View clinical trials related to Intervertebral Disc Displacement.
Filter by:Motorized traction and non-surgical spinal decompression treatments are relatively new treatments for which there is insufficient evidence in the literature. In this study investigators aimed to retrospectively compare the effectiveness of these treatments, which are in the field of their routine practice in their clinic.
In order to further investigate the key brain targets and central response mechanism characteristics of analgesia, the dominant disease of LDH was taken as the object of this study, which was divided into operation group, comfort group and healthy subjects group. Firstly, DTI probabilistic tracking method was used to detect the changes of the brain white matter in each group. Then, the low-frequency amplitude (mfalff) and local consistency (ReHo) of each group were compared by fMRI scanning imaging technology, and the features of local brain functional connectivity (FC) of pain matrix related brain regions as seed points were analyzed. Finally, MRS Technique was used to detect the brain signals of related metabolites glutamic acid (Glu) and 1-aminobutyric acid (GABA), so as to elucidate the network regulation of lever-positioning operation on the analgesic brain effect of LDH and the biochemical mechanism of central nervous system. This multimodal MRI technique provides biological basis for the clinical application of lever localization in LDH.
Application of 3D printing guide plate in percutaneous disc decompression
The most common cause of lumbar radicular pain is intervertebral disc herniation with or without pressure on the nerve root, which leads to inflammation and pain. Just as the mechanical component is important, so is the inflammatory component in the etiology of lumbar radicular pain. Numerous pro-inflammatory and anti-inflammatory proteins were found in serum, cerebrospinal fluid and disc biopsies from patients with lumbar radicular pain. Interleukin(IL)-1β, IL-6, IL-8, and tumor necrosis factor TNF-α are the most frequently investigated (8, 9). Elevated levels of IL-6 and TNF-α were found in patients with lumbar pain caused by intervertebral disc herniation. In order to avoid systemic and unwanted effects of analgesics, undergoing anesthesia and long-term and extensive operations, minimally invasive procedures are increasingly used in the treatment of lumbar radicular pain. Epidural administration of steroids and local anesthetic through a transforaminal approach (ESI TF) and percutaneous laser disc decompression (PLDD) are some of these methods. Lumbar radicular pain occurs due to inflammation and/or disc-radicular contact. Corticosteroids interrupt the inflammatory process, the transmission of pain signals via nociceptive C fibers and reduce capillary permeability. Along with the corticosteroid, a local anesthetic is also applied, which leads to immediate analgesia by blocking the conduction of painful impulses by blocking sodium channels. Percutaneous laser disc decompression (PLDD) is a minimally invasive method of treating lumbar radicular pain performed under local anesthesia under fluoroscopic control. The laser energy leads to the heating of the tissue of the nucleus pulposus, which leads to the evaporation of a small volume of water inside the disc. Viewing the disc as a closed hydraulic system, a small decrease in the water content within the disc leads to a disproportionate decrease in intradiscal pressure, which results in retraction of the herniated disc. Thermal energy leads to protein denaturation, which causes structural changes and thus prevents further retention of water in the disc, and a stable scar is created at the point of laser action. On the basis of current knowledge, an attempt is made to establish a link between inflammatory parameters as predictive and prognostic biomarkers in the treatment of patients with lumbar radicular pain caused by intervertebral disc herniation.
Recently, percutaneous endoscopic lumbar discectomy (PELD) is also commonly performed for lumbar disc herniation. Following discectomy, the relief of leg pain is common; however, the relief of back pain is less predictable. The association of back pain and lumbar disc herniation is still unclear. PELD and Annuloplasty (PELDA) can relieve back pain associated with disc herniation as well as leg pain through decompression and thermal ablation of annular defects in selected patients. Another problem that rapidly increasing go along with the growing number of microdiscectomies is directly proportional to the number of patients who undergo re-operations due to recurrences. The surgical treatment can be helpful in prevention of re-operations is nucleoplasty. Endoscopic discectomy for lumbosacral herniation supplemented with nucleoplasty can reduce the recurrence and reoperation rates.
to investigate the effect of electromagnetic field therapy on sciatica and postural control in lumbar disc prolapse patients BACKGROUND: lumbar disc prolapse is a clinical condition resulting from compression of lumbar nerve roots resulting in decreased postural control and alleviating sciatic pain Pulsed electromagnetic field (PEMF) therapy is an easy, non-invasive, safe, and relatively new treatment method that is used with growing interest in physical and rehabilitation medicine. Historically, the benefits from magnetotherapy have been reported for patients with musculoskeletal and neurological disorders
Nerve compression due to lumbar disc herniation and related radicular pain is a very common condition when the lifetime prevalence is considered. Lumbosacral radicular pain can be defined as pain originating from the lumbar level and spreading to the lower extremities along the distribution area of one or more spinal nerves. It is thought that the mechanical pressure of the disc material herniated to the dorsal nerve root or ganglion or the inflammation created by the chemokines and enzymes in the disc are involved in the pain formation mechanism. Various methods such as medical agents, physical therapy modalities, epidural steroid injections and surgical methods can be used in the treatment of the related condition. Epidural injections have been used for the treatment of lower back and lower extremity pain since about 1900. Epidural injections exert their effects through the anti-inflammatory and neural membrane stabilizing effects of steroids, as well as by local anesthetics increasing blood flow to the ischemic spinal root and by the removal of cytokines from the area by the injection material. Epidural injections can be performed with various different approaches, including caudal, interlaminar and transforaminal. Among these approaches, the transforaminal approach is the most recently developed approach in the late 1990s, which allows drugs to be administered directly to the pathology area. The effect of obesity, which is one of the factors thought to predispose to low back pain and lumbosacral radicular pain, has been evaluated in various studies and it has been found that it is positively correlated with low back pain and is an independent risk factor for lumbar herniation. So, does obesity have an effect on the success of transforaminal epidural steroid injection treatment? According to the literature, no significant effect on treatment success has been demonstrated. Although the body mass index, which is used in the evaluation of obesity, has provided us important information about the health of the person in general for a long time, it is now thought to lead to an incomplete assessment. Because it does not provide information about body composition ratios (fat amount / lean body mass). Studies have shown that there is a high correlation between the percentage of body fat and the thickness of the subcutaneous fat tissue in the lumbar region, and there is a significant relationship between the lumbar region subcutaneous fat tissue thickness (especially L1-L2 level) and the degree of intervertebral disc degeneration and vertebral surface change. From this point of view, in another study, the L1-L2 disc level subcutaneous fat tissue thickness, was called the subcutaneous fat index, and the cut-off values that showed a significant relationship with spinal degeneration were determined. In the study we planned, in cases of spinal radicular pain (etiologically caused by intervertebral disc herniation), body mass index, lumbar level subcutaneous fat tissue thickness and subcutaneous fat index data whether be or be not correlated with treatment effectiveness/success in patients who received transforaminal epidural steroid injection, and if so, the level of significance intended to work. Before applying for surgery, we aim to develop a practical approach that can be used by relevant clinicians and contribute to the literature, which can predict 'what level of treatment success can we achieve in which patient?' with this injection method.
In this clinical trial, equivalence is evaluated by exploratory comparison of changes in X-Ray lesions with test group (Cerazem Master V6) and control group (physical therapy) in patients with intervertebral disc herniation and degenerative stenosis.
The aim of this study is to compare the effects of written and video based home exercise program in patients with symptomatic lumbar disc herniation on pain level, function and quality of life.
This was a randomized controlled trial conducted to examine the changes in the pain, physical function, quality of life, and kinesiophobia of participants with non-specific neck pain in Marmara University Physiotherapy and Rehabilitation Department. This study was approved by the Clinical Studies Ethics Committee of Marmara University Faculty of Health Sciences in January 2022 and was carried out in accordance with the Declaration of Helsinki. The participants were informed about the study and their consent was obtained.