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The goal of this randomized controlled trial is to evaluate whether remote pedometer follow-up and virtual coaching can improve ambulation after major abdominopelvic surgery, and how this affects key postoperative outcomes. The main questions it aims to answer are: * Does pedometer-guided ambulation coaching increases ambulation after surgery? * Does pedometer-guided coaching improve satisfaction, quality of recovery, while reducing postoperative complications? Participants will be asked to install a pedometer app for the purpose of data sharing. Study personnel will compare pedometer follow-up plus text message coaching (intervention) with pedometer follow-up only (control) to investigate whether coaching improves adherence to the postoperative ambulation recommendation, and whether this leads to improvement of the secondary outcomes.
The purpose of this research study is to evaluate and compare different robotic exoskeletons (RE) and identify which is most appropriate for gait training for each patient based off their specific needs. This will help guide clinicians in prescribing the appropriate RE for rehabilitation.
This is a randomized controlled trial to assess the effect of routine exercise counseling compared to the recommendation for postprandial ambulation on infant birthweight among pregnant people with gestational diabetes mellitus. The primary outcome is birthweight percentile for gestational age at delivery. Secondary outcomes include feasibility and acceptability, need for metformin or insulin for glycemic control, mode of delivery, neonatal hypoglycemia. Participants will be counseled to either complete 20 minutes of walking after meals, or be counseled with routine exercise counseling of 30 minutes of low-impact 5x a week. Their activity will be tracked by "FitBit" pedometers and uploaded via bluetooth to a database for review. They will continue to receive routine obstetric and diabetes care.
The investigator proposes to conduct a randomized trial of supervised ambulation delivered by mobility technician (MT) up to three times daily, including weekends, to hospitalized medical patients. The aims of the study are to compare the short and intermediate-term outcomes of patients randomized to the intervention versus those patients randomized to receive usual care, to identify patients who are most likely to benefit from the intervention and to assess whether the intervention increases or decreases overall costs of an episode of care, including the cost of the MTs, the index hospitalization and the first 30 days post enrollment.
The purpose of this research study is to test the effectiveness of virtual reality (VR) based treadmill training on walking ability. The study will also help to understand the changes in cognitive ability and brain activity as a result of VR-based treadmill training after a brain injury. The study will include 3 groups: C-MILL training group (CTG), Treadmill training group (TTG), and healthy control group (HCG). Individuals with brain injury will be randomly assigned to C-MILL training group, or Treadmill training group. The CTG and TTG will participate in up to 13 sessions. The participants will be screened for the inclusion/exclusion criteria and consented during the first session. They will participate in two data collection sessions, one before the training and one after the training. The participants will undergo 10 training sessions. Individuals in the CTG will receive gait and balance training sessions with the virtual reality and auditory cues using C-MILL (such as walking on a pathway, obstacle avoidance, lateral balance etc.) to provide task specific training. C-Mill (Motekforce Link, Amsterdam, The Netherlands) is an instrumented treadmill that uses visual (on the screen as well on the treadmill) and acoustic cues for gait and balance training. The C-Mill allows for gait and balance adaptability strategy as it can provide obstacle avoidance environments, change in speed and various walking pathways in a safe and controlled environment. Individuals in TTG group will walk on the treadmill (C-MILL) or stand on the treadmill (C-MILL) with no visual or auditory cues. HCG will participate in up to four sessions. The participants will be screened for the inclusion/exclusion criteria and consented during the first session. They will participate in two data collection sessions and one C-MILLsession. Each training session will last for 45 minutes. During the 45 minutes, the participants will perform the task for approximately 1 minute. Participants will be allowed as much rest as needed by them. During the training all participants will wear the safety harness to protect from falling. In addition spotter will be present with the participants to prevent falls. Data Collection: Each participant's baseline and follow up data will be collected for a) functional b) neuromechanical c) cortical and d) cognitive outcomes. During walking on treadmill data will also be collected with instrumented C- MILL. C-MILL can provide gait parameters such as step length, width, frequency, speed and symmetry in addition to center of pressure for evaluation of gait and balance. During Training Sessions: The instrumented treadmill will collect force data during training.
This study is examining collecting data on steps walked (ambulation) per day by thoracic surgery patients over the age of 65 years-old before surgery. The name(s) of the study device involved in this study is: * Fitbit inspire
The objective of this research is to determine the clinical benefits of an innovative and lightweight powered leg controlled using our intent recognition framework in laboratory and community environments.
For patients with lower extremity deficits, the investigator(s) would like to assess implementing use of Gigstride ambulatory device to assess the following: * Patient satisfaction with use of ambulatory device * Effects of Gigstride device utilization on kinetics, biomechanics * Effects of Gigstride device utilization on walking speed, stair speed, stability
The overall aim of this project is to assess the effect of combining transcutaneous lumbosacral stimulation (TLS) during Exoskeleton Assisted Walking (EAW) compared to EAW alone without stimulation on walking recovery.
Problems with walking and balance are common after traumatic brain injury (TBI). Walking and balance problems limit independence and increase risk for injuries due to falls. The purpose of this research study is to test the effectiveness of training that combines moving and thinking tasks, referred to as Personalized cognitive integrated sensorimotor virtual reality (VR)/augmented reality (AR) training on walking and balance ability. The study will also help to understand the changes in thinking ability and brain activity as a result of this training after a brain injury. The study will evaluate the differences between three intervention groups (n=45 each): 1) personalized cognitive integrated sensorimotor VR/AR training (CMT), 2) traditional dual-task training (CTRL), and 3) standard of care (SOC) on gait, balance, community ambulation, and cognitive functions, as well as underlying biomechanical and neurophysiological mechanisms to understand the changes due to CMT.