11 Clinical Trials for Various Conditions
The goal of this feasibility clinical trial is to learn if melatonin can help teens having major musculoskeletal surgery by promoting healthy sleep. Melatonin is available as a dietary supplement that may be effective in promoting longer, higher quality sleep. This study will assess the feasibility and acceptability of melatonin for teens undergoing major musculoskeletal surgery, as well as determine optimal measured outcomes (sleep, pain, health-related quality of life) at short- and long-term follow-up.
This is a randomized controlled trial to test effectiveness of the SurgeryPal intervention vs. education control to improve acute and chronic pain and health outcomes in youth undergoing major musculoskeletal surgery. Youth will be randomized on an individual level using a factorial design to SurgeryPal or Education during 2 phases of intervention: 1) pre-operative phase (4 week duration delivered over the 4 weeks leading up to surgery), and 2) post-operative phase (4 week duration following surgery). Thus there will be 4 treatment arms. Participants will undergo 4 assessments, independent of their treatment assignment: T1: Baseline (pre-randomization); T2: acute post-surgery outcomes (daily assessment of acute outcomes beginning day 1 through day 14 after hospital discharge from surgery); T3: Post-surgery follow-up (assessment of outcomes at 3-months post-surgery); T4: Final post-surgery follow-up (assessment of outcomes at 6-months post-surgery).
This study will determine whether vertebral body tethering is a safe and feasible method of treatment for pediatric idiopathic scoliosis.
There are two rod sizes routinely used for the correction of juvenile and adolescent idiopathic scoliosis, 5.5mm and 6.35mm, typically stainless steel. Currently there is no scientific evidence supporting the superiority of one size rod relative to the other. This study will evaluate the amount of radiographic correction obtained using the 5.5mm versus the 6.35mm spinal instrumentation rods.
The goal of this study is to determine whether introducing VR in the immediate post-operative period following scoliosis repair can reduce perceived pain and stress in pediatric patients and in turn ultimately decrease opioid use. Based on previous studies that have been performed in other fields of pediatrics showing a decrease in pain and stress with VR use, the investigators hypothesize that VR will significantly decrease patient's reported level of pain and stress immediately following the VR session, and that patients will require less opioids during their inpatient stay as a result.
The purpose of this study was to establish probable benefits and evaluate the safety and preliminary effectiveness of the Braive™ GMS when used in the treatment of pediatric progressive scoliosis.
Providing effective analgesia after spinal fusion for idiopathic scoliosis remains a challenge with significant practice variation existing among high volume spine surgery centers. Even in the era of multimodal analgesia, opioids are the primary analgesics used for pain control after pediatric scoliosis surgery, but have multiple known adverse effects. The erector spinae plane block (ESPB) is a newly described fascial plane block performed by injecting local anesthetic between the erector spinae muscle and the transverse process. Additionally, there are case reports describing the ESPB as part of a multi-modal analgesic plan in adult degenerative spine surgery as well as adult spinal deformity surgery, demonstrating effective analgesia and no clinical motor blockade. Although it is known that the inflammatory reaction plays a crucial role in the mechanism of acute pain after major surgery, the effectiveness of the current regional approach on inflammatory response is not well studied.
The goal of this pilot study is to assess the feasibility of conducting a randomized controlled trial at a single institution comparing erector spinae plane blockade (ESPB) with liposomal bupivacaine (LB, Exparel) to intravenous (IV) methadone for managing pain in pediatric subjects undergoing adolescent and juvenile idiopathic scoliosis correction. Specifically, the goal is to enroll 15 subjects in each group and to complete data collection for all subjects. If this pilot study is successful, we plan to then design a larger scale study powered to compare specific outcomes between the two groups.
Scoliosis is a complex 3-dimensional deformity of the spine. It may occur at any time throughout growth and development and is typically detected through x-ray imaging. Although effective at visualizing a curve, x-ray imaging is costly and may expose children to potentially harmful ionizing radiation. This is a 30 patient study to evaluate the reliability of ultrasound, an imaging technique without radiation, to effectively measure scoliosis deformities compared to the gold-standard of x-ray.
This study is designed to evaluate the coronal, sagittal, and axial correction of deformity secondary to adolescent idiopathic scoliosis utilizing a technique employing a posterior spinal fusion construct utilizing rods of different material rigidity and asymmetric bends determined using computer-based software to pre-operatively template a best-fit rod contour from pre-operative radiographs. To further evaluate the changes in contour of the rods from the pre-operative templates to the post-implantation radiographs.
Primary Objective: To evaluate the use of unilateral or bilateral VEPTR devices, with or without expansion thoracoplasty, for preventing further progression of the Cobb angle, allowing for spinal growth and improving pulmonary function in the treatment of children with progressive scoliosis without rib abnormalities.