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Active clinical trials for "Neuralgia"

Results 301-310 of 1062

Local and Widespread Hypoalgesic Effects of Neurodynamic Mobilization in Healthy Controls

PainPain1 more

Background & Significance Pain is the primary reason many patients seek care from healthcare professionals who utilize various manual therapy techniques. Gaining further understanding of the hypoalgesic properties of such techniques can enable practitioners to more skillfully integrate them in managing patients presenting with pain. Previous research has revealed that various manual techniques result in both local and widespread hypoalgesic changes in asymptomatic controls and patients in pain. Much of this previous research has investigated thrust manipulation; however, there is a paucity of similar research investigating these effects in neurodynamic mobilization. Specific Aims Aim: To assess for immediate local and widespread hypoalgesic effects of neurodynamic mobilization applied to the upper extremity. Hypotheses: Subjects who receive neurodynamic mobilizations will exhibit greater positive changes in local and widespread Qualitative Sensory Testing (QST) measures compared to those who receive a sham mobilization. Subjects who receive neurodynamic mobilizations will exhibit greater positive changes in elbow ROM and reported sensation intensity with upper limb neurodyndamic testing as compared to those who receive a sham mobilization. Aim: To assess for differences in immediate local and widespread hypoalgesic effects of sliding vs tensioning neurodynamic mobilization techniques applied to the upper extremity Hypotheses: Subjects who receive sliding neurodynamic mobilizations will exhibit greater positive changes in local and widespread QST measures compared to those who receive tensioning neurodynamic mobilization Subjects who receive sliding neurodynamic mobilizations will exhibit greater positive changes in elbow range of motion (ROM) and reported sensation intensity with upper limb neurodynamic testing testing compared to those who receive a tensioning neurodynamic mobilization

Completed9 enrollment criteria

Neurophysiologic Signatures of Trigeminal Neuralgia Pain

Trigeminal Neuralgia (TN)

Trigeminal neuralgia (TN) is an idiopathic pain disorder that is characterized by episodic attacks of intense facial pain, described as paroxysms of stabbing, electric, or explosive pain, and lasting for a few seconds or longer, often producing a tic-like facial movement, and can occur up to hundreds of times per day. This pain is known to be one of the worst pain conditions that a patient can suffer and has been called the "suicide disease". Given the severity of this disorder, determining the cause becomes essential for finding a cure. This project will study the cause of TN using a translational approach, which means the research project will be completed in both humans and animals. The investigators hypothesize that there are specific areas of the brain and spinal cord that will provide a "signature" center of activity. The study team will use state of the art magnetic resonance imaging (MRI) machines and other non-invasive brain activity measurements, including electroencephalography (EEG) to locate these centers in people with TN before and after their pain has started. Recent studies have investigated the effects of transcranial electrical stimulation (tES) for pain control. Transcranial electrical stimulation (tES) includes transcranial direct current stimulation (tDCS) and transcranial alternating current stimulation (tACS). This approach is important because identifying similar regions neural activity will allow for us to study novel therapies in search of the cure for TN and this study has thus both basic and clinical neuroscience significance.

Completed7 enrollment criteria

Clinical Effects of Lumbal Stabilization Exercises and Connective Tissue Massage on Neuropathic...

Peripheral Neuropathy

The aim of the study is to investigate the efficacy of connective tissue massage and lumbar stabilization exercise treatment on pain severity, functional capacity and quality of life in those who have experienced peripheral neuropathy

Completed8 enrollment criteria

Project Relief: Developing Brain Stimulation as a Treatment for Chronic Pain

Chronic PainChronic Lower Back Pain7 more

Effective control of chronic pain is a top priority in the United States, as approximately 10% of adults have severe chronic pain most of which is chronic lower back pain (CLBP). However, despite the advances in neuroscience over the past 20 years, chronic pain is largely treated with opiate narcotics, much as was done in the Civil War. In addition to their high abuse liability and dependence potential, only 30 40% of chronic pain patients declare they receive satisfactory (>50%) relief from their pain through pharmacological treatment. In these patients a common clinical practice is to escalate the dose of opiates as tolerance develops which unfortunately has contributed to escalation in opiate overdose deaths, a resurgence of intravenous heroin use, and $55 billion in societal costs. Consequently, there is a critical need for new treatments that can treat pain and reduce reliance on opiates in individuals with chronic pain. The proposed study will be the first to employ a randomized, double-blind, sham-controlled design to parametrically evaluate the longitudinal effects of 16 days of Repetitive transcranial magnetic stimulation (rTMS) to the primary motor cortex (MC) or the medial prefrontal cortex (MPFC) on self-reported pain and the brain s response to pain. This will be done in a cohort of patients recruited from the community as well as Wake Forest Baptist Health (WFBH) clinics with chronic lower back pain that have not been able to find adequate pain relief, whether or not they are using prescription opiates for 3 or more months. Participants will be randomized to receive rTMS to the MC, MPFC, or sham (50% at each site), using a Latin square randomization. Resting state connectivity will be collected 3 times: before the 1st day of TMS, after the 12th day of TMS, and before the 16th day of TMS (the last day administered).

Completed15 enrollment criteria

Treatment of Chronic Postherpetic Pain With Fat Grafting

Post Herpetic NeuralgiaHerpes Zoster

This study evaluates the possible beneficial effect of fat grafting for post herpetic neuralgia.

Completed5 enrollment criteria

Ultrasound Greater Occipital Nerve Block at C2 Level Compared to Landmark-based Greater Occipital...

Occipital NeuralgiaCervicogenic Headache1 more

This study will compare the analgesic benefit of a traditional landmark-guided GON block with the ultrasound-guided approach over a four week period in patients with occipital neuralgia or cervicogenic headache.

Completed12 enrollment criteria

Pain Neuroscience Education in Diabetic Neuropathy

PainNeuropathic1 more

To determine the effects of Pain Neuroscience Education in Diabetic Neuropathy

Completed7 enrollment criteria

To Evaluate the Efficacy and Safety of HSK16149 Capsule in Chinese Patients With Postherpetic Neuralgia...

Postherpetic Neuralgia

Investigate the Efficacy and Safety of HSK16149 capsules in Chinese Postherpetic Neuralgia Following 12 Weeks Treatment in Comparison to Placebo

Completed22 enrollment criteria

5% Lidocaine-medicated Plaster for the Treatment of Trigeminal Neuralgia

Trigeminal Neuralgia

Trigeminal neuralgia (TN) is characterized by sudden, severe, usually unilateral, transient, stinging, recurrent electrocute-like shock in one or more divisions of the trigeminal nerve, lasting from a few seconds to less than 2 minutes.Simple daily-life activities, such as washing the face, brushing the teeth, eating, and talking, or the slight touch of trigger points may trigger the attack of pain of TN, resulting in a decline in the patient's quality of life (QoL). Trigger zones predominantly locate in the perioral and nasal region. Paroxysmal pain is associated with triggers in virtually all patients with TN. TN may be caused by abnormality of the trigger zone and the blockade of Na+ channel of trigger zone may be a novel and effective treatment methods for TN. Currently, most patients with TN may not achieve adequate pain relief with a single therapeutic agent. Multiple analgesics targeting different mechanisms of the pain pathway are often used.5% lidocaine medicated plaster (LMP) is a white hydrogel plaster containing adhesive material. LMP was approved for post-herpetic neuralgia (PHN) treatment by the United States Food and Drug Administration (FDA) in 1999. Tamburin et al reported that 2 patients with primary TN who stopped oral drugs because of side effects or refused surgical procedures. Both patients were instructed to wear LMP over the affected area and LMP resulted in reduction of pain intensity and the number of pain paroxysms without side effects. However, due to limitations of these open-label design studies, the observed reductions in pain intensity may have been due to treatment effect, placebo effect, changes in underlying disease state, or a combination of these factors. Therefore, randomized controlled trials will be need to be performed to draw about the efficacy of the LMP in TN. The PATCH trial is a prospective, double-blinded, vehicle-controlled, parallel-group, multicenter, enriched enrolment with randomized withdrawal (EERW) trial aimed at estimating the efficacy and safety of LMP in patients with TN. After providing informed consent and completing a baseline evaluation, patients will participate in an initial open-label treatment period of LMP (active patches). This openly titrated process is close to clinical practice and can provide data on the proportion of responders and non-responders, the optimal dose of the analgesic drug, and the proportion of withdrawal due to adverse effects. A responder at the end of the open-label treatment phase will be included in the subsequently double-blind treatment phase.

Completed16 enrollment criteria

A Study of Phyllanthus Niruri and Sida Cordifolia in Diabetic Peripheral Polyneuropathy

Diabetic PolyneuropathyDiabetic Neuralgia2 more

The purpose of the study is to determine whether phyllanthus niruri and sida cordifolia are effective in treatment of diabetic polyneuropathy compared to placebo. Also two different administration forms (extract capsules and crude herbs) are used to find out whether there are differences in efficiency and compliance.

Completed21 enrollment criteria
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