View clinical trials related to Walking, Difficulty.
Filter by:This pilot study will determine the feasibility of implementing a combinatory rehabilitation strategy involving testosterone replacement therapy (TRT) with locomotor training (LT; walking on a treadmill with assistance and overground walking) in men with testosterone deficiency and walking dysfunction after incomplete or complete spinal cord injury. The investigators hypothesize that LT+TRT treatment will improve muscle size and bone mineral density in men with low T and ambulatory dysfunction after incomplete or complete SCI, along with muscle fundtion and walking recovery in men with T low and ambulatory dysfunction ater incomplete SCI.
Type 2 Diabetes Meletus(T2DM) is a global health concern. The incidence of T2DM globally is increasing exponentially partly due to unhealthy food habits and sedentary life style.exercise and nutritional intervention is long being reported to improve glycemic control and improve quality of life among individuals with T2DM. Moderate intensity of walking for 30 minutes is proven to regulate good metabolic control. however, in over weight elderly individuals, joint pain or arthritis walking be a challenging task. therefore, walking on sand which is reported to be easy on joints would be a alternative for those patients.
The 3 m walk-back test is used to assess neuromuscular control, proprioception, protective reflexes, fall risk, and balance. In a study of healthy elderly adults, a 3-m walk-back test showed better diagnostic accuracy compared to the most commonly used measurement methods for falls in the past year. Reliability is extremely important, especially for research and clinical applications. In order to assess the risk of falling, measurement methods need to be reliable and change accurately over time. 3 m walk back test was found to be reliable in healthy elderly individuals. However, there are no studies investigating the validity and reliability of this test in stroke patients.
The objective is to ensure the pro-active collection of information on quality, safety and performance of FlowOx™ after it is placed on the market. The study will be carried out in a patient population with peripheral artery disease (claudicatio intermittens) to confirm its usefulness and in particular gather information for further improvements of the device related to this patient population. The data collected from the use of the CE-marked FlowOX™ device are change of walking distance, quality of life, and the patient's compliance.
This study aims to improve understanding of the relationship between spinal alignment and walking and balance in people who have degenerative spinal conditions.
Multiple Sclerosis (MS) is an autoimmune, demyelinating disease of the central nervous system that causes different levels of disability with motor and sensory loss. Although the signs and symptoms of the disease vary according to the location of the lesion; loss of strength, spasticity, sensory disturbances, fatigue, ataxia, autonomic dysfunction and decreased visual acuity are frequently seen. One of the most important causes of loss of function is balance problems. Balance problems, on the other hand, result in falls that cause severe injuries. One of the most important goals in the rehabilitation of individuals with MS is to increase their performance by minimizing the risk of falling in their daily lives. For medical professionals, many medical history questionnaires, self-assessment measures and performance-based tests have been developed to determine the risk of falls. Performance-based functional assessments consist of a timed walk and walk test, functional skill, balance and fall risk, 5 times sit-and-go test and Berg Balance Test, 4 square step test and gait speed measurement tests. These tests include the ability to walk forward and revolve around ones priorities. However, walking is a more difficult activity as it involves neuromuscular control and is dependent on proprioception and protective reflexes. In daily life activities, there is a need to walk backwards to perform tasks such as leaning against a chair and opening the door. This movement can be quite challenging especially for elderly people with neurological deficits. It has been noted that the mechanical measurements of the back support, in particular the speed, the step length, and the double support surface are significantly reduced in older adults. In a study conducted in geriatric individuals, it was shown that walking backward was more sensitive to detect age-related changes in mobility and balance than walking forward. The aim of this study is to determine the validity and reliability of the 3-meter backwards walk test for evaluating performance-based fall risk in individuals with MS.