View clinical trials related to Radiculopathy.
Filter by:The objective of this study is to collect clinical and radiographic outcomes using the CONDUITâ„¢ Interbody Cervical System with supplemental fixation using a DePuy Synthes Cervical Plating System.
This study will be conducted to compare the effect of sustained natural apophyseal glides (SNAGS) versus neural mobilization on clinical outcomes such as 1- nerve root function in the form of: (A) peak to peak amplitude; (B) latency; (C) F wave. 2- pain pressure threshold (PPT) and 3- Neck disability index (NDI) in patients with cervical disc (C5-C6 and/or C6-C7) herniation. Seventy two patients from both gender with cervical disc (C 5-C 6 and/or C 6- C7) herniation with both sensory and motor nerve affections will be recruited for this study following referral from an experienced neurologist and confirmed diagnosis by MRI. The patients' age will range between 20-50 years, body mass index (BMI) from 18 to 25 kg/cm2. The patients will be assigned randomly by permuted block to three equal groups; group (A) will receive SNAGS in addition to traditional therapy, group (B) will receive neural mobilization in addition to traditional therapy and group (C) will receive traditional therapy. peak to peak amplitude, nerve latency and F wave will be measured by electromyography, , pressure pain threshold will be measured by commander algometer. Neck disability will be measured by Arabic neck disability index.
Low back pain is one of the leading causes of disability, and its social burden and economic cost are quite high. Although there are many causes that can lead to low back pain, radicular pain, which develops mostly secondary to lumbar disc hernias, is one of the most common pathologies. Epidural corticosteroid and local anesthetic injections are an important treatment option in the treatment of lumbar radicular pain that does not respond to conservative methods. For fluoroscopy-guided epidural injections; transforaminal, interlaminar and caudal approaches may be preferred. It is accepted as the superiority of the transforaminal approach that it allows access to the area of pathology, thus to the anterior epidural area where inflammatory mediators are more concentrated, and that it can spread to the target specifically around the inflamed nerve roots. In transforaminal epidural injections, the use of ultrasound as the sole imaging tool throughout the entire procedure is still not appropriate, as subbony structures cannot be visualized. However, ultrasound can be integrated at any stage of the process. Thus, the relatively inexpensive cost, portability, and ability to show non-osseous tissues of ultrasonography are utilized, particularly in terms of reducing radiation exposure. Gofeld et al. claimed that ultrasound-guided transforaminal epidural injection could be performed by targeting the posterior part of the vertebral body. However, in cases where the lamina is wide and covers the posterior of the vertebral body, it may not be possible to sonographically view the vertebral body. In addition, although the intervertebral disc is differentiated from the corpus, loss of fluid content in the elderly can cause acoustic shadowing in the disc. This may result in accidental intra-disc injections. Finally, even if the target point is reached, it is not possible to show intravascular spread at this level ultrasonographically. Therefore, in our opinion, this method is unreliable for transforaminal epidural injections. Another study used ultrasound and fluoroscopy together for transforaminal epidural injections. After imaging the lamina of the relevant vertebral level sonographically, the needle is directed to the lateral edge of the lamina, then fluoroscopic imaging is performed after it passes under the lamina with the loss of resistance technique. However, it should be known that the loss of resistance technique is not a suitable and reliable method in transforaminal injections. In addition, since it is not known how far the lamina has progressed after it has passed under the bone, in other words, imaging guidance is disabled in this part of the process. In our clinic, we use ultrasonography and fluoroscopy methods in an integrated way (hybrid method) for transforaminal epidural injections. For this purpose, we proceed to fluoroscopic imaging immediately after the spinal needle is advanced to the lateral edge of the lamina at the vertebral level where there is pathology with ultrasound. We think that with this method, we continue to stay in the safe window and reduce the radiation dose and procedure time. Based on this, we determined the aim of this study as the effect of including ultrasonography guidance in transforaminal epidural injections on radiation dose and procedure time.
Study team will plan a prospective, randomized control trial using our institution's spine clinical outcomes registry. Eligible patients undergoing ACDF (see inclusion criteria listed below) will be randomized to an Intervention or Control Group, which will differ according to the interbody cage used during the procedure. In the Intervention Group (100 patients), Medtronic Titan Endoskeleton TCS zero-profile, stand-alone interbody cages with nanoLOCK osseointegrative technology will be implanted at each treated level. In the Control Group (100 patients), patients will receive an alternative interbody cage system that does not employ nanoLOCK ossteointegrative technology. Interbody cages used in the Control Group (along with the decision to apply anterior plate fixation) will be determined according to surgeon preference. There will be no blinding to the type of implant used. Standard demographic and procedural variables will be collected for all patients (including history of diabetes, tobacco, use, prior use of oral corticosteroids, number of levels fused, and presence of bicortical screw placement). Clinical and radiographic outcomes in the Intervention and Control Groups will be directly compared.
Cervical radiculopathy is a pain and/or sensorimotor deficit syndrome that is defined as being caused by compression of a cervical nerve root. The compression can occur as a result of disc herniation, Spondylosis, instability, trauma, or rarely, tumors. Thoracic spine manipulation (TSM) is defined as a high-velocity/low amplitude movement or "thrust" directed at any segment of the thoracic spine. Recent research has shown that Thoracic Joint Manipulation directed to the thoracic spine provides a therapeutic benefit to patients with neck pain and has been suggested as an appropriate strategy to minimize the risks associated with manipulation of the cervical spine
Patients with refractory cervical radiculopathy can get benefit from radiofrequency ablation using specific voltage current to obtund chronic brachialgia. We will compare standard versus supra-voltage current in the efficacy of ablation using numeric rating scale as a primary outcome.
The primary objective is to use machine learning methods on large survey and health register data to identify participants with different treatment trajectories and health outcomes after surgical and/or conservative treatment for spinal disorders. Secondary objectives are to 1) conduct external validation of the prediction models, and 2) explore how the prediction models can be implemented into AI-based clinical co-decision tools and interventions.
The goal of this Randomized controlled trial was to examine the effect of routine physical therapy with and without core stability exercises in patients with lumbar radiculopathy. The main question it aims to answer is: • To examine the effect of routine physical therapy with and without core stability exercises in patients with lumbar radiculopathy Participants after reading and signing the consent form were included in study according to eligibility criteria and were allocated in to 2 groups, the Standard Physical Therapy treatment along with core strengthening exercises. Core strengthening exercises were carried out in their respective standard positions (were modified according to patient's comfortability). We measured outcome through different outcome measure tools.
This study is a First in Human, prospective, multi-center clinical study intended to collect safety and performance information for the Spinal Stabilization Technologies PerQdisc® Nucleus Replacement System and procedure concurrently following a successful discectomy using a minimally invasive posterolateral (MIPL) approach. Patients that are at least 21 years or older, presenting with symptomatic radiculopathy from a focal lumbar disc herniation that requires surgical decompression will be included in this study.
The purpose of this study is to compare the Microendoscopic combined with ultrasound technique to the standard routinely used X-ray guided transforaminal steroid injection technique.