View clinical trials related to Chronic Low Back Pain.
Filter by:The goal of this study is to compare the effect of aquatic exercises (AEG) to the aquatic exercises plus aerobic training (deep-water running) (AEDWRG) on functional status and pain in patients with specific chronic low back pain.
Chronic low back pain (CLBP) is very common and causes much pain and disability. It costs the NHS billions of pounds in treatment every year and is the second leading cause of time off work. There are various treatments for CLBP, but the most effective are still only moderately helpful. Most people with CLBP receive physiotherapy, with varying results. Cognitive behaviour therapy (CBT) may offer more long term help than current treatments because it enables people to self-manage their condition. A new type of CBT, called Acceptance and Commitment Therapy (ACT), has produced particularly good results for chronic pain. However, a shortage of clinical psychologists means that most patients never receive CBT. Physiotherapists can successfully use CBT techniques with extra training, but this is not standard practice and ACT-based physiotherapy treatment has never been tested. The investigators have developed a short ACT-based treatment (PACT) for physiotherapists to deliver and aim to compare it with usual physiotherapy care. The investigators will recruit 240 people with CLBP from three hospitals in South East London. They will be randomly divided into two groups, with half receiving PACT and the other half ordinary physiotherapy. PACT consists of two hour long sessions and one follow-up phone call, meaning fewer hospital visits for patients and more time during sessions for individualised treatment. It aims to encourage people to focus less on getting rid of their pain and more on moving forward with what is most important in their lives. The investigators will compare PACT with usual physiotherapy to see which is most successful at improving people's ability to function and their quality of life and which approach helps them to manage their back pain best in the long term. If PACT is effective, the investigators believe it could reduce the considerable burden of CLBP to patients, the NHS and society.
This study evaluates the Freedom SCS (spinal cord stimulation) System for the treatment of chronic back and leg pain. Patients who have been diagnosed with failed back surgery syndrome (FBSS) will receive a stimulator device for treatment of their pain.
Nowadays, the research priority in low back pain area have been find subgroup of patients with the same characteristics that might achieve better outcomes in a specific intervention. However, even though the studies in this area have increased, questions of this nature remaining without an adequate answer, or with limited evidence. Therefore, the investigators propose to examine the ability of clinical tests, developed to assess alterations related to clinical lumbar instability, to identify subgroups of patients with non specific chronic low back pain that may have better outcomes after a motor control exercises intervention.
Neuropathic pain results from damage to or dysfunction of the peripheral or central nervous system, rather than stimulation of pain receptors. Diagnosis is suggested by pain out of proportion to tissue injury, dysesthesia (eg, burning, tingling), and signs of nerve injury detected during neurologic examination. Although neuropathic pain responds to opioids, treatment is often with adjuvant drugs (eg, antidepressants, anticonvulsants, baclofen, topical drugs). Neuropathic pain (e.g. phantom limb pain, CRPS, postherpetic neuralgia, postsurgical pain syndromes, CLBP etc.) remains a challenging condition to treat because it is commonly refractory to classical pharmacological and to surgical treatment approaches. Chronic low back pain (CLBP) is a widespread and costly problem for which few interventions are effective. An increased focus on the study of the nervous system and its involvement in pain disorders has documented complex neuronal activity and structural changes at a peripheral, as well as at spinal cord and cortical levels indicating a neuropathic element in CLBP. Accumulated evidence suggests that neuropathic pain in general and CLBP specifically might be associated to brain cortical plastic changes. Thus an ideal rehabilitative approach should aim to reverse them. In line with this idea, the investigators suggest an innovative noninvasive intervention aimed at alleviating neuropathic pain. New rehabilitative approaches have been proposed to try and reverse this cortical reorganization. Results of several studies have shown that motor cortex stimulation with epidural electrodes or repetitive transcranial magnetic stimulation (rTMS) or transcranial direct stimulation (tDCS) are effective in reducing pain in patients with central pain refractory to treatment. Transcranial direct current stimulation (tDCS) is an easily applied and safe technique by which brain activity can be modulated noninvasively and can decrease pain in patients with refractory central pain. The investigators hypothesized that focal-tDCS treatment personally customized to each patients basal neuronal network properties would result in both acute and long term pain relief for neuropathic pain patients.
The purpose of this study is to investigate the effects of a treatment involving the application of lidocaine injected on the low back area for pain control. The study will compare this form of treatment with other options such as physical exercises or pain killer medication, different measurements are going to be used to quantify the response to each of these treatments.
The Investigators have designed this exploratory study in patients suffering from zygapophysial joint mediated pain to investigate if a correlation exists between inter-individual genetic variability (genotype) with treatment response (phenotype). More specifically, the investigators aim to identify any form of correlation between a specific SNP of the BDNF gene (Val66Met) and the effectiveness and/or duration of radiofrequency facet joint neurotomy. The study population is patients suffering from chronic low back pain who have been scheduled for radiofrequency neurotomy following the diagnosis of facet joint mediated pain (using medial branch block test). The investigators will evaluate if a common variant of BDNF gene (Val66Met) can be directly correlated to a significant degree of pain relief following RF treatment, and whether the result of such a procedure can be predicted from a specific genetic profile.
Nearly 50% of U.S. veterans report they experience pain on a regular basis. This chronic pain often co-occurs with other disorders including post-traumatic stress disorder (PTSD), depression, anxiety and insomnia. A common approach to treating chronic pain is opioid analgesics, which are not always effective, and increasingly associated with abuse and misuse. Thus, there is an urgent need to develop readily available, safe, and practical complementary nonpharmacological approaches to manage chronic pain in U.S. veterans. Chronic pain is a multidimensional phenomenon, inter-related with many factors, including negative mood and poor sleep. The central circadian clock, in the suprachiasmatic nucleus in the hypothalamus, is well recognized to regulate both mood and sleep, and even small delays (shifts later) in circadian/sleep timing are associated with depression and disrupted sleep. These results suggests that later circadian/sleep timing may be a modifiable risk factor for pain. Thus, a self-administered morning bright light treatment at home may be a potentially efficacious adjunctive strategy for managing chronic pain. This R34 grant will develop a morning bright light treatment to help manage chronic pain and improve PTSD symptoms, depression, anxiety and sleep in U.S. veterans. Patients will have 7 baseline days at home, followed by a baseline pain sensitivity assessment and home circadian phase assessment (dim light melatonin onset). Following an instructional home visit, patients will then self-administer morning bright light treatment for 6 days, followed by reassessments of pain sensitivity and circadian phase. Assessments will be repeated after another 7 days of morning bright light treatment. Pain, mood and sleep (wrist actigraphy) will be assessed daily throughout baseline and treatment. Pain, mood and sleep will also be rated by veterans daily during a 1 month follow up after cessation of light treatment. This study will determine the feasibility, acceptability and efficacy of bright light treatment in a sample of U.S. veterans experiencing chronic low back pain.
Our aim is to assess usability and compliance of a wireless pedometer for monitoring step count after a lumbar epidural steroid injection for the treatment of radicular pain in low back pain patients. Our main hypothesis is to demonstrate pedometer measured step count can be used to measure efficacy of pain interventions.
The purpose of this study is to compare the added effects of TENS and Supervised Motor Control Exercises (SMCE) over Unsupervised Home Exercise Program (UHEP) on disability, pain and other outcomes.