View clinical trials related to Gait Disorders, Neurologic.
Filter by:Parkinson's disease (PD) is a progressive disease, characterized by dopaminergic neurons degeneration in the substantia nigra. Postural and gait disorders usually occur in advanced PD patients. However, existing drugs and deep brain stimulation (DBS) therapy are not effective enough for these axial symptoms or cannot maintain long-term efficacy, which seriously reduce patients' quality of life. Sacral nerve stimulation(SNS) is a treatment for urinary symptoms in PD. It has been reported that SNS can also improve PD gait disturbance, but the level of evidence currently is low. We assume that SNS may have a similar mechanism to spinal cord stimulation and may be an effective treatment for PD gait disorder. However, there are few studies on the mechanism of SNS treatment. Therefore, we will conduct a large sample, prospective case-control study to provide a higher level of clinical evidence for sacral nerve stimulation in the treatment of gait disturbance in PD. Our primary objective is to evaluate the efficacy of SNS for gait disorder in PD. PD patients who have received DBS surgery but still have severe gait problems will be included. This study will contribute to evaluate the efficacy of SNS for gait disorder in PD, provide level II evidence for expanding the indications of SNS, varicocelectomy., and improve patients' quality of life.
The aim of this study is to improve knowledge about mechanical gait assistance combined with virtual reality efficiency in gait recovery for Parkinson´s patients. It is hypothesised that 12 sessions of 30 minutes each, over a 4 weeks period, of antigravity treadmill rehabilitation combined with virtual reality treatment is effective for increase gait autonomy in patients with Parkinson's disease.
Individuals with multiple sclerosis (MS) experience in impairments in mobility and cognition that increase the risk for accidental falls. More than 50% of individuals with MS experience injurious falls within a 6-month period. Current interventions to improve fall risk have focused on forward walking (FW) and balance training, resulting in small declines in the relative risk for falls with a large degree of variability. Interestingly, motor differences between MS and healthy controls are more pronounced in backward walking (BW), yet no studies have investigated BW training as an intervention to reduce fall risk in persons with MS. This study will investigate the feasibility, acceptability and impact of BW training compared to forward walking training on motor function and fall risk in persons with MS.
Clinical trial on the physical and psychological effects of Horse Assisted Rehabilitation after the treatment of cancer in children 4 to 18 years of age.
The aim of this study is to compare the effects of high intensity interval exercise and moderate intensity continuous exercise on basic gait parameters in patients with type 2 diabetes mellitus.
People with multiple sclerosis (MS) are often offered walking aids and compensatory strategies rather than restorative rehabilitation. We have developed a cool room treadmill training method that uses body-weight support that people with MS fatigue and heat sensitivity can tolerate. Our previous research shows that people with advanced MS use three times more energy for essential tasks such as walking. This project will test whether 10 weeks of body-weight supported treadmill training in a room cooled to 16°C improves walking, fitness and fatigue in people with advanced MS.
In the literature, most of the studies examining the gait characteristics and balance separately or examining the relationship between them are on patients with COPD. No study examining gait parameters in other obstructive pulmonary patients such as bronchiectasis and asthma was found.A convincing link between gait disturbances and falls in COPD patients is still unknown and further research is needed. Therefore, the purpose of our study; gait parameters and balance in individuals with obstructive pulmonary disease. We will also examine the relationship between gait parameters and extrapulmonary clinical indicators of these individuals.
A combination of diabetes and neuropathy can cause an altered gait, increased tissue stiffness, limited joint mobility, muscle weakness, foot deformities, thus leading to excessive plantar pressure. The presence of an increased plantar pressure and the loss of sensation is a serious risk factor in the risk of development of diabetic foot ulcers (DFU). Therefore, appropriate shoes and insoles are recommended to redistribute high peak pressure (PP) and reduce pressure time integral (PTI) . Shoe modifications and insoles, when used, is effective to prevent the recurrence of plantar ulcer. The primary aim of the study was to: explore gait characteristics, kinetics and kinematics in a cohort of patients diagnosed with diabetes, with and without neuropathy, assigned to use different types of insoles. The second aim was to assess the relation between gait characteristics, kinetics and kinematics to high plantar PP and PTI. The third aim was to compare gait characteristics, kinetics and kinematics of patients with diabetes and healthy controls.
The aim of the study is to create a specific test to assess the global time required to go to the toilet and to perform micturition, at the moment the patient decides to urinate in multiple sclerosis population, and to assess its reliability.
Parkinson's Disease (PD) patients suffer from gait impairments responsible for falls and bad quality of life: reduced speed and stride length, randomness in stride duration variability (reduced Long-Range Autocorrelations (LRA)). This pilot study will compare the spatio-temporal walking parameters and LRA of PD patients tested under three conditions: walking over ground, walking on a treadmill and walking on a treadmill in virtual reality. The aim is to determine the effect on gait of an optical flow recreated in virtual reality, by means of a virtual reality headset, on a treadmill.