim of the study was to investigate the restoration of gait function using BFB training with gait phases as feedback targets. The study included two patient groups, each of 20 hemiparetic patients in the subacute stage of stroke and a control group of 20 healthy subjects. Each patient group received BFB training with either stance phase or single stance phase as the feedback target, respectively. The patients received a total of 8 to 11 training sessions. Assessments based on clinical scales and gait analysis data (spatiotemporal, kinematic, and EMG parameters) were performed before and after the training course. The score-based clinical assessments showed a significant improvement in both patient groups. According to the assessments of gait biomechanics, the subjects in the Single Stance Phase group had significantly more severe dysfunctions. In both patient groups, the unaffected limb responded to the BFB training, while the stance phase significantly changed after training in the unaffected limb only. The other patient group, trained using the single stance phase as the feedback target, showed no changes in the target parameter either in the affected or in the contralateral limb. The clinical and instrumental assessments showed different, non-equivalent sensitivity. The results of the study demonstrated the possibility to use targeted BFB training to improve walking function. However, a significant effect of such training was only observed with stance phase as the target parameter. A response to training was observed predominantly in the unaffected limb and facilitated the desired increase in the functional ability of the paretic limb. Training based on stance phase as the target parameter is probably preferable for the patient population under study.

Prognostic impact of a 3-week multimodal prehabilitation program on frail elderly patients undergoing elective gastric cancer surgery: a randomized trial.

Research indicates that prehabilitation is effective in optimizing physical status before surgery, although this method may be considered "aggressive" for frail elderly patients. This study aimed to evaluate whether multimodal prehabilitation decreases postoperative complications and improves functional recovery in frail elderly patients undergoing gastric cancer surgery, in comparison to usual clinical care. This study was a single-center, single-blind, randomized controlled trial. Patients over 65 years old with a Fried Frailty Index of 2 or higher, scheduled for gastric cancer surgery, were considered for inclusion. Eligible participants were randomized in a 1:1 ratio to either the intervention or control group. The intervention group underwent a 3-week multimodal prehabilitation program prior to surgery, in addition to perioperative care guided by ERAS protocols. The control group received only the latter. The primary outcome was the comprehensive complications index (CCI) measured at 30 days after surgery. Secondary outcomes included 30-day overall complications, functional walking capacity as assessed by 6-minute walking distance (6MWD) at 4 weeks postoperatively, and 3-month postoperative quality of life. This study was registered at ClinicalTrials.gov (No. NCT06510088). Among the 112 eligible patients, the median age was 74 years, with 58 (52.7%) being female.No between-group difference was found in the primary outcome measure, 30-day CCI. The Median (Q1-Q3) CCI for the intervention and control groups was 0 (0-12.2) and 0 (0-22.6) (P = 0.082), while the mean (SD) CCI was 6.1 (15.8) and 9.8 (12.7), respectively (P = 0.291). Notably, the incidence of severe complications (CCI > 20) was significantly lower in the intervention group compared to the control group (11.1% vs. 25.9%, P = 0.046), particularly in terms of medical complications (12.3% vs. 29.3%, P = 0.025). Preoperatively, 27 patients (47.4%) in the intervention group exhibited an increase in the 6MWD of at least 20m, compared to 16 patients (27.6%) in the control group (P = 0.028). At 4 weeks postoperatively, more patients in the intervention group returned to their baseline 6MWD levels (63.2% vs. 43.1%, P = 0.031). Secondary parameters of functional capacity in the postoperative period generally favored the multimodal prehabilitation approach. In frail elderly patients undergoing elective gastric cancer surgery, a prehabilitation program did not affect the 30-day postoperative complication rate or CCI but reduced severe complications and improved perioperative functional capacity. [ClinicalTrials.gov], [NCT06510088], [07/15/2024], [Retrospectively registered].

Enhanced walking function and quality of life in unicondylar knee replacement patients through continuous nursing intervention: A clinical study.

The knee joint anatomical structure is susceptible to external forces, which can lead to functional break down, profoundly affecting the quality of life and daily functioning of individuals. To investigate the effects of continuous nursing intervention on walking function, quality of life, and treatment satisfaction in patients undergoing unicondylar knee replacement. This prospective study included 90patients who underwent unicondylar knee arthroplasty due to unicondylar osteoarthritis. Participants were divided into two groups based on their nursing methods: the control group (n= 45) and the observation group (n= 45). Three months post-intervention, the observation group demonstrated significant improvements in knee joint range of motion, Hospital for Special Surgery Knee Score score, and Lysholm knee joint score compared to the control group (P< 0.05). The observation group also had a shorter completion time for the Timed Up and Go test and significantly higher SF-36 scores (P< 0.05 for both). Additionally, Knee Injury and Osteoarthritis Outcome Score scores in the observation group were significantly higher after three months of intervention (P< 0.05). And the observation group reported higher satisfaction rates and lower dissatisfaction rates compared to the control group (P< 0.05). Early postoperative rehabilitation guidance, regular reviews, and rehabilitation exercise guidance result in better rehabilitation outcomes, enhanced knee joint function, improved walking ability, and overall quality of life for patients undergoing unicondylar knee replacement.

Effects of mind-body exercise in children with cerebral palsy—A systematic review and meta-analysis

Background and purposeAn increasing number of studies have investigated the efficacy of mind-body exercise in the treatment of children with cerebral palsy (CP). However, the findings of these researches have produced inconsistent results. The objective of this study was to evaluate the effects of mind-body exercise on children with CP in order to provide more conclusive results. Materials and methodsA comprehensive search was conducted in PubMed, Cochrane, Embase, Web of Science, and Ovid databases from inception to May 2024. One researcher extracted the data, including first author, study type, country, year of publication, population, age, sample size, intervention details and outcomes, accuracy was verified by a second researcher. The included studies were analyzed using Review Manager 5.4 (RevMan 5.4) and StataNow/MP 18.5 software, with publication bias examined using funnel plots, and result stability assessed through sensitivity analysis. ResultsA total of six eligible studies, comprising 173 patients, were included in the meta-analysis. The results of the meta-analysis indicated that mind-body exercise can improve balance function in children with CP (SMD = 0.48, P = 0.006). There was no significant difference in the effect of mind-body exercise on walking function in children with CP (SMD = −0.23, P = 0.58). ConclusionCompared with routine care and rehabilitation, mind-body exercise may provide a safe and convenient approach to improving balance functions in children with CP, but showed no statistically significant beneficial effects on walking in children with CP. Prospero registration numberCRD42024534257.

Research on the mechanism of the effect of music rhythm synchronization training on biomechanics gait optimization and rehabilitation outcome

The integration of movements or activities that match the beat of music is known as music rhythm synchronization (MRS). Excessive musical tempo can enhance motor abilities and general movement efficiency and it requires synchronizing physical activities like walking or exercising. Enhancing the speed of movement that leads to quick walking, longer step length symmetric, and functional walking ability. The training with MRS mechanism, this research aims to analyze the movement in biomechanics, optimization, and the findings of rehabilitation impacts. This research utilizes 75 participants with Parkinson’s illness and they are divided into two categories group A with training in MRS mechanism and received traditional mechanism training in group B. This research explores the training in MRS mechanism-affected biomechanics movements are performed by utilizing the pre-post method by providing more evaluations. The three-week supervised rehabilitation program presenting the MRS has been followed by the two-week follow-up stage as a part of the intervention. There are two significant deviation estimations in the patterns of normal gait like the gait variable score (GVS) and gait profile score (GPS). The regression analysis, Analysis of Variance (ANOVA), regression analysis, and paired sample t-test, which are the data assessment techniques are evaluated by utilizing the SPSS statistical software for the performance. The conclusion demonstrates the MRS mechanism training significantly improved gait biomechanics. The GPS score shows the enhanced overall quality of gait and it decreased significantly. These findings illustrate the potential of the MRS mechanism training mechanism in improving gait biomechanics and producing excellent rehabilitation outcomes.

The relationship between walking speed, step parameters, and margins of stability in individuals after stroke

BackgroundIndividuals after stroke walk with different step parameters and consequently with different margins of stability compared to able-bodied peers. These differences might be a side effect of lower preferred walking speeds or primary limitations in regulating step parameters and margins of stability after stroke. MethodsTwenty-eight individuals after stroke (separated into more impaired and less impaired based on speed) and fourteen able-bodied peers completed five walking trials on an instrumented treadmill at 70 %, 85 %, 100 %, 115 %, and 130 % of their preferred speed. Center of pressure data were used to calculate stride frequency, stride length, step width and margins of stability in mediolateral and anteroposterior direction. Generalized estimation equations were used to analyze the (interaction) effects of group, speed, and most versus least affected leg on these parameters. FindingsWhen controlled for speed, all individuals after stroke walked with higher stride frequencies (P < 0.001) and shorter stride lengths (P < 0.001) than able-bodied peers. Less impaired individuals walked with larger step widths than able-bodied peers (P < 0.001). The interaction effect of group and speed suggested that individuals after stroke showed higher increases in stride length with increasing speed than able-bodied peers. When controlled for speed, mediolateral margins of stability were larger in less impaired individuals compared to able-bodied peers, but otherwise, margins of stability did not differ between groups. Only minor differences between the most and least affected leg were observed. InterpretationDifferences in step parameters between individuals after stroke and able-bodied peers seem independent of walking speed and function to enhance gait stability.

Effects of a sequential square mat walking training program Fisior® on improving physical performance in older adults with Parkinson's disease: A pilot study

BackgroundThis study aimed to assess the efficacy of a 12-week functional walking training program utilizing a sequential square mat (Fisior® Mat) on the physical performance of older adults diagnosed with Parkinson's Disease (PD). MethodsParticipants, aged over 60 and diagnosed with mild to moderate PD, underwent progressive resistance training sessions lasting 30-40 minutes, three times a week, using the Fisior® sequential square mat. A randomized clinical trial was conducted with participants from a patient association. Multiple linear regression models were employed to analyze physical performance variation between intervention and control groups. ResultsTwenty-eight patients (14 in each group) participated, with improvements observed in total Short Physical Performance Battery (SPPB) score, chair test score, gait speed score, and balance test score. Participants in the intervention group showed significant improvement in chair and balance test scores compared to controls. ConclusionThe Fisior® sequential square mat program, as an adjunct to conventional outpatient physiotherapy, effectively enhances physical performance in older adults with PD.

Heel Raises and Calf Stretches Exercises Versus Medication Only in Ischemic Intermittent Claudication: A Randomized Controlled Trial.

Intermittent claudication is a primary symptom of peripheral artery disease (PAD). a chronic progressive disease caused primarily by atherosclerosis. It is usually characterized by leg pain, aches, cramps, or fatigue when walking, which improves with rest. Physical therapy, including a supervised exercise program, is often recommended as the first treatment for sprains. This study aims to evaluate the short-term effects of incorporating heel raise and calf stretch exercises with standard medical therapy compared to medical therapy alone in managing intermittent claudication. From May 2022 to November 2023, 160 patients with Stage II Fontaine PAD were randomly assigned to two equal groups. Group A (80 patients) received heel raise and calf stretch exercises in addition to medical treatment, while Group B (80 patients) received only medical treatment. Both groups underwent treadmill walking tests before and after three months to measure absolute walking distance (ACD), peak walking time (PWT), and Walking Impairment Questionnaire (WIQ) scores, including distance, speed, and symptom severity. At baseline, there were no significant differences between the groups in terms of ACD, peak walking time, ankle-brachial index, distance, speed, and symptoms. At follow-up, Group A showed significantly greater improvements in ACD (312.00 ± 45.43 m), peak walking time (8.54 ± 1.55 min), distance (29.46 ± 4.63 km), speed (20.01 ± 3.13 kph), and WIQ symptoms (22.10 ± 1.02) compared to Group B, which had ACD (276.55 ± 29.07 m), peak walking time (6.72 ± 1.70 min), distance (23.68 ± 3.89 km), speed (15.71 ± 2.71 kph), and WIQ symptoms (20.80 ± 1.47) (P < .001). The ankle-brachial index remained similar between the groups (P > .05). We concluded that integrating standard physical therapy exercises, such as calf raises and leg stretches, with medical therapy significantly enhances walking function in patients with ischemic intermittent claudication.

Angiotensin receptor-neprilysin inhibition and improved ventricular-arterial coupling in heart failure with reduced ejection fraction.

Sacubitril/valsartan improves outcome in chronic heart failure (HF) with reduced ejection fraction (EF). The underlying mechanisms on left ventricular (LV) myocardial function are incompletely understood. In this study, 117 patients with symptomatic HF and LV-EF ≤ 40% were enrolled prospectively. Non-invasive pressure-volume analysis was calculated from transthoracic echocardiography with simultaneous arm-cuff blood pressure measurements. Primary outcome parameters were LV end-systolic elastance (Ees; a measure of LV contractility), effective arterial elastance (Ea; a measure of afterload), and the ventricular-arterial coupling ratio (Ea/Ees). Mean age was 65±13 years, 30% were female, and 54.7% had ischemic heart disease. During six months of follow-up, eight patients died, three withdrew their consent, and four were lost to follow-up. 102 patients were included in pressure-volume analyses. After six months of sacubitril/valsartan treatment, Ees increased (0.66mmHg/ml [IQR 0.45-0.94] vs. 0.78mmHg/ml [IQR 0.57-1.10], p=0.001), Ea decreased (1.76mmHg/ml [IQR 1.48-2.13] vs. 1.62mmHg/ml [IQR 1.36-1.96], p=0.014), and the Ea/Ees ratio improved (2.52 [IQR 1.88-4.05] vs. 1.93 [IQR 1.50-2.63], p<0.001). LV end-diastolic pressure and LV volumes were reduced, and LVEF increased from 33% to 43% (both p<0.001). Clinical improvement occurred in NYHA functional class, NT-proBNP level, and 6-minute walking distance. Change in LVEF correlated with change in Ees (r=0.33, p=0.0008), while change in NT-proBNP was associated with change in LVEDP (r=0.42, p<0.0001). In conclusion, sacubitril/valsartan is associated with improved ventricular-arterial coupling by enhancing LV contractility and reducing afterload. Beyond LV reverse remodeling, optimized ventricular-arterial interaction may contribute to the favorable outcome of sacubitril/valsartan treatment in HF with reduced EF.

Intermittent hypoxia enhances voluntary activation and reduces performance fatigability during repeated lower limb contractions.

Prior research has highlighted the therapeutic benefits of acute intermittent hypoxia (AIH) in enhancing motor performance after motor incomplete spinal cord injury and in able-bodied individuals. While studies in rodents and humans indicate that AIH may facilitate motor excitability, the relationship between excitability changes and functional performance remains unclear. Additionally, discrepancies in the effects of AIH on excitability in able-bodied individuals merit further investigation. Understanding the concurrent impact of repetitive AIH on voluntary activation and spinal reflex excitability may clarify the functional implications of AIH for muscle force production. High voluntary activation is vital for sustaining torque production during activities that require repeated muscle contractions. We hypothesized that repetitive AIH would attenuate declines in both voluntary activation and maximum torque production typically observed during fatiguing contractions. To test this hypothesis, we examined the effects of four consecutive days of AIH on voluntary activation and torque generation during repeated maximal plantar flexion contractions. We assessed changes in voluntary activation using the central activation ratio (CAR) by calculating the ratio of voluntary torque to the torque produced with supramaximal electrical stimulation. Consistent with our hypothesis, we show that repetitive AIH significantly increases both CAR and peak torque during fatiguing contractions. We did not observe any changes in resting spinal reflex excitability or antagonist muscle coactivation during the fatiguing contractions post-AIH. Together, these findings suggest that repetitive AIH reduces performance fatigability through enhanced descending neural drive. Optimizing voluntary activation is critical for facilitating the recovery of functional walking skills after neurological injury.

Gait Analysis of Elderly and Young People Based on Joint Angles and Positions

For the elderly, the motor function of walking is significant for the maintenance and improvement of their quality of life (QOL). Walking patterns have been postulated to be associated with a decline in walking ability. The objective of this study was to develop a wearable sensor that can capture changes in walking ability in daily life. To this end, motion capture was employed to measure the lower limb joint angles and the trajectories of the lower limbs and knees for each subject while walking at a normal walking speed and to compare the results between elderly and young patients. The differences in walking patterns between the elderly and young patients were analyzed in terms of elevation angles, and an index was calculated to capture changes during walking based on elevation angles and trajectories.

Early robotic gait training after stroke (ERA Stroke): study protocol for a randomized clinical trial

BackgroundWalking impairment after stroke is associated with substantial limitations in functional independence, quality of life, and long-term survival. People in the subacute phase after stroke who are unable to walk are most likely to benefit the greatest from use of overground robotic gait training (RGT). This study will provide preliminary evidence regarding the clinical use and efficacy of RGT during the subacute phase of stroke recovery as well as observational findings associated with the safety, tolerability, feasibility, and cost of delivering RGT during inpatient stroke rehabilitation.MethodsThis prospectively registered randomized controlled trial will enroll 54 patients admitted to inpatient rehabilitation within six months of stroke. Admitted patients will be screened at admission to inpatient rehabilitation for eligibility. Consented patients will be randomized based on stroke severity to receive either RGT or usual care for 90 minutes per week of gait training intervention during inpatient rehabilitation length of stay. Patients will complete assessments on walking and health outcomes at admission and discharge from inpatient rehabilitation and at 1- and 3-month follow-up. Intent-to-treat and per protocol analysis will be performed to evaluate safety [rate of adverse events, visual analog scale, and treatment completion rate], walking function [gait speed via 10-Meter Walk Test, Functional Ambulation Category, gait endurance via 6-Minute Walk Test] and health outcomes [Modified Rankin Scale, Stroke Rehabilitation Assessment of Movement, Continuity Assessment Record and Evaluation Tool, 5 Times Sit-to-Stand Test, Berg Balance Scale, and Stroke Impact Scale–16], and cost-analysis.DiscussionThis study will provide foundational evidence regarding the clinical use and efficacy of a RGT program during the subacute phase of stroke recovery with specific findings associated with the safety, tolerability, feasibility, and cost-analysis of delivering RGT during inpatient stroke rehabilitation.Trial registrationNCT06430632.

Severe multiple injuries in a 15-year-old boy with pelvic fracture complete anterior dislocation of the sacroiliac joint and rupture of the internal and external iliac arteries: A case report of a rare injury.

Anterior dislocation of the sacroiliac joint combined with pelvic fractures is relatively rare in clinical practice. It is often associated with hemodynamic instability and severe injuries to other regions, resulting in a complex condition, prolonged treatment duration, and high rates of mortality and disability. However, there are few reports in the literature describing the diagnosis and treatment of anterior dislocation of the sacroiliac joint. In this case, the patient sustained a pelvic fracture with anterior sacroiliac joint dislocation and rupture of both the internal and external iliac arteries following a motor vehicle accident, making it an even rarer and more challenging case to treat. Reporting such cases can enhance the understanding of the diagnosis and treatment of anterior sacroiliac joint dislocation with rupture of the iliac arteries and provide valuable references for similar cases. The patient was riding an electric bicycle and was hit by a small truck, resulting in a pelvic fracture, anterior dislocation of the sacroiliac joint, and rupture of the internal and external iliac arteries. The patient was diagnosed with open pelvic fracture (type C1.2), left complete anterior dislocation of the sacroiliac joint, left acetabular fracture, left internal and external iliac arteriovenous rupture. emergency room resuscitation, intensive care unit resuscitation, 6 surgeries and perioperative management. He has been discharged from the hospital for more than 1 year and was rechecked every month after discharge, the fracture has healed, there is no obvious pain and discomfort in and around the wound, he has been fitted with a prosthesis, and he is doing the walking function exercise. Pelvic fracture with anterior sacroiliac dislocation is clinically rare and critical, and is associated with large vessel rupture, severe organ damage, and high mortality and disability rates. Rapid restoration of pelvic stability and hemodynamic stability is the key to treatment. Rapid transfer to a tertiary trauma center, rapid examination through the green channel to clarify the diagnosis, close intensive care, and reasonable multidisciplinary teamwork for surgical intervention are all valuable experiences that we have concluded.

Characteristics of gait function in hemiparetic patients with subacute period of ischemic stroke: a single-center retrospective study

BACKGROUND: Gait disorders are common among 80% of stroke patients. Its consequences include increased risk of falls and functional limitations, which can significantly reduce the quality of life. AIM: To investigate the functional profile of hemiparesis resulting from subacute ischemic stroke. MATERIALS AND METHODS: This observational, retrospective, one-stage, single-center study analyzed primary biomechanical gait parameters in 31 patients and 34 healthy controls. Spatial, temporal, kinematic, and electromyographic characteristics were recorded. A statistical assessment and inter-group and intra-group comparison of the collected data were performed to identify the pathognomonic features of hemiplegic gait in patients with subacute stroke. RESULTS: Changes in gait biomechanics typical for hemiparetic patients who have suffered from ischemic stroke were described: slight asymmetry of step cycle, normal duration of support period on the paretic side, significant increase in duration of support period on the healthy side, and shortening of single support period on the paretic side. Additionally, the asymmetry of the walking function was characterized by changes in reciprocity, that is, a harmonious sequence of step cycles. The function of the hip and knee joints was reduced and altered, and the amplitude of the ankle joint was increased. Decrease and change in the bioelectric activity profile of muscles were detected. Moreover, the quadriceps femoris function was least affected. CONCLUSION: The main changes in walking function are characterized by an asymmetry of spatiotemporal parameters, a decrease in movement amplitudes of the hip and knee joints on the paretic side, an increase in ankle joint amplitude, a decrease in the bioelectric activity of muscles, and a shift in the phases of their activity. The results contribute to a better understanding of the mechanisms behind hemiplegic gait and provide a valuable tool for developing more personalized and targeted rehabilitation plans for patients suffering from hemiparesis as a result of subacute ischemic stroke.

Absolute Zeta functions and periodicity of quantum walks on cycles

The quantum walk is a quantum counterpart of the classical random walk. On the other hand, absolute zeta functions can be considered as zeta functions over $\mathbf{F}_1$. This study presents a connection between quantum walks and absolute zeta functions. In this paper, we focus on Hadamard walks and $3$-state Grover walks on cycle graphs. The Hadamard walks and the Grover walks are typical models of the quantum walks. We consider the periods and zeta functions of such quantum walks. Moreover, we derive the explicit forms of the absolute zeta functions of corresponding zeta functions. Also, it is shown that our zeta functions of quantum walks are absolute automorphic forms.

An unsupervised online Tai Chi program for people with knee osteoarthritis (“My Joint Tai Chi”): study protocol for the RETREAT randomised controlled trial

BackgroundKnee osteoarthritis (OA) is a leading contributor to global disability, with exercise proven to be an effective treatment. Tai Chi is a recommended type of exercise, but it is primarily done in person which imposes an accessibility issue. This study aims to evaluate the effects of an online unsupervised program, when provided with online educational information and exercise adherence support, on changes in knee pain and physical function, when compared to online education control for people with knee OA. MethodsA two-arm, superiority parallel-design, pragmatic randomised controlled trial will be conducted involving 178 people with a clinical diagnosis of knee OA. After completing baseline assessment, participants will be randomly assigned to either: i) “My Joint Education”, an education control website containing OA information only; or ii) “My Joint Tai Chi”, an intervention website containing the same information as the control, a 12-week unsupervised online Tai Chi program to be undertaken at home 3 times a week, and information about an exercise adherence support app. All participants will be reassessed at 12 weeks after randomisation. Primary outcomes are overall knee pain during walking and physical function using the Western Ontario and McMaster Universities Osteoarthritis Index subscale. DiscussionThis randomised controlled trial will provide evidence about the effectiveness of the “My Joint Tai Chi” website compared to “My Joint Education” website on self-reported knee pain and physical function for people with knee OA. Trial RegistrationProspectively registered with the Australia New Zealand Clinical Trials Registry (ID: ACTRN12623000780651) on 18th July 2023.

The Effect of Eight Weeks of Selected Vestibular Exercises on Functional Balance, Walking Speed and Quality of Life of Sedentary Elderly Men

Introduction: Aging and sedentary lifestyle are associated with a decrease in physical and mental abilities. The purpose of this study is to investigate the effect of eight weeks of selected vestibular exercises on functional balance, walking speed, and quality of life of sedentary elderly men. Methods: This semi-experimental research was conducted from the winter of 1402 to the summer of 1403 with the participation of 30 sedentary elderly men from Tawheed Golmkan Elderly Care Center in Mashhad. The samples were selected purposefully and based on previous studies (25) and were divided into two experimental and control groups of 15 people. The experimental group performed selected vestibular exercises three sessions a week for eight weeks, while the control group did not perform any exercises. Dynamic comparison test, 10-meter walking speed and short-term life questionnaire were used to evaluate the quality of life. Data analysis was performed using Shapiro-Wilk test, analysis of covariance, and t-test at a significance level of P&lt;0/05. Results: The results of paired t test showed that dynamic balance (P=0/001), walking speed (P=0/001), and quality of life (P=0/001) of the experimental group improved significantly after the exercise program. This was while there was no improvement in the control group. The covariance results did not show a significant difference between the groups in the pre-test phase, but there was a significant increase in the scores of the experimental group in the post-test phase. Conclusion: It is recommended to use exercises to prevent the disabilities of the elderly and improve their quality of independent life.

Lung Tensioning Device Coil Treatment in Patients with Severe Emphysema: A Prospective Safety and Feasibility Trial (EFFORT)

Introduction: Currently, there is a lack of bronchoscopic lung volume reduction options that do not depend on fissure integrity. Endobronchial coils have been extensively studied to address this need but exhibited variable patient response and have been discontinued. Lung tension device (LTD) coils represent the next-generation coil treatment. This study aimed to evaluate safety, feasibility, and efficacy of LTD-coil treatment. Methods: Patients with advanced emphysema and hyperinflation were enrolled at two European sites. LTD-coils (Free Flow Medical, Fremont, CA, USA) were implanted in the two most destructed lobes, as determined by quantitative CT analysis, in two separate procedures. The primary endpoint was 3-month follow-up after the last treatment. Results: Fourteen patients (50% male, median age 64 years, FEV1 23%predicted, RV 249%predicted) received LTD-coil treatment: 12 received bilateral and 2 unilateral treatment. Six serious respiratory adverse events occurred within the initial 3 months posttreatment, including one device-associated death. Treatment significantly reduced in- and expiratory volume of the treated lobes (−410 [−710, −340], p = 0.004 and −650 [−730, −190] mL, p < 0.001, respectively) and improved quality of life (SGRQ total score −4.6 [−21.0, −2.6], p < 0.001). However, at a group level, no significant improvements in pulmonary function or 6-min walk distance were observed. Responder rates ranged from 18% to 54% for the different endpoints. Conclusion: This first-in-human study shows that the new LTD-coil procedure is feasible with a safety profile comparable to the previous coil treatment. While the treatment effectively reduced lobar volume and modestly improved quality of life up to 3 months’ follow-up, at a group level it did not significantly enhance pulmonary function or exercise capacity.

Research progress on treatment of unstable intertrochanteric fractures in elderly patients with bone cement type femoral head replacement

To summarize the latest research progress of bone cement type femoral head replacement in the treatment of unstable intertrochanteric fractures in elderly patients. The literature on the application of bone cement type femoral head replacement for unstable intertrochanteric fractures in elderly patients both domestically and internationally was reviewed, and the findings in aspects of selection of prosthesis types, proximal femoral reconstruction methods, postoperative complications, and rehabilitation were summarized and analyzed. The bone cement type femoral head replacement has shown significant effectiveness in the treatment of unstable intertrochanteric fractures in elderly patients. The surgery provides immediate stability, allowing patients to quickly bear weight and regain walking function, thereby reducing the incidences of postoperative complications and mortality. However, due to the generally poor physical condition and low surgical tolerance of elderly patients, the risk of postoperative complications significantly increases, which has a significant impact on patients' postoperative recovery. Common complications include deep vein thrombosis, bone cement implantation syndrome, joint dislocation, prosthesis loosening, and periprosthetic fractures. Therefore, despite the apparent short-term effectiveness of the surgery, it is crucial to emphasize the prevention and management of postoperative complications to improve the long-term prognosis of elderly patients. For unstable intertrochanteric fractures in elderly patients, when choosing bone cement type femoral head replacement, it is necessary to strictly adhere to surgical indications, reduce the occurrence of complications, and improve the patients' quality of life through refined preoperative evaluation, intraoperative operation, and effective postoperative management.

Transcutaneous Spinal Cord Stimulation Enables Recovery of Walking in Children with Acute Flaccid Myelitis.

Limited research exists for use of transcutaneous spinal stimulation (TSS) in pediatric spinal cord injuries (SCI) to improve walking outcomes, especially in children diagnosed with SCI secondary to acute flaccid myelitis (AFM). This case series demonstrates the feasibility and efficacy of TSS paired with gait training in children diagnosed with AFM. A total of 4 participants diagnosed with incomplete SCI secondary to AFM completed 22, 2-h therapy sessions over 5-8 weeks. TSS paired with body weight-supported treadmill training (BWSTT) was provided for the first 30 min of each session. Changes in walking function were assessed through the 6 min walk test (6MWT), Timed Up and Go (TUG), 10 m walk test (10MWT), and walking index for spinal cord injury II (WISCI-II). To assess safety and feasibility, pain, adverse events, and participant and therapist exertion were monitored. All participants tolerated the TSS intervention without pain or an adverse response. Changes in the 6MWT exceeded the minimal clinically important difference (MCID) for three participants and WISCI-II exceeding the minimal detectable change (MDC) for two of the participants. These results demonstrate that TSS is a safe and clinically feasible intervention for pediatric patients with AFM and may supplement gait-based interventions to facilitate improvements in walking function.