View clinical trials related to Sedentary Lifestyle.
Filter by:This is a RWJF funded study that will apply behavioral choice theory and learning theory principles to 'map' exergames to determine how behavior change principles influence sustained use of health games by adolescents.
Despite the recognized health benefits of a physically active lifestyle, mid-life and older low-income and ethnic minority adults, including Hispanic Americans, are among the least active and understudied groups in the U.S. This research aims to develop and evaluate a bi-lingual physical activity promotion program, applying easy to use state-of-the-art computer technology, which is tailored to the preferences and needs of mid-life and older Latino adults. Such computer-based programs represent a potentially low-cost means for reaching the large proportion of low-income and ethnic minority Americans who are under-active.
The purpose of the study is to learn more about effective ways to motivate people to increase their non-exercise energy expenditure exercise. This is an important research question because obesity and weight-related issues are increasingly becoming a problem in America. This project will address this research question by testing the effect of group dynamics in motivating employees who are predominantly sedentary to use Walkstations at work. The Walkstations are treadmills that move at a very slow rate (maximum 2miles / hour) and are attached to a work station (i.e. with computer and telephone); they therefore are designed to increase energy spent not through heavy exercise, but through small changes in posture and movement associated with routines in daily life (called nonexercise activity thermogenesis or NEAT). The proposed study is designed to build upon previous research (Levine et al., 2005) suggesting the role of NEAT-enhanced behaviors in weight loss. In this study, the investigators are interested in the impact of group dynamics on the propensity to use the Walkstations. Participants in the active arms will be asked to use the Walkstations for at least 3 hours per week. They will do so by signing up for a time slot. During their session, they will be asked to log into the scheduling system to indicate that they are using the Walkstation. Walkstation usage will be assessed by log-in data: employees will log-in to the phone and computer when they use the Walkstation. This log-in data is work-station specific; therefore the investigators will be able to tell when a given subject used the Walkstation. Subjects will be randomly assigned to one of three conditions: 1. Individual. In the individual condition, participants will not be part of a team. They will receive weekly email feedback on their Walkstation performance (e.g. number of time slots they signed up for, and number of times they showed up for the time slot.) Participants will also receive a wellness tip in each email. (see appendix for a sample email) 2. Pairs. In the pair condition, participants will be randomly assigned to a partner. They will receive the same feedback as those in the individual condition, for both themselves AND their partner. 3. Group. In the group condition, participants will be randomly assigned to a group of 5 people. They will receive the same feedback as those in the individual condition, for both themselves AND each member of their group.
The purpose of this study is to study whether a targeted intervention can increase physical activity in inactive 8-yr old children and how it affects secondary measures such as metabolic- and cardiovascular risk factors and markers, self-reported quality of life, BMI, body composition and aerobic work-capacity.
Based upon promising results from a pilot study among 424 sedentary older adults who were randomized to a physical activity intervention or a successful aging health education intervention, a Phase 3 multi-center randomized controlled trial is being conducted to compare a moderate-intensity physical activity program to a successful aging health education program in 1,600 sedentary older adults who are followed for an average of 2.7 years. The primary aim was to assess the long-term effects of the proposed interventions on the primary outcome of major mobility disability, defined as inability to walk 400 m.
Participants will be employees of Genzyme who volunteer to participate in a study on motivating healthy behaviors, involving giving them goals for taking a certain number of steps per day, and increasing that number over time. Participants will wear pedometers and upload their data to a website that allows them to monitor their progress, and have the opportunity to win money based on meeting their step goals. Interested employees will schedule a day and time to complete a health screening at a "Health Fair" at their place of employment, to ensure that they are healthy enough to participate; at this time participants will also complete the investigators baseline dependent measures, and receive a pedometer. After a one-week baseline period during which they wear the pedometer and the investigators establish their typical number of steps per day, eligible participants will then be assigned to one of four treatments - a "no incentive" control condition, and three conditions in which they are entered into different kinds of monetary lotteries if they have met their step goals for that day. Participants' initial goal will be based on their steps during the baseline period, and the goal will increase by 250 steps each week, for a total of 12 weeks. After these 3 months, the incentives portion of the experiment ends, but participants continue to wear their pedometers and upload their data for an additional 6 months. At 3 months, 6 months, and then at the study end at 9 months, participants again complete the investigators dependent measures at follow-up Health Fairs at their place of employment.
The purpose of this study is to examine the effects of treadmill training on inflammation in the skeletal muscle and adipose tissue, insulin action in the skeletal muscle, and whole body glucose metabolism in stroke survivors. The fundamental hypothesis of this study is that key inflammatory markers in adipose tissue and skeletal muscle are abnormal, skeletal muscle insulin signaling is impaired, and systemic insulin sensitivity is reduced in hemiparetic stroke patients and that these factors are modifiable and improved by exercise training in stroke patients.
The purpose of this study is to test the hypotheses that there are ethnic and genetic differences in the mechanisms and magnitude by which hypocaloric weight loss and aerobic exercise affect body composition, glucose, lipid, muscle and adipose tissue metabolism in overweight, insulin resistant postmenopausal women. This will be tested in a trial comparing the effects of weight loss vs. aerobic exercise plus weight loss on glucose, lipid, fat and muscle metabolism in overweight African American and Caucasian postmenopausal women.
The purpose of the study is to compare two different methods of listening to music while performing aerobic exercise: synchronous music listening vs. asynchronous music listening. Synchronous music listening while exercising is a learned activity where the participant moves his or her body in synchrony with the beat of the music, similar to dancing or to participating in a group exercise (aerobics) class. Our hypothesis is that synchronous music listening reduces the level of perceived exertion to the exercise and motivates the subject to exercise more often. This study randomly assigns 46 subjects, age 20-55 years old to either a control group of listening to their own favorite music in an asynchronous fashion or to an intervention group of listening to prepared music in a synchronous fashion over a six week period.
The investigators hypothesize that having health care providers other than physicians within a "Groupe de Médecine de Famille" conduct cardiovascular risk assessments and teach lifestyle interventions to primary prevention patients will increase the likelihood that patients will adopt and maintain healthy lifestyles. These objectives will be supported by providing subjects with a cardiovascular risk profile estimating the subject's risk of cardiovascular disease and teaching them how to use the resources related to lifestyle changes available on the www.myhealthcheckup.com Web site.