View clinical trials related to Radiculopathy Lumbar.
Filter by:This study will compare two methods of electrical stimulation (alternating current and direct current) as an adjunctive therapy to treating lumbosacral radiculopathy. Both types of electrical stimulation have been used in clinical practice for physical therapy, however direct current stimulation is much less common and there is less known about its impact on physical therapy outcomes. The aim of this project is to show the efficacy of a novel device, the Neubie direct current device, compared to traditional TENS unit in clinical physical therapy treatment of radiculopathy. Outcomes measured will include: pain intensity, functional status, neurological status, electrophysiological changes and patient satisfaction.
Low back pain is a common disease in all ages and it effects seriously quality of life. Medical treatment,interventional methods and surgery are the treatment options. Transforaminal epidural steroid injections (TFSI) is one of the interventional method for radiculopathy with low back pain. Michigan State University(MSU) classification is a MRI based disc herniation classification. It helps to classified disc herniation in types, places and sizes. The aim of this study to evaluate the pain and oswestry disability index in patients who have radiculopathy with low back pain, undergone TFSI according to MSU classification.
Low back pain is the predominant cause of disability on a global scale. In the year 2015, the worldwide point prevalence of activity-limiting low back pain stood at 7·3%, suggesting that at any given moment, 540 million individuals were afflicted. In that same year, low back pain emerged as the primary cause of involuntary labor leave and premature retirement within Europe. In the United States, 44% of patients have utilized their health insurance for low back pain at least once, and 1 to 2% (approximately 3 million individuals) exhibit symptoms of sciatica as a result of a lumbar intervertebral disc herniation. Given the prevalence of disorders attributable to L4-L5 and L5-S1 intervertebral disc herniation, it is imperative to consider the potential risks associated with both surgical and non-surgical medical interventions, such as corticosteroid injections. Laser therapy emerges as a viable modality within the realm of physical therapy, particularly in the mitigation of inflammation. The modulating effects of laser therapy on inflammation have been documented, with no significant side effects reported thus far. Should the efficacy of laser therapy be substantiated, it could be incorporated into the suite of treatments endorsed by authoritative guidelines pertaining to back pain. Patients afflicted with radicular back pain have been the beneficiaries of assistance from physiotherapists possessing specialized knowledge in effective dosimetry. The objectives of this assistance include the amelioration of pain symptoms, the enhancement of functional indicators, the augmentation of the range of motion, and the modulation of the pressure pain threshold, all without the concern of side effects. Furthermore, adherence to the correct treatment protocol is of paramount importance. The main objective of this study is to evaluate the effect of active high-power laser compared to sham laser on pain, disability, range of motion, and pressure pain threshold in patients with radicular low back pain due to lumbar intervertebral disc herniation.
The overall purpose of the study is to investigate whether selective spinal nerve root blocks can improve diagnostics of radiculopathy due to lumbar disc herniation (LDH), foraminal stenosis (FS), and recess stenosis (RS), and hence identify the patients that will benefit from surgical intervention.
The goal of this cross-sectional case control study is to investigate the cardiovascular risk in digital osteoarthritis. This study aims to compare the cardiovascular risk between group of patients with digital osteoarthritis and control group of patients with non-osteoarthritis disease paired by measurement of carotid intima-media thickness. All participants will undergo an ultrasound scan to measure carotid intima media thickness, a clinical assessment with the rheumatologist and a cardiovascular risk assessment.
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.
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.
Low back pain is one of the leading causes of disability and its social burden and economic cost are quite high. The lifetime prevalence in the population is frequently reported between 40% and 70%. Although there are many reasons that can lead to low back pain, radicular pain, which develops mostly secondary to lumbar disc hernia, 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. epidural injections; includes transforaminal, interlaminar and caudal approaches. The advantage of the transforaminal approach is that it allows access to the anterior epidural area, which is the region of pathology, and that it can spread to the target specifically around the inflamed nerve roots. The standard imaging technology used for steroid injections with this approach is fluoroscopy. However, the aforementioned approaches carry the risk of dural puncture, epidural hematoma, epidural abscess, nerve damage, paralysis and many complications. In addition, radiation exposure is another problem. It may be possible to avoid a significant part of these risks by applying interfacial blocks used in regional anesthesia and postoperative pain control in the lumbar region. Recently, Erector Spina Plan Block (ESPB), an interfascial block technique, has been frequently applied under ultrasound (US) guidance as an alternative method to conventional paravertebral block. Investigators also frequently refer to this procedure in the clinic for patients with lumbar radicular pain. In the literature, there are case reports of lumbar ESPB applied to patients with radicular pain due to disc herniation. Beyond case-level reports, there is no clinical study investigating the efficacy of this procedure technique for applications in the lumbar region. Starting from here, the aim of this study is; Investigators determined to compare the efficacy of erector spina plane block and transforaminal anterior epidural steroid injections in patients with radicular pain due to lumbar disc herniation.
The purpose of this study is to demonstrate the efficacy of intramuscular betamethasone injection on pain and other clinical parameters in patients with radicular pain due to lumbar disc herniation. The investigators also aimed to determine the effects on electrophysiological findings.
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.