22 Clinical Trials for Various Conditions
Ankle range of motion is an important degree of freedom for performing activities of daily living. Limited range of ankle motion has been related to Achilles tendonitis, lower limb injury, and abnormal gait leading to overuse injury. While stretching and massage can help increase range of motion the amount and frequency of manual manipulation needed to affect range of motion is not accessible to an individual in their home. A new device has been developed to allow deep stretching of the ankle and surrounding muscles to help increase ankle dorsiflexion. This device can be used in an individual's home, without assistance, allowing more frequent stretching without increased visits to physical therapy. The goal of this study is to determine the effect of using this device during a course of treatment to improve ankle dorsiflexion in individuals with decreased ankle range of motion.
BabyG is a soft harness attached to a robotic system mounted overhead. While wearing the harness, the infant is free to move around a 10-by-10-foot play area with a padded floor. The harness helps support the infant s weight; it also slows any falls and catches the body before it hits the floor. BabyG can be adjusted to support 5% to 50% of the infant s weight. Participants will be in the study for 24 weeks, including 12 weeks with BabyG training and 12 weeks without. Training will be 90 minutes per week: either two 45-minute sessions or three 30-minute sessions. All participants will undergo tests during the 24 weeks such as: A test to measure an infant s ability to perform tasks such as rolling, sitting, crawling, and walking. A test to assess nerve function, movements, reflexes, posture, and muscle tone. A test of brain activity while moving. The infant will be fitted with a snug cap with 64 electrodes. Then the infant will be placed in the BabyG harness and encouraged to take steps on a motorized treadmill. Their movements will be filmed.
The purpose of this study is to: Aim 1: Evaluate the feasibility \[consent and refusal rates, attrition rates, length, and number of completed therapy sessions\], and acceptability \[interviews with children and guardians, overall patient and guardian satisfaction\] during inpatient physical therapy (PT) and occupational therapy (OT) sessions. Hypothesis: Animal-assisted interaction (AAI) with Paro, a robotic baby harp seal, during pediatric inpatient PT/OT sessions will be feasible and acceptable. Aim 2: Assess preliminary efficacy of AAI during PT/OT sessions with Paro on behavior (anxiety and affect) and motivation to participate in rehabilitation in hospitalized children. Hypothesis: Children who use Paro will demonstrate less anxiety, more positive affect, and greater motivation to participate in therapy than those who do not use Paro. Aim 3: Test the stress, anxiety, and depression levels of parents/guardians of children who use Paro inpatient physical and occupational therapy sessions. Hypothesis: In addition, parents and guardians of children that use Paro will report less stress, anxiety, and depression compared to parents/guardians of children that do not use Paro.
This study aims to evaluate the potential role of physical therapy in improving outcomes after ventral hernia repair.
The purpose of this study is to: 1. Establish the feasibility and acceptability of a therapeutic robot, Paro, for critically ill patients admitted to the Pediatric Intensive Care Unit 2. Explore safety considerations related to infection control \[participant hospital-acquired infection (HAI) rates, screening for the presence of microbial contamination with real-time adenosine triphosphate (ATP) testing 3. Examine the therapeutic effect of Paro on patient psychological variables, physiological variables, and sedative and analgesic medication requirements.
This research study will investigate the effect of physical therapy intervention on the function of the foot and ankle in children and adolescents with cancer not involving the brain or spinal cord. Children undergoing treatment for cancer can suffer from decreased flexibility, strength, balance and endurance from the cancer and from direct effects of the chemotherapy agents. These deficits have been shown to continue years after treatment end with adult survivors of cancer being less physically active then their siblings. Children, whose chemotherapy includes neurotoxic agents such as vincristine, can develop damage to their peripheral nervous system affecting the strength, sensation, and flexibility in their hands and feet. This can then lead to a change in their walking pattern and likely contributes to decreased physical activity level and fatigue. The principal investigator is currently involved in research with Dr. Laura Gilchrist and Dr. Mary C. Hooke establishing the reliability and validity of a measurement tool to quantify peripheral neuropathy, identifying physical impairments of children with cancer during treatment, and comparing physical performance in children after treatment completion with and without physical therapy intervention. The principal investigator is also completing data analysis on a pilot study investigating the use of ankle foot orthotics in children and adolescents with non-CNS cancer. In this study, the investigators will further the research by measuring the effect of physical therapy intervention on measurements involving the function and structure of the ankle and foot. The investigators will compare participants who have and have not received physical therapy intervention during cancer treatment by administering measurements detailing the function of the foot and ankle in order to further evaluate the benefit of physical therapy for children with cancer. Physical therapy intervention involving children and adolescents with cancer focuses on minimizing the physical impairments caused by chemotherapy and radiation treatment, as well as promoting normal development of motor skills typically obtained by a child in their age group. In the oncology population, physical therapy often targets the foot and ankle as this is most affected by peripheral neuropathy. Interventions include strengthening, balance training, stretching, and orthotic use to allow normal motor skills. Families are instructed in exercises that can be completed at home to further improve their function. This study will examine the difference in the function of the foot and ankle years after intervention in participants who have and have not received these interventions. The investigators will measure neuropathy, ankle flexibility, ankle strength, foot posture, gait mechanics, and endurance in order to fully examine the foot and ankle as well as evaluate relationships between the variables in long-term survivors of pediatric cancer.
Using a randomized trial design, the goal of this project is to prospectively compare outcomes from a telemedicine-based model of care to two cohorts: patients who receive in-person pediatric physiatrist medical direction (the "gold standard"), and those who receive medical oversight from non-specialist community providers. This project will determine the impact of this new model of care using telemedicine on parent/guardian satisfaction, adherence rates to an evidence-based hip surveillance program, and economic efficiency.
As the general population ages and technology advances, many who suffer from catastrophic critical illness (i.e. septic shock, respiratory failure, Acute Respiratory Disease Syndrome) survive only to find themselves severely physically debilitated and compromised from a pulmonary standpoint, requiring assistance from a mechanical ventilator in order to breath. Oftentimes, these patients require a long course of physical rehabilitation and ventilator support. These patients frequently remain ventilator dependent for greater than 3 weeks, and are thus referred to as requiring prolonged mechanical ventilation (PMV). Older patients are at significantly higher risk for requiring PMV for reasons that are not entirely clear, but which may include physical deconditioning, impaired cardiopulmonary physiology, and cognitive or behavioral disturbances. The purpose of this study is two fold: 1. to characterize the functional phenotype of ventilator dependent, and recently ventilated patients with respect to general strength, endurance, balance, and pulmonary functioning and body composition. 2. To pilot test a rehabilitation protocol that targets improving this populations disabilities through exercises focused on improving strength, endurance, balance, and pulmonary functioning.
This project will determine the clinical utility of non-surgical spine decompression for chronic low back pain (LBP). LBP is one of the highest incidence medical conditions that contributes to disability, decreased activities of daily living, decreased quality of life, and inability to work. LBP affects ≈70-85% of people during their lifetime, with ≈20% becoming chronic by age 20-59 years. Many current LBP therapeutics have detrimental long-term effects, undesired side effects, are invasive procedures with low success rates, and do not fare better than conservative care. Further, many chronic musculoskeletal pain patients do not respond to surgery, and many develop dependence on opioids. This project will implement a small-scale double-blinded, randomized proof-of-concept clinical trial to gather biomechanical and MRI data that will objectively determine the effectiveness of non-surgical spinal decompression (NSSD) over a 12-week longitudinal timeframe. The potential to provide a non-invasive alternative to chronic LBP via NSSD is innovative and addresses the pressing need for safer, more effective pain management options with fewer negative sequelae. NSSD has the potential to greatly improve lives, offering a new paradigm for chronic pain management.
Approximately 15,000 Veterans are hospitalized for stroke each year with new cases costing an estimated $111 million for acute inpatient, $75 million for post-acute inpatient, and $88 million for follow-up care over 6 months post-stroke. The investigators have previously established the effectiveness of a backward walking training program to improve gait and balance in post-stroke Veterans. To best serve Veterans in this era of personalized medicine, there is a current need to determine the appropriate training dose as well as which post-stroke Veterans would most benefit. This study addresses both needs as it will 1) test responses to two different doses (18 vs. 27 sessions) of backward walking training and 2) assess brain activity, measured by magnetic resonance imaging, before and after training intervention to determine its ability to predict rehabilitation response as well as brain mechanisms of behavioral change.
Approximately 15,000 Veterans are hospitalized for stroke each year with new cases costing an estimated $111 million for acute inpatient, $75 million for post-acute inpatient, and $88 million for follow-up care over 6 months post-stroke. Rehabilitation of walking ability contributes to these costs. To "walk again" is the number one stated goal for Veterans who have had a stroke. Teaching patients post-stroke to use their weak leg while they are regaining walking function and to not compensate by over-using their strong leg is necessary to restore safe, efficient walking ability. This project will determine if providing biofeedback (an audible tone) from pressure-sensitive shoe insole sensors, that encourage use of the weaker leg during walking training, in addition to therapists' feedback, will help Veterans regain use of their weak leg, improve their endurance and improve their balance when walking in challenging environments.
Thousands of canines are used for therapy in health care centers throughout the United States as part of a volunteer therapy team, yet little is known about the outcomes provided by these teams. Although many studies have been published, few used randomized, controlled formats to identify whether canine therapy has an impact and any mechanisms by which any impact may occur. The purpose of this study is use a randomized, controlled setup for canine animal-assisted therapy (AAT) in patients undergoing inpatient physical therapy for stroke, Parkinson's disease, or generalized weakness deconditioning to determine whether use of AAT produces desirable outcomes, such as increased motivation, in patients.
This study is a randomized controlled trial conducted at two clinical sites. The purpose of this study is to determine whether patients with musculoskeletal injuries do better by seeing a primary care provider first versus seeing a physical therapist first. Target enrollment is 150 subjects.
The purpose of this study is to determine the value of Constraint-Induced Movement therapy (CIMT) for improving motor function and general fitness in adults with subacute and chronic traumatic brain injury (TBI), particularly TBI acquired during active military duty, in comparison to a Lakeshore Enriched Fitness Training (LEFT). The study will also test the effect of a set of enhanced versus "standard" procedures for transferring therapeutic gains from treatment setting to everyday life. Lastly, this study will determine whether any therapeutic effects observed are correlated with neuroplastic white matter or grey matter changes.
The purpose of this study is to determine whether seeing a physical therapist first compared with seeing a physician first is more clinically and cost effective in an occupational setting for acute musculoskeletal conditions.
The purpose of this study is to determine the efficacy, safety, and tolerability of treatment with dalfampridine in combination with locomotor training in persons with chronic, motor incomplete SCI.
The purpose of this study is to determine the effectiveness of adding mechanical traction to standard physical therapy treatments for patients with neck and arm pain.
The purpose of this study is to determine the effectiveness of adding mechanical traction to standard physical therapy treatments for patients with low back pain.
The purpose of this study is to evaluate the safety and efficacy of the BrainPort balance device in improving balance in people with balance deficits due to stroke.
The purpose of this study is to determine whether osteopathic manipulative treatment (a type of spinal manipulative therapy used by osteopathic physicians) and ultrasound physical therapy are effective in the treatment of chronic low back pain.
To examine the effects of Physical Therapist (PT) wound care modalities (pulsed wound irrigation (PWI) + electrical stimulation (ES), PWI only, and ES only) on wound healing in patients with spinal cord injuries (SCI).
The purpose of this study is to find out about the quality of life and health in patients who had retinoblastoma in one eye (unilateral retinoblastoma), who either received treatment with chemotherapy injected directly into an artery leading to the eye (intra-arterial chemotherapy) or removal of the eye (enucleation). By quality of life, the investigators mean how the participants are feeling about being satisfied with things in their life, including, physical health, emotional health, and their ability to carry out daily activities. The investigators want to see if either treatment option would affect quality of life differently. The investigators hope that this information will help us provide better care to future children with retinoblastoma and better follow-up care for survivors of retinoblastoma.