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NCT06155409
The goal of this observational study is to confirm the safety and efficacy of the Hexanium ACIF system in the treatment of skeletally mature patients suffering from degenerative disc disease (disease that occurs when the spinal disk breaks down) at the cervical spine level (C3-C7). Part of their standard of care, participants will be questioned on their neck and arm pains, their disability and if they have encountered any adverse effects since the Hexanium ACIF system implant surgery. Those data will be collected up to twenty four (24) months after the Hexanium ACIF system implant surgery.
NCT07044206
Disc degeneration is a progressive deterioration process of the intervertebral disc, which can manifest as significant low back pain and a loss of mobility that interferes with daily activities. This condition is naturally age-related and exacerbated by traumatic events, lifestyle factors, and individual genetic susceptibilities. Treatment for advanced disc degeneration typically involves surgery (spinal fusion) aimed at addressing and fusing the affected intervertebral discs using an interbody implant combined with a bone graft. Although the use of interbody implants promotes temporary fusion, long-term success largely depends on the bone substitute used, with failure rates ranging from 10 to 20% (unsuccessful fusion, persistent symptoms, need for reoperation). Historically, autologous bone grafting was the standard, but it carries disadvantages related to pain and invasiveness. Synthetic, bioactive bone substitutes are now used, although their effectiveness varies. Animal studies support the hypothesis that a new substitute based on specific osteo-immunology technology (MagnetOs, Kuros) could offer superior results compared to autologous bone grafts and competing osteo-inductive materials, while being minimally invasive. This study aims to evaluate its properties in terms of bone fusion and its impact on functional scores in patients, hypothesizing a significant improvement in fusion rates and functional scores with this new substitute.
NCT07414745
The purpose of this clinical trial is to compare the efficacy and safety of this investigational device with autologous iliac bone graft (ICBG) in patients who are deemed to require bone fusion through spinal fixation at two levels (ALIF or OLIF) due to disc degeneration or spinal deformity in the lumbosacral spine (L2-S1) for intervertebral support and correction with the aim of stabilizing the spine.
NCT02617563
The purpose of this study is * to evaluate the effectiveness of MAST techniques for anterior/lateral and posterior approaches in Degenerative Disc Disease (DDD) patients with spondylolisthesis (≥ grade I). * To assess how single or double level MAST(Minimal Access Spinal Technologies) fusion procedures PLIF (Posterior Lumbar Interbody Fusion), TLIF (Transforaminal Lumbar Interbody Fusion), DLIF (Direct Lateral Interbody Fusion), OLIF (Oblique Lumbar Interbody Fusion), ALIF (Anterior Lumbar Interbody Fusion), or MIDLF (Midline Lumbar Interbody Fusion) are used in surgical practice and to describe long-term safety and effectiveness in a broad patient population of patients with degenerative lumbar disc disease .
NCT05305430
This trial is a real world data (RWD) collection observational study, comprised of both prospective and retrospective arms, that will examine the safety and effectiveness of the Synergy Cervical Disc System in patients with degenerative cervical disc disease.
NCT07168603
This is an open-label, single-center Phase I/II clinical trial investigating the safety and efficacy of autologous nucleus pulposus cells (aNPC) in patients with disc degeneration. Eligible participants are those assessed by the principal investigator to have disc herniation suitable for discectomy and confirmed disc degeneration. During the treatment period, participants will receive a single injection of autologous nucleus pulposus cells at a concentration of approximately 1×10⁶ viable cells/mL with a total volume not exceeding 3 mL. The injection will be guided by C-arm X-ray to ensure accurate placement into the degenerated central nucleus pulposus of the disc from which tissue was previously harvested. Participants will be followed for 12 months. Safety assessments will primarily include monitoring for inflammatory responses using ESR and CRP after cell injection, as well as recording any treatment-emergent adverse events (AEs). Efficacy will be evaluated using pain assessment and imaging outcomes, including lumbar X-ray and MRI reviewed independently by a radiologist. Additionally, patient-reported outcomes will assess quality of life improvements following treatment using the Visual Analogue Scale (VAS), Activities of Daily Living (ADLs), and the Oswestry Disability Index (ODI). Laboratory tests, including CBC/DC, BUN, creatinine, AST, and ALT, will also be conducted throughout the treatment and observation period to monitor participant safety.
NCT03853356
This study aims to evaluate the performance and safety of the Orthoss® as a bone graft extender in lumbar spondylodesis involving 1-2 levels (L4-L5 and/or L5-S1).
NCT07127380
Background Degenerative disc disease (DDD) is the leading cause of lower back pain and disability, which prevalence increasing with age. When conservative treatment fails, surgical methods of spinal fusion are employed. Minimally invasive techniques, including minimally invasive transforaminal lumbar interbody fusion (MIS-TLIF) and midline lumbar interbody fusion (MIDLIF), have well-documented advantages over traditional open transforaminal interbody fusion (open-TLIF). However, data comparing these two minimally invasive methods in treating DDD are minimal and sometimes contradictory. I am running a few minutes late; my previous meeting is running over. Methods This is a prospective, randomized, partially blinded, two-arm trial aiming to compare the outcomes, complications, and treatment costs of MIS-TLIF and MIDLIF in patients with discogenic low back pain. A total of 100 adult patients with lumbosacral spine pain and radicular symptoms, unresponsive to conservative treatment for over one year, will be enrolled. Patients will be randomized (1:1) into two arms: MIS-TLIF (control, n=50) and MIDLIF (intervention, n=50), with a 12-month follow-up. Inclusion criteria include age ≥18 years and discopathy at one or two levels requiring interbody stabilization. Exclusion criteria include multilevel pathology, spinal deformities, and pain causes other than degenerative disease. Primary endpoints assess pain (VAS, NRS scales), disability (COMI, ODI questionnaires), and quality of life (EQ-5D-5L questionnaire) at 1, 3, 6, and 12 months post-surgery. Secondary endpoints include complication rates (nerve root damage, infections), costs (hospitalization, implants), length of hospital stay, procedure duration, blood loss, morphometric parameters (intervertebral space height), and adjacent segment disease based on imaging studies (MRI, CT, X-ray). Data analysis uses parametric/non-parametric tests (e.g., t-test, Mann-Whitney) in the R software. The trial adheres to the Helsinki Declaration, with ethics approval (no. 112/2024). Discussion Data on the comparison of MIDLIF and MIS-TLIF in treating DDD are minimal and inconsistent. Some reports have advantaged MIDLIF in shorter operative time, decreased intraoperative blood loss, and reduced hospital stays, while others favor MIS-TLIF. This trial addresses these gaps by providing high-quality evidence on clinical superiority, cost-effectiveness, and long-term outcomes compering MIDLIF and MIS-TLIF. There is a high need for a high-quality, prospective study to examine this problem.
NCT04759105
ACTIVE is a phase II B efficacy monocenter, prospective, randomized, controlled double blinded trial, in which intra-discal autologous adult BM-MSC therapy will be compared with sham treated controls. This trial will evaluate the efficacy of intradiscal injection of autologous BM-MSCs in workers affected by chronic low back pain (LBP) unresponsive to conventional therapy. The efficacy will be evaluated 12 months after the treatment in terms of pain relief (VAS, Visual Analog Scale), functionality (ODI, Oswestry Disability Index), quality of life (SF36, Short Form - 36) and work ability index (WAI).
NCT06615505
VIA Disc NP is an off-the-shelf minimally processed human nucleus pulposus tissue allograft intended to supplement degenerated intervertebral discs. The study is a randomized, double-blind, sham-controlled, multi-center study in participants with symptomatic lumbar intervertebral disc degeneration (\> 6 months) and unresponsive to conservative therapy for at least 3 months. Participants will be randomized on a 1:1 basis to receive either a single VIA Disc NP intradiscal injection at 1 or 2 levels or a sham procedure at 1 or 2 levels.
NCT05648474
This study is designed to evaluate the clinical utility of a known intraoperative neuromonitoring modality (SSEP) using saphenous nerve as the site of stimulation to identify changes to the lumbar nerves which may be at risk during the lateral lumbar interbody fusion (LLIF) procedure.
NCT05098431
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).
NCT03442374
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.
NCT03076658
A study of the skeletal structure and how the structure changes over time. The aim of the study is to evaluate the skeleton in 10 year increments to determine an understanding of the normal skeleton as a person ages. By using x-ray analysis, a new low dose x-ray system (EOS) can be used to evaluate the whole body to see changes in the bone structure over time. Subjects will be asked to undertake one x-ray analysis of their whole body skeletal structure. There will be 25 male and 25 female subjects per decade. The averaging of the measured skeletal parameters will provide information on changes over time generating a standardized expectation of general changes in skeletal structure as participants age.
NCT03133845
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.
NCT02023372
The purpose of this study is to determine whether NuCel is effective in promoting spinal fusion in degenerative disease of the lumbar spine.
NCT01557829
This study randomizes degenerative spondylolisthesis and/or degenerative disc patients into two groups: one to receive a new ceramic implant and a control group with a more traditional PEEK plastic implant. The procedure uses a single oblique cage in each group. The study will measure and compare pain and disability improvement with the two implanted devices over a period of two years. The fusion status will also be judged with plane x-rays and one CT scan.
NCT01158924
Study to show the safety, tolerability and preliminary effectiveness of Intradiscal rhGDF-5 in subjects with early lumbar disc degeneration.