8 Clinical Trials for Various Conditions
Our objective was to determine if an ultrasound guided ACB can preserve quadriceps strength, thus minimizing weakness of knee extension compared with ultrasound guided femoral nerve block. Our primary outcome was the percent of maximum voluntary isometric contraction (MVIC) of knee extension preserved at 30 mins after either an ACB or FNB. Secondary outcomes included MVIC of knee extension at 60 min, hip adduction at 30 and 60 mins, and assessment of fall risk with the Berg Balance Scale (BBS) at 30 minutes.
Quadriceps muscle dysfunction persists for years after anterior cruciate ligament reconstruction (ACLR) and is related to poor self-reported outcomes, altered movement patterns and joint loading associated with post-traumatic knee osteoarthritis (OA), and higher risk of reinjury. Emerging evidence indicates that central drive (pathway from the brain to the muscle of interest, i.e corticospinal excitability) to the quadriceps muscle is reduced as early as 2 weeks after surgery and can persist for years after ACLR, meaning that current rehabilitation strategies may not be addressing potential maladaptive changes in central drive. Anodal tDCS is a neurostimulation technology that increases brain excitability (i.e. central drive) and has the potential to address alterations in central drive and quadriceps muscle performance. The purpose of this study is twofold: 1) to determine the effects of anodal tDCS on central drive and quadriceps muscle performance in patients after ACLR, and 2) determine the relationship between central drive and quadriceps muscle performance in patients after ACLR. Central drive will be defined by two measures: 1) active motor thresholds, and 2) slope of a stimulus response curve. Quadriceps muscle performance will be defined by two measures: 1) isometric quadriceps strength, and 2) rate of torque development (RTD). For purpose 1 the investigators hypothesize that measures of central drive and quadriceps muscle performance will increase with administration of active anodal tDCS compared to no change with sham tDCS. For purpose 2 the investigators hypothesize that both measures of central drive will be associated with both measures of quadriceps performance, with a stronger association between central drive and RTD. Following a cross-over design patients 3-6 months from ACLR will receive active and sham anodal tDCS at different sessions separated by 7-10 days while they ride a stationary bike for 20 minutes. Bike position and intensity will be standardized for all patients to maximize quadriceps activity. Findings from this study will expand our basic science knowledge on how tDCS effects different aspects of corticospinal excitability and quadriceps strength, and lead to subsequent studies to determine the effects of multiple sessions of tDCS on corticospinal excitability and quadriceps muscle performance in patients recovering from ACLR.
This is a randomized control trial to determine if there is a measurable change in voluntary quadriceps activation, RTD, pain, and function before and after a single session of manual physical therapy. The researchers will utilize a sample of convenience with consecutive sampling at the Brooke Army Medical Center physical therapy clinic for patients referred for knee osteoarthritis. As is standard of care, patients will be provided a medical intake form and a clinical outcome measure commensurate with their primary anatomic region for which they are seeking physical therapy (i.e.: Lower Extremity Functional Scale for hip, knee, or ankle pain). If patients choose to partake in the study, they will complete the consent form and the initial physical therapy evaluation will be conducted. They will then be provided an appointment for data collection at the Army-Baylor Center for Rehabilitation Research biomechanics lab at the Army Medical Department Center and School. The treatment group will receive one 30-minute session of orthopedic manual physical therapy targeting the knee joint and soft tissues with complementary exercises targeted at their impairment. The control group will receive a 30-minute class on knee OA diagnosis, prognosis, various treatment options, and will conclude with a question and answer with the researcher. Both groups will receive their intervention from a board-certified physical therapist in the Army-Baylor Orthopedic Manual Therapy Fellowship program. At the conclusion of formal testing, the patient will be provided standard physical therapy care as deemed appropriate by their evaluating physical therapist. Thus, all subjects, regardless of their assigned group, will receive the same standard of care for their knee pain.
This is a single-center, randomized, single-blind (evaluator) study. Enrolled patients had a traumatic meniscal tear and underwent meniscectomy. The study included 6 weeks (12 visits) of standard or quadriceps intensive rehabilitation. The objective of the study was to determine the effect of quadriceps intensive rehabilitation on knee function and articular cartilage.
The goal of this trial is to learn about how restricted sleep and not bearing weight on the leg affects muscle strength and posture control. Participants will walk exclusively on one leg, sleep at differing intervals, and complete posture tests, muscle strength tests, and muscle imaging. Researchers will compare adequate sleep and restricted sleep to see if muscle strength and posture are affected.
The purpose of this study is to demonstrate the pain relieving effect of neuromuscular electrical stimulation that is applied for the purpose of increasing muscle force output.
Patients that are on mechanical ventilators in medical intensive care units (MICU) have extremely weak leg muscles. Currently there is no treatment to prevent or reverse this weakness. Treatments with a thigh muscle stimulator, called an All Stim 2, can improve leg muscle strength and help patients regain leg function after knee surgery. The purpose of the present study is to determine if treatments with the All Stim 2 device can also improve leg muscle strength in patients on mechanical ventilation.
The purpose of this study is to examine if thigh muscle weakness and the lack of muscle activation that accompanies ACL injury can be improved through a form of mental coaching and encouragement, known as operant conditioning.