Effects of Parkinson’s Disease and a Secondary Cognitive Task on Reactive Balance

Description

Patients with Parkinson's disease have been seen to be prone to falling. Balance problems and postural instability have been seen to affect their quality of life. This project aims to understand the relationship between the presence of cognitive loads and

Patients with Parkinson's disease have been seen to be prone to falling. Balance problems and postural instability have been seen to affect their quality of life. This project aims to understand the relationship between the presence of cognitive loads and reactive stepping performance in Parkinson’s patients. Additionally, it also tests the feasibility of the experimental framework to evaluate reactive stepping performance. This experiment tested Parkinson’s patients performing tasks of varying difficulty levels while having to regain their balance. Acceleration perturbations on a treadmill were used to elicit an intrinsic response in the subjects. This compared gait parameters of the subjects that performed single and dual tasks. The results showed that the presence of a cognitive task had a negative effect on the reactive stepping performance, specifically on the margin of stability and step length. Additionally, there was no effect of changing the difficulty level of the task on reactive stepping performance.

Date Created
2024-05
Agent

The Effect of Perturbation-Based Training on the Balance of Individuals with Multiple Sclerosis

Description
Multiple Sclerosis (MS) is a debilitating neurological disease that affects millions of individuals across the world. There is no current cure for the disease, so much of the patient treatment is focused on management of the disease. One of the

Multiple Sclerosis (MS) is a debilitating neurological disease that affects millions of individuals across the world. There is no current cure for the disease, so much of the patient treatment is focused on management of the disease. One of the potential effects of having MS is having a decrease in balance which leads to a greater risk in sustaining a fall. It has been found in previous studies that MS patients have slower reaction times compared to healthy controls. Furthermore, electromyography (EMG) is an effective way to measure a subject's reaction to a perturbation. This study aims to see if MS subjects can improve their reaction times through a series of perturbation-based training visits. 18 MS patients and 11 healthy controls were recruited for this study. Each subject went through two baseline visits, six training visits, and two post-assessment visits. During each visit, subjects went through a series of forward and backward perturbations from a stand to react position administered by a dual-belt perturbation treadmill. The subjects' reaction times were measured by taking the difference between the onset of the treadmill movement and the onset of the muscle activation. This muscle activation was measured by placing EMG sensors on the tibialis anterior muscle and medial gastrocnemius muscle on each leg. After running a repeated measures ANOVA test, it was found that there were no significant differences in the reaction times between MS participants and healthy controls. However, the overall trend in the data was promising, as MS patients did improve their performance in backward-stepping slightly. Adding more participants to the study could strengthen this trend. It was also found that males across both groups significantly improved their reaction times compared to females. However, it is unknown why this occurred. Future goals would be to add more participants to the study and follow-up with MS patients to see if they have a decrease in falls post-training.
Date Created
2024-05
Agent

The Effects of Reactive Step Training on Muscle Onset Latency in People with Multiple Sclerosis vs Parkinson's Disease

Description
This thesis aims to determine whether people with Parkinson's disease differ from people with multiple sclerosis in their responsivity to reactive balance training, which is vital for reducing the risk of falls, as measured by the amount of time it

This thesis aims to determine whether people with Parkinson's disease differ from people with multiple sclerosis in their responsivity to reactive balance training, which is vital for reducing the risk of falls, as measured by the amount of time it takes for postural muscle activation after the addition of a perturbation stimulus.
Date Created
2024-05
Agent

The Effects of Reactive Step Training on Muscle Onset Latency in People with Multiple
Sclerosis vs Parkinson's Disease

Description
Falling incidents in neurological populations, Multiple Sclerosis and Parkinson’s disease, remain prevalent. In this study, we investigate the effects of reactive step training on muscle latency in those with Multiple Sclerosis and Parkinson’s Disease.
Date Created
2024-05
Agent