9 Clinical Trials for Various Conditions
This study evaluates the effect of wearing a tetra-grip on the affected arm of children with neonatal brachial plexus palsy. Half of the participants will have tetra-grip applied to the arm, while the other half will not have it applied to the arm.
Infants who sustain an injury to the brachial plexus in the perinatal period are at high-risk for long-term neuromuscular deficits and prehensile dysfunction. If recovery is delayed because of slow axonal regrowth, disuse atrophy and secondary musculoskeletal deficits may develop. The investigators' hypothesis is that early, intensive intervention designed to foster muscle activation is essential to optimize outcomes after brachial plexus injury and may supplement rehabilitation and microsurgery. This proposal targets infants who are non-surgical candidates. Yet, future studies will examine whether the investigators' experimental intervention can hasten recovery from microsurgery and will examine which post-operative time-point is best to employ it. The investigators' intervention shows promise to increase muscle activation and improve arm function in infants with brachial plexus birth palsy (BPBP) through contingent reinforcement based on a pilot study.
The investigators are studying the ability of a novel rapid magnetic resonance imaging (MRI) protocol to provide more accurate and earlier information about whether an infant with brachial plexus birth palsy will require nerve surgery.
Neonatal Brachial Plexus Palsy (NBPP), characterized by weakness and sensory loss in the affected arm, results from damage in the prenatal period to the nerves extending from the spine to the arm. Proper stretching and exercise of the joints and affected arm from the time of diagnosis can greatly assist in the development of healthy movement of the limb. Additionally, neuromuscular electrical stimulation has been shown to be an effective treatment in other neural disorders and therefore its effectiveness in NBPP is worth studying. In the case of NBPP patients, the loss in normal arm function can be observed very early. Young patients will often neglect using the affected arm or modify motions to avoid the use of the biceps muscle, specifically in hand to mouth actions such as gripping a bottle or placing toys or other objects in the mouth. A goal of this study is to test the effectiveness of NMES on improving the biceps muscle Medical Research Council (MRC) strength and active range of motion (AROM). The subjects of this study are newborns between the ages of 3-9 months who are already a part of the University of Michigan Brachial Plexus program. Parents of the children will be trained to perform the neuromuscular electrical stimulation therapy at home using the EMPI Continuum unit for 30 minutes each day and monthly follow up appointments will be performed be the research occupational therapists throughout three month study period. Parents of the participants will complete a questionnaire before and during the study period to help analyze for confounders and gather data regarding parent compliance and NMES effectiveness. To detect the effectiveness of NMES, two cohort groups using standard units and sham units will be recruited and compare with data analysis. The investigators predict that the NMES will effectively improve the ability of the neonate to increase use of the affected arm, specifically in muscle strength biceps MRC score and AROM.
The main goal of this study is to identify abnormal functional and anatomical brain reorganization associated with hand, foot, and shoulder function in children (0-18 years old) with cerebral palsy (CP) due to periventricular white matter injury (PV-WMI) or brachial plexus birth palsy (BPBP) using a multi-modal neuroimaging approach.
The brachial plexus is a network of nerves that exit the spinal cord from the C5-T1 nerve roots and provide all motor and sensory function to the arm from the shoulder to the fingers. Injury to the brachial plexus due to traction forces during labor and/or delivery causing the nerves to stretch or tear occurs in 0.9 out of 1000 live births. As many as 30% of infants with brachial plexus birth injury (BPBI) have paralysis or weakness in one arm resulting in lifelong impairment in arm function with joint contractures, the shortening of tendons, ligaments and muscles, leading to reduced range of motion (ROM), being a common complication and major source of disability. A primary goal of early management of BPBI is to use passive range of motion (PROM) (stretching) to improve and/or maintaining shoulder ROM due to the known risk of shoulder contracture within the first year of life. Infants who develop contractures face challenges in overall sensory-motor development and are less able to participate in meaningful occupations and activities of daily living due to limited upper extremity ROM. They are also at risk for subsequent surgeries throughout their lives. Occupational therapy practitioners (OTPs) and physicians who specialize in treating infants with BPBI recommend caregivers to perform PROM at every diaper change, which is every 1-3 hours in the first months of life, and every 4-6 hours by age one. A survey study by one of the investigators on this proposed project found that 85% of OTPs who specialize in BPBI make this recommendation for performing PROM at every diaper change; however, there is no research to support this frequency to prevent or decrease contractures. Clinical observations suggest that infants who receive consistent daily PROM seem to avoid development of shoulder contractures while those who receive no or infrequent PROM seem to develop early and significant contractures. In a retrospective pilot study we found that children whose parents consistently performed PROM two times daily starting before age two months were less likely to develop shoulder contractures than children whose parents were inconsistent in performing PROM. These findings, along with our clinical observations suggest that frequency of PROM might be less important than consistency. In order to assess the efficacy of different levels of frequency (e.g., at every diaper change vs. two times per day), it is imperative to identify methods that support caregivers in performing PROM every day. Therefore, the proposed study will pilot a caregiver training method which, if successful in facilitating daily adherence, will be used as part of a larger planned study that will compare differences in recommended frequencies of stretching. In a survey study and scoping literature review performed by one of the co-investigators on this project, caregiver adherence to home therapy recommendations was found to be facilitated by confidence in the training they received and by their confidence in ability to carry-out recommendations; lack of confidence in performing the home therapy recommendations was found to be a common barrier. Therefore, the objective of the proposed work is to assess the efficacy of a pilot training protocol for caregivers of infants with BPBI. Our central hypothesis is that the pilot training protocol will improve caregiver efficacy and increase their confidence in performing the recommended PROM/stretching procedure, thus facilitating adherence which we hope to later demonstrate will decrease the risk of shoulder contracture in infants with BPBI. The significance of this work is that it will evaluate and provide evidence for the use of the pilot training protocol so that this training protocol can later be used in a larger study on the efficacy of different frequencies of PROM to reduce the development of shoulder contracture in infants with BPBI, and thus contribute to developing evidenced-based standards of care for this population. The objectives of this clinical trial are to: 1. determine whether caregivers who receive a pilot training protocol for performing PROM demonstrate improved efficacy in performing PROM compared to caregivers who receive standard training 2. determine whether caregivers who receive a pilot training protocol for performing PROM demonstrate improved self-confidence in performing PROM compared to caregivers who receive standard training 3. determine whether caregivers who receive a pilot training protocol for performing PROM report better daily adherence to daily PROM compared to caregivers who receive standard training
This prospective observational study aims to evaluate the incidence of hemidiaphragmatic paralysis in patients receiving interscalene brachial plexus nerve block with prolonged neural blockade. English speaking American Society of Anesthesiologists (ASA) 1-3 patients ages 18-80 receiving prolonged interscalene nerve block will be randomized into 3 groups: first group receiving a perineural catheter infusing 0.2% ropivacaine; the second group receiving a single shot injection of 10mL liposomal bupivacaine (Exparel; n=20) plus 5 mL 0.5% bupivacaine and the third receiving 20mL liposomal bupivacaine plus 5mL bupivacaine (to be determined by the attending anesthesiologist).Primary outcome will be incidence of hemidiaphragmatic paralysis postoperative day 1 as measured by point of care (POCUS) ultrasound.
One of the most frequently performed peripheral nerve blocks (the injection of local anesthetic near nerves to block sensation/ movement to a specific part of the body) is the interscalene brachial plexus block for upper extremity surgeries. This type of block can unmask underlying respiratory issues such as shortness of breath due to a well-known and typically insignificant side effect of temporary diaphragmatic paralysis. The nerve block may be able to use saline solution to wash out the local anesthetic and potentially reverse this respiratory side effect. Specifically, the goal of this study is to determine if the injection of saline through the nerve block catheter reverses blockade of the phrenic nerve supplying the diaphragm, without affecting the ability of the nerve block to provide pain control after surgery.
The purpose of this research study is to demonstrate that individuals with upper limb paralysis due to spinal cord injury, brachial plexus injury, amyotrophic lateral sclerosis and brain stem stroke can successfully achieve direct brain control of assistive devices using an electrocorticography (ECoG)-based brain computer interface system.