62 Clinical Trials for Various Conditions
This study aims to investigate the effects of conditioning with open-label placebos on standard postoperative treatment for patients undergoing surgery for idiopathic scoliosis in a randomized controlled, 6-week trial with 64 AIS patients randomly assigned to one of two arms: Open-label Placebo (COLP) + treatment as usual TAU / TAU control. The study involves collecting data from your child's medical record. At each regular clinic visit, the patient clinical data will be collected by the research coordinator. Surveys will be collected including:• PROMIS for the age group 10 to 18 years.
Patients with Adolescent Idiopathic Scoliosis may need surgery to correct their scoliosis. General anesthesia is required for this surgery, and a multimodal analgesic regimen using combinations of opioid and non-opioid medications is the standard of care. The purpose of this study is to compare two combinations of total intravenous anesthetic medications in children with Adolescent Idiopathic Scoliosis having posterior spinal fusion surgery. Participants in the study will be randomly selected to receive either Propofol and Remifentanil or Propofol and Dexmedetomidine as their total intravenous anesthesia (TIVA). TIVA is favored over gas anesthesia because gas anesthesia can affect the neurological monitoring necessary for this surgery. The first combination (Propofol + Remifentanil) is the most common one used for this surgery at our institution, and the second combination (Propofol + Dexmedetomidine) is more commonly used in adult spine surgery. Though Dexmedetomidine is not approved for pediatric use by the FDA, it is widely used in pediatric patients for procedural sedation and surgical anesthesia in the US and worldwide. Both anesthetic combinations are used safely in adult and pediatric patients at our institution. Although remifentanil works fast and is an excellent pain medication during surgery, there are reports that it's use can cause increased pain sensitivity and greater need for narcotic pain medication after surgery. This phenomenon is known as opioid-induced hyperalgesia. The investigators hypothesize that avoiding the use of remifentanil in the TIVA by using dexmedetomidine could avoid OIH and thus result in superior postop pain control. Our study's primary goal is to measure the total opioid consumption on postoperative days (POD)# 0 and 1. Our secondary goals are to measure the pain scores on a visual analog scale (VAS) on POD# 0 and 1, measure the time it takes for participants to move their feet to command when surgery is done, and measure the time it takes for participants to be extubated when surgery is done. By comparing these measurements, the investigators hope to find out if there is any significant difference between the two TIVAs in terms of postop opioid requirements, pain scores, and time to wake up from anesthesia. The investigators hope that our study gives us more knowledge on how to better treat postoperative pain in children who have spine surgery to correct their
The goal of this randomized clinical trial is to compare the immediate use of steroids after surgery for accelerated discharge in adolescent idiopathic scoliosis and neuromuscular scoliosis after a posterior spinal fusion. The main question it aims to answer are: * What are the effects of using steroids immediately after surgery in decreasing opioid use and helping early mobilization(movement)? * Does post-operative steroid use affect the incidence of wound complications and are there any long-term impacts on scar formation? Participants will: * Fill out a Patient-Reported Outcomes Measurement Information System (PROMIS) survey specifically for pain interference and physical activity observing health related quality of life at enrollment, 3 months, 1 year, and 2 years * Have clinical photos of their incision at 3 months, 1 year, and 2 years * Their photos will be assessed using the stony book scar evaluation scale * For treatment of their scoliosis, patients will undergo a posterior spinal fusion (PSF) per standard of care, however whether the participant receives or does not receive steroids is what the investigators are trying to understand. * Researchers will compare no immediate postoperative steroid (NS) to the group with immediate postoperative steroid (WS) group to see if there are changes in opioid use, wound complications, scar formation, and facilitation in early mobilization.
Adolescent Idiopathic Scoliosis (AIS) is defined as a three-dimensional lateral deformity of the spine. It is described with a cobb angle of greater than 10 degrees. There is no known etiology of AIS. Once the degrees of curvature become severe (greater than 45 degrees), surgical intervention (posterior spinal fusion - PSF) is often discussed. Most adolescent patients and their families opt for surgical correction to decrease future complications of severe scoliosis, such as decreased vital capacity of the lungs, potential future activity restrictions, cosmetic appearance, and self-esteem. While the patient and family are eager to undergo PSF, they do have concerns. The major concerns are pain control and their ability to return to activities. In current literature, there are many studies completed regarding pharmacologic pain control management with the use of IV patient-controlled analgesia (PCA) with opioids, narcotics, non-steroidal anti-inflammatories, muscle relaxers, Tylenol, and gabapentin. However, there is not a well-established multimodal pain management plan for postoperative PSF patients. There is also no current literature discussing nonpharmacologic pain management methods, such as stretching, strengthening and yoga, for patients undergoing PSF. There are multiple studies discussing core stabilization used for helping AIS patients non-operatively. There is no literature discussing the use of nonpharmacologic pain management methods for improved pain control (including decreased use of pharmacologic agents) and quicker return to activities. The aim of this study is to determine if patients with AIS undergoing PSF require fewer pain medications and have an earlier return to activities if completing a yoga program six weeks prior to their surgery.
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.
Randomized controlled trial of participants with scoliosis into standard treatment with observation/bracing and the other group will have the added treatment of dynamic myofascial manipulation for 6 months.
Pediatric spinal fusion (PSF) surgery is a painful procedure that can treat adolescent idiopathic scoliosis (AIS). One technique that can potentially reduce patients' pain levels and need for opioid medication is the ultrasound-guided Erector Spinae Plane Block (ESPB). The ESP block is a technique that involves injecting an anesthetic medication into the muscles of the lower back on both sides of the spine. Previous studies have shown that ESPB application led to a reduction in opioid use, and there is one pediatric case report of ESPB use in two patients undergoing PSF. However, there is still lack of evidence that the ESPB technique is feasible and effective in the pediatric patient population. The present study is designed to be the first randomized controlled trial to evaluate the role of ESPB in pediatric spinal fusion surgery and the role of ESPB within an enhanced recovery pathway.
The ApiFix MID-C System is a unidirectional expandable rod, designed to be connected unilaterally to the spine via 2 anchor points on the concave side of a scoliotic deformity above and below the apex of the major curvature to treat adolescent idiopathic scoliosis. The MID-C System is designed to act as an internal brace. Patients implanted with the device in the US within 2 years of FDA's approval of H17001 should be enrolled in the study. A minimum number of 200 patients will be enrolled in this study.
The purpose of this study is to establish a benchmark for measuring blood loss by directly measuring the change in red cell volume before and after surgery and to compare established blood loss estimators to this benchmark in order to determine the most accurate and precise method for estimating blood loss in adolescent idiopathic scoliosis surgery patients
This study evaluates the combined effect of botulinum toxin A (administered as Dysport® (Ipsen Pharmaceuticals)) and bracing in children with adolescent idiopathic scoliosis. Two thirds of patients will be treated with Dysport® and bracing, while the remaining patients will be treated with placebo and bracing.
Adolescent Idiopathic Scoliosis (AIS) is a curvature of the spine that occurs in 1-2% of otherwise healthy children, and requires corrective surgery, posterior spinal fusion (PSF) in \~10% of cases. Some studies suggest that pulmonary function is reduced in AIS and that PSF improves pulmonary function. The lung is composed of a large number of branching airways that terminate in gas exchanging units called alveoli, and the number and structure of these alveoli are partially dependent upon lung volume and the forces to which they are exposed--two factors predicted to be altered in AIS. This study uses MRI imaging of inhaled helium to quantify alveolar structure in children with and without AIS before and one-year after PSF. The goals of the study are to determine if alveolar architecture or number are altered in AIS and whether PSF impacts these same measures.
The overall aim of the study is to utilize a novel device and smartphone application in order to improve measurement of patient compliance with at-home bracing for scoliosis as well as create a more accurate assessment of brace fit via continuous and objective measures of tension. These ground-breaking metrics will provide analyzable data to more accurately reflect and predict actual patient compliance as well as allow for further exploration of how to increase compliance, and thus, efficacy of bracing; it will additionally allow both physicians and patients to have a more reliable measure for brace fit by providing them with continuous data of fit via tension, and provide built-in feedback mechanisms to the patient to ensure proper tightness of the brace. Additionally, the study will investigate whether providing the wearer's own brace-wear compliance information directly to the patient and their caregiver(s) via the mobile app will further improve rates of compliance as compared to those who do not receive the same feedback mechanism.
The primary purpose of this randomized trial is to compare the efficacy of an ultrasonic bone scalpel (or osteotome device) with standard of care surgical instruments during posterior spine fusion with instrumentation.
Scoliosis is a three-dimensional deformity affecting the orientation and position of the spine. Locally, the shape of the vertebra is also affected. The most common form is adolescent idiopathic scoliosis (AIS) with a prevalence of 1-3% affecting primarily young adolescent females. AIS can either be treated using a brace and in some cases necessitate surgical correction to prevent progressive deformity. Risk factors for progression include female gender, curve magnitude and location, skeletal maturity and growth velocity. However, these risk factors have been shown to be inconsistent in predicting curve progression. Over the past 6 years, the investigators have developed a predictive model of the final Cobb angle in AIS based on 3D spinal parameters. This analysis was based on a prospective cohort of 195 patients that were enrolled upon their initial visit and followed until maturity. This predictive model has a determination coefficient of 0.702. The proposed new study aims at refining and testing the external validity of this model in a larger cohort. The next step towards using the new model in the clinical setting is to redesign the model and to externally validate the model by measuring the agreement between the new method and the traditional Cobb angle at maturity in a larger multicenter study. The objective of this study is to characterize the risk of scoliosis progression based on local three-dimensional vertebral and pelvic measurements present on initial evaluation. Three-dimensional reconstructions will be derived from stereo-radiographs acquired with a new biplanar low-dose radiographic system installed in all 8 clinical sites (EOS system, EOS-Imaging, Paris). These calibrated radiographs will then be used to reconstruct the vertebrae and intervertebral disks at each level as well as the geometry of the pelvis. A series of local and regional parameters will then be calculated from these 3D reconstructions. Correlation analysis will help determine if intervertebral disk wedging, vertebral wedging, transverse plane rotation or pelvic geometry can be used as early predictors of curve progression in AIS. Identifying a new 3D measure of scoliosis associated with rapid curve progression could help predict which curves need early treatment to prevent further progression. The ultimate goal of this research project will be to validate this new predictive model and finally transfer this new predictive tool in the hands of clinicians treating AIS.
The purpose of this study is to identify potential markers for curve progression in adolescent idiopathic scoliosis (AIS). Despite its prevalence and impact on child health, the etiology of AIS and molecular mechanisms underlying its development and progression remain poorly understood. Clinical criteria and features cannot adequately predict which children, diagnosed with mild disease, will undergo subsequent curve progression requiring intervention. The investigators hypothesize that alterations in specific genetic markers will be correlated with the progression of AIS curves over time. Thus, these markers could be used in the future to develop a reliable, inexpensive and relatively non-invasive cell based diagnostic test to (1) predict spinal curve progression in AIS, (2) select patients likely to benefit from early surgical intervention, and (3) potentially screen for asymptomatic children at risk of developing idiopathic scoliosis.
The EOS® imaging system, a new imaging modality which offers low dose, weight bearing and full body X-ray imaging, requires a new standing position where patients put their hands and forearms on the wall vertically for stability. Although this method provides enough support for the patients during the extended X-ray acquisition time, its impact on the postural balance and sagittal profile of the spine and sacro-pelvic parameters has not been evaluated. The goal of this study is to identify the impact of patients' arm positioning on the sagittal profile and postural balance of the patient and subsequently propose a standardized method for full spine X-ray acquisition in the EOS® imaging system.
A multicenter, prospective, non-randomized, single-arm observational study evaluating the Providence nighttime bracing system in patients diagnosed with adolescence idiopathic scoliosis.
The purpose of this study is to evaluate the relationship of A) The distal fusion level B) The total length of fusion and the post-operative range of motion in the unfused vertebral segments below the fusion in patients with Adolescent Idiopathic Scoliosis.
The purpose of this study is to analyze the long-term outcomes of surgical treatment of idiopathic scoliosis of all curve patterns treated by either anterior or posterior procedures. In addition, to analyze the long-term outcomes of non-operative idiopathic scoliosis.
Adolescent idiopathic scoliosis (AIS) is a structural curve of the spine with no clear underlying cause. Bracing is currently the standard of care for preventing curve progression and treating AIS. However, the effectiveness of bracing remains unclear. The purpose of this study is to compare the risk of curve progression in adolescents with AIS who wear a brace versus those who do not and to determine whether there are reliable factors that can predict the usefulness of bracing for a particular individual with AIS.
The purpose of this study is to compare the efficacy of a multimodal opioid-free (OF) pain management protocol with a traditional opioid-containing (OC) protocol in pediatric patients undergoing instrumented PSF for idiopathic scoliosis.
The purpose of this study is to assess the effect of virtual reality on subjective post-operative pain, total inpatient narcotic administration, and mobilization with physical therapy in pediatric patients who have undergone surgical correction for idiopathic scoliosis.
This study is a randomized controlled trial of preoperative oral iron supplementation, to identify whether iron deficiency is a modifiable risk factor for adverse surgical outcomes such as red blood cell transfusion and diminished postoperative cognitive and physical capacity in adolescents undergoing scoliosis surgery. Research Question(s)/Hypothesis(es): Primary * Iron supplementation will reduce the incidence of perioperative RBC transfusion in iron deficient scoliosis patients undergoing spinal fusion. Secondary * Iron supplementation will reduce postoperative neurocognitive functional declines in iron deficient scoliosis patients undergoing spinal fusion. * Iron supplementation will improve patient-reported physical functioning in iron deficient scoliosis patients undergoing spinal fusion.
Working in partnership with Montefiore-Einstein's Department of Translational Psychiatry, the study team investigators have designed a prospective randomized clinical trial (2:1) study for 45 AIS patients (10-19 yrs.). This protocol includes a baseline assessment of mental health, pain, and function in AIS patients utilizing validated patient reported outcome measures. The investigators will implement and test a structured perioperative psychological intervention program, based on the Aim to Decrease Anxiety and Pain Treatment (ADAPT), which was developed based on evidence-based cognitive behavioral therapy (CBT) protocols for the management of pediatric pain and childhood anxiety disorders
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.
This is a single center, prospective, non-randomized reproducibility study of the NSite device in patients undergoing evaluation for scoliosis. The NSite device is a pre-market, investigational device. The study will enroll 13 eligible patients, who will be scanned using the NSite device by 3 separate users in order to assess if the device generates similar results across users. This data will be used to support 510(k) submission.
The objective of this study is to perform a prospective, randomized controlled trial investigating the clinical usage of perioperative dexamethasone usage on APR activation, postoperative morphine usage, postoperative nausea, and hospital length of stay. There will be a control control and a Dexamethasone cohort. Participants will be randomized into one of the two cohorts. Patients in the control group will receive one 8mg dose of dexamethasone intraoperatively as per standard of care anesthesia protocols. Patients randomized to the dexamethasone cohort will be administered 8 mg of dexamethasone with 3 additional doses administered at 8-hour intervals following surgery for a total of 4 doses. All study activities will tale place at Egleston during the patient's planned inpatient stay for their posterior spinal fusion. This project has the potential to validate the utility of dexamethasone as a way to optimize postoperative care following PSF for AIS by minimizing the need for opioid medications and enhancing mobility and recovery.
Prospective, randomized control trial To determine if oral caffeine decreases the frequency of opioid demand in children with adolescent idiopathic scoliosis after their spinal fusion surgery To compare pain scale ratings, number of requests for diazepam, average heart rate, average blood pressure, sex, age, ethnicity, post-op day of discharge, operative time, estimated intraoperative blood loss, remittance post-surgery, length of hospital stay, and segments fused during spinal fusion surgery.
The Green Sun Medical Dynamic Brace (GSM) brace was developed as an alternative to rigid thoracolumbosacral orthoses (TLSOs, braces) commonly used to prevent continued curve progression in patients with adolescent idiopathic scoliosis (AIS). The brace applies corrective forces to the muscular and bony structures of the spine while preserving range of motion (ROM). The innovative design of this brace should provide an equivalent degree of correction of the scoliotic curvature as a rigid TLSO, with increased acceptability to the patient via improved comfort and spinal/chest wall mobility. Increased acceptability promotes increased adherence to treatment. This is a pilot study to collect preliminary short-term data concerning the safety and performance of the GSM brace in a sample of subjects with AIS who are currently being treated with a TLSO. The study will use clinical exams, x-rays, monitoring equipment, and questionnaires to primarily assess safety and performance. Secondary endpoints include spinal ROM and lung vital capacity assessment, as well as data validation. The study involves 3 visits, a performance check phone call, and 4 follow up calls over a four month span. This is a pilot study and no formal hypothesis testing will be done. Descriptive statistics of selected variables will be calculated.
This is a prospective, randomized controlled trial evaluating the efficacy of expanded patient education and coping skills on pain management following multilevel pediatric spinal surgery. The intervention will include a smartphone- based platform and a comprehensive library of peri-operative educational and coping skills videos as a means for better addressing the psychosocial elements of a child's individual pain experience. The study evaluated whether this novel intervention will reduce pain, improve outcomes and accelerate functional recovery up to 6 weeks after surgery.