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The purpose of this study is to examine ACLR Rehabilitation with Exercise and Psychological Support (REPS), comparing two approaches for providing psychological support along with exercise during ACL reconstruction rehabilitation. In one group, physical therapists have received training that may boost emotional support during rehabilitation. In the other group, physical therapists will not have the training. Both groups will get similar exercises and participate in the same testing. Both groups will also watch short videos during rehabilitation that are specific to their group. Participants will not know to which group they are assigned until the end of the study. Participation will attend a total of four study visits over the course of 6 months, including 1 visit before the surgery and 3 visits during follow-up.
This study explores the use of multifunctional, non-invasive spinal cord transcutaneous stimulation (scTS) to address axial motor symptoms, particularly gait dysfunction, in Parkinson's disease (PD). These symptoms, resistant to levodopa and inadequately managed by deep brain stimulation (DBS), arise from maladaptive spinal network changes. A non-invasive approach like scTS could overcome limitations associated with invasive spinal cord stimulation (SCS), which requires surgical implantation and lacks adaptability in stimulation site adjustments. Gait dysfunction in PD stems from disrupted interactions between spinal and supraspinal networks. scTS provides a non-invasive alternative, shown to enhance locomotor functions in conditions such as spinal cord injury, stroke, and cerebral palsy. This study hypothesizes that scTS applied at multiple spinal levels-cervical (C3-C4), thoracic (T11-T12), and lumbar (L1, L2-L3)-can synergistically activate locomotor central pattern generators (CPGs) and improve gait and postural control in PD. Additionally, it is hypothesized that proprioceptive input, combined with scTS, can counteract disruptions in spinal networks and restore voluntary movement. The primary goal is to evaluate the effects of scTS on stepping performance, postural control, and locomotor recovery in PD. Specific objectives include: 1. Enhancing Locomotor Networks * Determine optimal scTS parameters for inducing rhythmic stepping in PD patients. * Assess interactions between spinal and supraspinal networks during imagined stepping under scTS in a gravity-neutral setting. 2. Improving Postural Networks o Evaluate the effectiveness of scTS in restoring postural control and integrating postural-locomotor functions. 3. Facilitating Neuroplasticity for Movement Recovery o Combine scTS with activity-based recovery training to promote adaptive plasticity in spinal and cortical networks, reducing freezing of gait (FOG). The research will measure scTS's capacity to generate coordinated stepping and postural movements, integrate proprioceptive feedback, and induce long-term improvements in gait parameters. By targeting spinal locomotor and postural systems, scTS offers a novel, non-invasive approach to addressing gaps in the management of PD gait dysfunction. This work has the potential to significantly enhance the quality of life for individuals with PD, providing a safe, adaptable, and patient-centered therapeutic solution.
This pilot health services interventional study aims to prospectively assess the effectiveness of a pre-treatment rehabilitation (prehabilitation) program across a diverse cohort of adult cancer patients via a randomized pilot trial. Upon screening and identification of high-risk features through a central navigation process, patients referred to oncology clinics will be approached to participate in tailored prehabilitation interventions. The study will track and analyze functional outcomes and quality of life aiming to demonstrate the comprehensive benefits of prehabilitation on the cancer treatment continuum. We hypothesize that this referral program is feasible and that those randomized to the intervention arm will have superior functional outcomes and global health-related quality of life. The rationale for this study is anchored in the urgent need to optimize the cancer care trajectory for high-risk patients whose treatment outcomes and quality of life are jeopardized by the multifaceted challenges of their disease. While prehabilitation has shown potential to mitigate these adverse effects, the optimal methods for identifying and connecting these high-risk individuals to appropriate prehabilitation resources remain underexplored. This study, with its systematic approach to enrolling a diverse adult cancer population, endeavors to investigate not only the benefits of prehabilitation interventions but also the effectiveness of a targeted referral process. By doing so, it aims to uncover novel strategies for efficiently allocating prehabilitation resources, thereby enhancing the precision and impact of supportive cancer care.
Physical therapists use dry static cupping for the treatment of many conditions, including spasticity for patients post-stroke. While research better describes the effects of dry static cupping for patients with orthopedic conditions, information is lacking on central conditions, such as stroke and resulting spasticity.
Approximately 50% of people with multiple sclerosis (MS) use a wheelchair within 30 years of the initial diagnosis. Wheelchair use in MS is often associated with fatigue as a consequence of muscle weakness. Indeed, fatigue, a prevalent consequence of MS, often becomes debilitating and exhausts energetic resources when carrying-out tasks of daily life and/or interacting with the community, as these require ambulatory mobility. This experience of excessive fatigue has its roots in muscle weakness and results in reliance on a wheelchair for mobility, and the dependency on a wheelchair may further reduce muscular strength, particularly of the lower extremities. We propose that wheelchair users with MS can increase muscular strength through a personalized exercise rehabilitation, and this in turn will improve ambulatory performance and possibly reduce fatigue. To date, no research has examined the effects of this specific exercise rehabilitation program (GH method) on physical function and other disease-related outcomes in persons with MS who use wheelchairs as a primary mobility device.
Current clinical assessment tools are often not sensitive enough to detect and treat some subtle (yet troubling) problems after mTBI. In this study, the investigators will use wearable sensors to both assess and treat people with mTBI. Specifically, the investigators will provide immediate feedback, with visual and/or auditory, on movement quality during physical therapy. This immediate feedback on performance may improve outcomes as the investigators will measure multiple body segments including head movements simultaneously with balance and walking exercises. Such complex movements are needed for safe return to high level activity and military duty. The investigators will test this approach against a standard vestibular rehabilitation program. There are few potential risks to this study such as increasing symptoms and a small fall risk. Benefits include physical therapy for balance problems regardless of therapy with or without biofeedback. An indirect benefit is to have data on correct dosage of physical therapy. The investigators will also distinguish which concussion subtype profiles benefit most from physical therapy. This will help healthcare providers and patients by providing more information to help establish clinical guidelines and new tools for physical therapy.
Nearly 60-85% of Veterans with amputations experience pain at the location of the amputated limb called phantom limb pain (PLP). PLP is a major problem and can have a profound impact on Veteran's daily function and ability to fully participate in life. Although several rehabilitation interventions are promising, advances in novel rehabilitation interventions are limited. The objective of this project is to refine a mobile app for graded motor imagery in 12 Veterans with amputations and test the mobile app with 36 Veterans with amputations. For this pilot project, the investigators will measure the preliminary feasibility and acceptability of the intervention. Knowledge from this project will provide evidence to guide future larger studies of this graded motor imagery intervention. Developing novel strategies for chronic pain in this population will positively impact quality of life for Veterans with amputations.
Respiratory complications are among the leading causes of death in patients with chronic spinal cord injury (SCI). Our previous work showed that pulmonary function can be improved by using our original respiratory training method. However, the effectiveness of this intervention is limited due to the disruption of brain-spinal connections and consequently lowered spinal cord activity below the injury level. Our recent studies showed that electrical stimulation of the spinal cord below the level of injury leads to increased ventilation which indicates activation of the spinal cord structures related to respiration. These findings indicate that spinal cord stimulation can be a promising therapeutic additive to the treatment. The goal of this study is to justify the establishment of a new direction in rehabilitation for patients with SCI by using a non-invasive spinal cord stimulation in combination with respiratory training. Our aims are: 1) to evaluate the effects of such stimulation applied to the injured spinal cord on pulmonary function and respiratory muscle activity, and 2) to evaluate the effectiveness and therapeutic mechanisms of the spinal cord stimulation combined with respiratory training. Thirty-six individuals with chronic SCI will be recruited and assigned to three groups to receive respiratory training or spinal cord stimulation alone or a combination of them. All participants will be tested before and after cycles of experimental procedures with/or without stimulation. Our hypotheses will be confirmed if the respiratory training combined with spinal cord stimulation results in the most enhanced positive effects.
The investigators are conducting a research study to try to improve rehabilitation interventions for individuals with spinal cord injury (SCI). In this study, the aim is to determine if temporarily numbing non-paralyzed arm muscles with an over-the-counter numbing cream while exercising paralyzed muscles, can improve the strength, function, and sensation of paralyzed muscles after a spinal cord injury.
This cluster randomized clinical trial seeks to provide large-scale, foundational evidence that high-intensity rehabilitation is effective and can be systematically implemented to improve functional outcomes for patients admitted to skilled nursing facilities following hospitalization. Additionally, this study will generate a descriptive overview of factors that predict implementation success while informing effective implementation strategies for future skilled nursing facilities innovation.