35 Clinical Trials for Various Conditions
The goal of this randomized control trial is to collect sufficient preliminary data on the efficacy of sodium chloride, hereafter referred to as "saltwater" or "saline" in reducing the difficulty of swallowing following multi-level anterior cervical discectomy and fusion (ACDF) procedures. The study population will consist of generally healthy adults ages 18 - 80. The main question it aims to answer is: If the symptomatology and severity of swallowing difficulties following ACDF surgery can be reduced by gargling with warm salt water. Researchers will compare the control and interventional arms to see if the proposed intervention of gargling with warm salt water improves difficulty swallowing following surgery. Patients in the control arm will be asked to: - Complete three (3) questionnaires at specified intervals (preoperative, postoperative day (POD) 1, 2, and 7; and at 1-month postoperatively). Patients in the experimental/interventional arm will be asked to: * Complete three (3) questionnaires at specified intervals (preoperative, postoperative day (POD) 1, 2, and 7; and at 1-month postoperatively). * Gargle with a warm saltwater solution once on POD 0, and thrice daily from POD 1 to POD 7.
The goal of this two-group randomized clinical trial is to examine the effects of early postoperative PT compared to delayed postoperative PT for improving outcomes after hospital discharge for ACDF surgery. The main question this clinical trial aims to answer are: * Whether early PT participants will demonstrate greater improvements in outcomes compared to delayed PT participants. * Whether improvements in handgrip strength, cervical endurance, and cervical range of motion will be associated with improvements in outcomes. Participants will be randomized to one of two groups (early PT or delayed PT) and outcomes compared across groups.
This study is designed to collect safety and efficacy data on patients who plan to undergo a single-level total joint replacement of the lumbar spine using the MOTUS device (MOTUS Total Joint Replacement procedure) to demonstrate noninferiority to lumbar interbody fusion with respect to composite endpoints.
To compare post-operative wound complications in patients randomized to normal saline versus Irrisept solution and any other adverse reactions from the solution.
This study is designed to collect real world evidence (RWE) safety and efficacy data on patients who plan to undergo a single-level Transforaminal lumbar interbody fusion (TLIF) or Posterior lumbar interbody fusion (PLIF) instrumented with pedicle screws, using the framework of a prospective clinical study (with defined enrollment criteria and pre-specified research follow-up timepoints).
The purpose of this study is to establish a relationship between liposomal bupivacaine surgical site injection and postop opioid utilization.
The purpose of this single-blind, randomized, controlled study is to assess the efficacy of "informative text messages" vs "traditional handouts" provided to lumbar spine surgery patients post-operatively.
This study is aimed at comparing the overall efficacy (clinical and radiographic) of Vivigen, a novel cellular allograft product, and rhBMP-2 when utilized in lumbar fusion procedures.
This study examines the effect of adjunctive use of the SpinalStim bone growth stimulator on lumbar fusion rate in high risk subjects who have had lumbar fusion surgery. All participants will wear the bone growth stimulator for a minimum of 2 hours/day for 6 months.
This investigation will provide safety and effectiveness information on the use of INFUSE® Bone Graft with the CAPSTONE® Spinal System and CD HORIZON® Spinal System with a Transforaminal Lumbar Interbody Fusion (TLIF) surgical approach at one or two adjacent levels from L2-S1 to treat subjects with advanced degenerative disease of the lumbosacral spine.
To identify the current mortality rate for initial ALIF procedures. Establish/prove mortality rates for this operation have dropped in the past decade.
The purpose of this study is to evaluate if peri-operative zolpidem for posterior lumbar spinal fusion improves patient reported outcomes following surgery.
Spinal cord injury following posterior decompression in patients suffering from chronic, cervicothoracic spinal cord compression is a known complication with multiple etiologies. Currently, intraoperative neuromonitoring (IONM) remains the gold standard for predicting and preventing post-operative deficits from these procedures. However, there is a paucity in the field of spine surgery for further, non-invasive biomarkers that can help detect and prognosticate the degree of spinal cord injury intraoperatively. Contrast enhanced ultrasound (CEUS) is a radiation free imaging modality that utilizes nanobubble technology to allow for visualization of the macro- and microvascular architecture of soft tissue structures. Despite being currently approved for the use in hepatology and cardiology, it has remained absent from the field of spinal cord injury. The study team aims to evaluate and quantify micro- and macrovascular changes that lead to areas of hyper-perfusion as well as areas of ischemia intraoperatively in patients that undergo elective cervicothoracic posterior decompression for chronic compression. In addition, the study team aims to assess the efficacy of CEUS in detecting microvascular changes that correlate with IONM changes and predicting degree and recovery of post-operative neurologic deficits from intraoperative spinal cord injury. The study team hypothesizes that following decompression, subjects will have detectable levels of microvascular changes causing areas of hypoperfusion and reperfusion injury. Second, the study team hypothesizes that these perfusion changes will correlate with intraoperative neuromonitoring changes and can predict and prognosticate the degree of post-operative neurologic injury.
The proposed research is an important extension of an ongoing perioperative personalized analgesia and intravenous opioid pharmacogenetic research. This research focuses on two of the most commonly used oral opioid analgesics, oxycodone, and methadone, in adults following lumbar spinal fusion and decompression surgery. Genetic signature and combinatorial pharmacogenetic approaches perform better than single-gene associations. This innovative translational research will for the first time evaluate simultaneously the effects of multiple genes and interactions on oxycodone and methadone's pharmacokinetics and optimal clinical dosing and on its safety and efficacy in the highly vulnerable pediatric population. This research's multigenetic signature findings can be easily extrapolated to adults undergoing surgery or using oxycodone and/or methadone for chronic and cancer pain and in identifying opioid abusers at risk of severe respiratory depression and death. When methadone is given in addition to oxycodone for inpatient pectus excavatum repair and idiopathic scoliosis spinal fusions according to new departmental protocols, methadone pharmacokinetics and pharmacodynamics will also be evaluated.
One of the primary goals of spine surgery is to reduce pain and increase mobility to improve patients' quality of life. Currently, there is no established method for surgeons to objectively track their patients' mobilization postoperatively. This study is the first prospective trial utilizing the Apple Watch to objectively track patients before and after elective spine surgery. The investigators hypothesize that the ability of patients to track their own activity and discuss with their surgeon objective mobilization goals will not only help patients achieve empowerment in their own care but also improve their overall satisfaction and self-reported outcomes after spine surgery.
This single-institution prospective case series (single arm) study will assess the clinical outcomes of patients diagnosed with 1 or 2 level level discogenic low back pain following an intradiscal injection of bone marrow aspirate concentrate (BMAC).
The purpose of this study is to compare the clinical results between two different techniques for ACDF: 1. Stand-alone ACDF, which means the placement of an interbody device (cage) without anterior fixation or plating; 2. ACDF with and interbody cage and anterior plating for fixation. Both of these procedures are commonly performed at Rush with unclear advantage of one procedure over the other. Both have been associated with good to excellent clinical outcomes. The devices used in this study are approved by the Food and Drug Administration (FDA).
Patients presenting for lumbar spine surgery experience pain related to their spine condition. Following surgery, these patients also experience surgical pain resulting from disruption of skin, muscle tissue, vertebrae, intervertebral discs, and facet joints. This pain is often treated with opioid medications - with roughly 40% of patient experiencing sub-optimal pain management. Adequate pain control has become a top priority among professional societies, healthcare systems, and accrediting agencies. The current proposal will provide this critical evidence of feasibility and acceptability of a multi-modal pain management plan for patients undergoing lumbar spine surgery. Additionally, this study will provide critical preliminary data to compare the effectiveness of protocol-driven multi-modal pain management to control post-operative pain, reduce opioid medication use, and improve physical activity, sleep, and health.
Low back pain (LBP) is a complex condition that affects 65-85% of the population, and is the leading musculoskeletal condition contributing to disability in the United States. Disc herniation is the most common injury and 75% of individuals undergoing surgical and rehabilitative interventions for this condition experience suboptimal or poor outcomes. These patients demonstrate disability and deficits in functional capacity, including strength and endurance of the lumbar musculature. Muscle-specific changes in individuals with LBP include altered muscle volume, fatty infiltration and fibrosis, and fiber area and type. Importantly, these changes are insensitive to rehabilitation in patients with continued chronic or recurrent symptoms. While normal disuse-related atrophy in the presence of LBP is expected, more severe or chronic pathology, such as inflammation and fiber damage, may be inducing irreversible fiber degeneration and fatty/fibrotic tissue changes that impair muscle function and recovery. While the structural and adaptive capacities of healthy muscle are well understood, muscle recovery in the presence of pathology is less clear. To address this gap in knowledge, the purpose of this project is to compare structural, physiological, and adaptive responses of muscle in the presence of acute and chronic lumbar spine pathology. The central hypothesis is that chronic injury results in a state of muscle inflammation, atrophy, fibrosis, and muscle degeneration that is not responsive to exercise. The Investigators will identify which patients respond to exercise by examining muscle hypertrophic, fibrotic, inflammatory, and adipogenic gene expression profiles. Patients will be followed for six months post-operatively to measure muscle recovery and strength.
The purpose of this study is to determine if light sedation with spinal anesthesia reduces the incidence of delirium compared to receiving general anesthesia during spinal surgery in older adults.
The Viper Prime/Expedium spine systems are intended to provide immobilization and stabilization of spinal segments in skeletally mature patients as an adjunct to fusion in the treatment of acute and chronic instabilities or deformities of the thoracolumbar and sacral spine. The Fibergraft Bioactive Glass (BG) is engineered to mimic the body's natural bone healing process. While previous studies have compared the use of Viper prime/Expedium spine system in minimally invasive and open surgeries, these studies did not specifically study the clinical and radiographic outcomes of patients who have received these implants in addition to Fibergraft. We aim to recruit patients with degenerative disc disease, spondylolisthesis, trauma, and/or pseudarthrosis who require spine surgery under standard of care and use these implants. We will then follow these patients for a duration of two years to report their clinical and radiographic outcomes to determine fusion, complication rate, and revision surgeries if any.
Intraoperative Neuromonitoring (IONM) is a tool used by neurophysiologists during spine surgery to prevent irreversible damage to the spinal cord during procedures through a system of alerts. This study investigates the effectiveness of IONM in 300 participants receiving spine surgery. The goal of this study is to refine the alert criteria for procedures in which IONM is used.
Motor Evoked Potentials are an aspect of intraoperative neuromonitoring, a tool used by neurophysiologists during surgery to prevent irreversible damage to the spinal cord during procedures. This study investigates the utility of three separate quadriceps MEP recording approaches over a total of 40 limbs (20 participants).
The purpose of this research study is to examine the effects of physical therapy on the spinal discs. Back pain is the number one cause of disability in the US, and the spine is the most common location of chronic pain in Veterans. Physical therapy is often very effective at improving patients' back pain, but it does not work for everyone, and it is not understood how physical therapy alters the tissues within the spine. With this research the investigators hope to learn if the investigative team can measure changes to the spinal discs on MRI scans that might predict if a patient's back pain will improve with physical therapy or not.
The study is intended to demonstrate that the NuCel® allograft is effective and safe in promoting bone growth and fusion rate when used in cervical fusion in patients with one, two or three-level diseases of the cervical spine.
The purpose of this study is to determine whether NuCel is effective in promoting spinal fusion in degenerative disease of the lumbar spine.
The objective of this study is to provide pain relief to patients with facet joint disease or head and neck pain related to compression of a nerve root. The goal is to provide palliative care with superior efficacy and longer relief compared to current methods.
The purpose of the research is to collect and examine spinal disc and ligament tissues to see if there are any biological markers that can be correlated with MRI images to help us learn more about causes of back pain. Spinal discs are the pillow-like cushions between the bones of the spine. They act as shock-absorbers for the spine. Spinal ligaments support the disc structure during movement.
In spine surgery, postoperative spinal drains are often utilized to prevent fluid buildup around the spinal cord. The purpose of this study is to determine whether postoperative antibiotic treatment continued for the duration of time a drain is in place results in a lower infection rate than antibiotics given for only 24 hours postoperatively.
The Spine TRACK Spinal Surgery Registry is a prospective multi-center observational data collection initiative, to capture clinical and radiographic outcomes in candidates for spine surgery with degenerative, deformity, and traumatic pathologies. As an observational database, there are no initial driving hypotheses, but rather data will be mined to answer unforeseen questions, but which may include broad topics such as comparative effectiveness between and among various surgical treatment options, and/or outcomes in various subgroups of patients such as defined by demographics, comorbidities, indications and symptoms, treatment variables, and/or outcome variables.