4 Clinical Trials for Various Conditions
This study determines the effects of posture on time up and go test. Half of the subjects will assume a high-power posture, while the other half will assume a low-power posture.
Purpose: To compare post-operative functional outcomes in patients undergoing preoperative functional prehabilitation versus standard of care preoperative management in older adults undergoing major elective operations. Hypothesis: Older adults undergoing preoperative functional prehabilitation (nine sessions of home physical therapy over three weeks) will have improved physical function and reduced delirium in comparison to usual preoperative care following major abdominal and thoracic operations. Specific Aims: (#1) To compare the difference in the timed up-and-go, Mini Mental Status Exam (MMSE), the de Morton Mobility Index, Modified Physical Performance Test (MPPT), and short physical performance battery scores in the control and intervention groups at the preoperative and initial assessment timepoints. (#2) To compare the difference in the timed up-and-go, Mini Mental Status Exam (MMSE), the de Morton Mobility Index, Modified Physical Performance Test (MPPT), and short physical performance battery scores in the control and intervention groups at the 60-days postoperative and the initial assessment timepoints. (#3)To compare the rates of ICU delirium and need for post-discharge institutionalization in patients in the control and interventions groups. (#4) To compare post-operative complications
Several barriers to exercise are present that need to be addressed. Morbidly obese individuals experience more skin friction, urinary stress incontinence, knee pain, low back pain, and hip arthritis than the lean population, which may significantly impair their ability to adhere to an exercise regimen (6). Obesity and overweight also contribute to greater perceived effort, oxygen uptake, and less pleasure during treadmill exercise sessions (7). Recent theories suggest that a negative experience associated with exercise can significantly reduce the likelihood of engaging in future exercise sessions (8). Therefore, tools to reduce these barriers may improve outcomes for exercise-based interventions for morbid obesity. The Alter-G, an antigravity treadmill that alleviates body weight while subjects exercise, has potential to reduce pain and exertion during exercise. Overall, these treadmills have been found to be effective for weight loss in obese populations (10). However, although evidence suggests that the Alter-G would reduce pain and exertion, the effect of the Alter-G treadmill on exercise adherence in morbidly obese populations has not been studied. The hypothesis is that the adherence to and progression of the exercise routine of participants walking at a reduced percentage of their body weight will increase relative to those who must exercise at 100% of their body weight. A secondary hypothesis is that participants who use the Alter-G with the anti-gravity function will experience less pain and perceived exertion during exercise compared to those who exercise at 100% of their body weight. Finally, the investigators hypothesize that increased exercise adherence in those using the anti-gravity function of the Alter-G will lead to increased fitness and improved muscle function.
The purpose of this study is to determine whether specific nutrient supplementation can improve dynamic stability in older adults.