View clinical trials related to Trigeminal Neuralgia.
Filter by:There is a significant debate whether local infiltration techniques may be a method to treat complicated chronic pain syndromes, e.g. refractory headache. Until now there is a lack of evidence regarding efficacy of this treatment especially in long term follow up. Similarly, indication and management are under debate. Aim of this trial is to analyse pain scores during first treatment with anaesthesiological infiltration series.
The primary objectives of the study are to assess the relative bioavailability of the BIIB074 direct compression formulation (DCF) to the BIIB074 roller compaction formulation (RCF) and to determine the effect of a high-fat meal on the pharmacokinetics (PK) of the BIIB074 DCF. The secondary objective of the study is to assess the safety and tolerability of BIIB074 administered as the DCF following single oral dose administration in healthy participants.
The primary objectives of this study are: To evaluate pharmacokinetics (PK) properties of BIIB074 administered as a single oral dose in healthy Japanese and Caucasian participants; and To evaluate the PK properties of BIIB074 administered as repeated oral doses in healthy Japanese participants. The secondary objective of this study is to assess the safety and tolerability of BIIB074 administered as a single oral dose (Japanese and Caucasian participants) and as repeated oral doses (Japanese participants).
Up to now, multiplanar reconstruction (MPR) has been widely used to detect the neurovascular compressions (NVC) on the patients with idiopathic trigeminal neuralgia (ITN). However, due to lack of stereoscopic vision, this traditional method sometimes cannot meet the requirement on identifying the existence and details of NVC, especially when the aberrant vessels turn out to be delicate veins. The three-dimensional analytic techniques, such as curved planar reconstruction (CPR) and magnetic resonance virtual endoscopy (MRVE), may be helpful to improve the sensitivity and specificity on the demonstration of NVC with stereo and dynamic views, so as to assist to design the surgical plan. Furthermore, the frequent finding of NVC on MRI studies of asymptomatic patients incited the creation of several strict criteria for the imaging diagnosis of NVC: the vessel must cross perpendicular to the long axis of the nerve, the nerve must be deviated or indented at the root entry zoon (REZ) by the vessel. Alternatively, morphological measurement of the nerve may correlate with the severity of facial pain due to atrophy of the nerve in most cases of ITN, and is likely secondary to the micro-structural abnormalities, such as axonal loss, demyelination, collagen deposition, etc. In this study, cross-sectional area (CSA) and volume (V) of the cisternal trigeminal nerve will be assessed to determine whether it can be a useful biomarker for predicting the degree of ITN.
Trigeminal neuralgia is one of the strongest pains known to humans. Some patients do not have enough effect with the available pharmaceutical treatments and are offered surgery. There are different types of procedures and most of them are complex with a risk for complications. The researchers want to start a pilot study on 10 patients with a new surgical technique using neuronavigation. The target will be a neural structure (sphenopalatine ganglion) which has an important role in facial pain. There have been a few trials trying to block this structure in trigeminal neuralgia, but none using this new approach with botulinum toxin. The researchers technique requires local anesthesia only (awake patient). The researchers believe that this treatment can become a "low threshold"-treatment for patients who do not have enough effect with pharmacological treatment and a better alternative to other complex surgical approaches. Using this new neuronavigation system the researchers can reach this neural structure with high precision.
A placebo-controlled, single-blind study to evaluate the safety and preliminary efficacy of nasal carbon dioxide for the symptomatic treatment of classical trigeminal neuralgia.
A randomized, double-blind, placebo controlled, two period crossover study to investigate the pharmacokinetics, tolerability and cognitive effects of 8 days dosing of CNV1014802 in healthy young versus elderly male and female subjects. Treatment periods will be separated by 13 days. The primary outcome measures are pharmacokinetics (PK) and tolerability.
The aim of this randomized double blind, placebo controlled, crossover study is to investigate in a prospective way the effect of lidocaine in patients with trigeminal neuralgia. Included patients will undergo four weekly sessions, two of which with lidocaine (5mgs/kg) and two with placebo infusions administered over 60 minutes. Effect will be measured with pain diaries and visual analogue scales.
The pain from Trigeminal Neuralgia (TN) imposes a substantial burden on patients in daily function and reduces quality of life. The sphenopalatine ganglion, located in the posterior part of the middle nasal turbinate, is involved in the pain associated to TN, by blocking the sphenopalatine ganglion relieves patients from the symptoms. However, methods currently in use to accomplish this are either cumbersome for the patient or invasive regarding the puncture of structures. The purpose of this study is to evaluate the efficacy of Tx360™, a new nasal applicator device, in the treatment of TN. A local anesthetic will be delivered on the ganglion area. We are expecting that this new device will provide at least the same pain relief as the previously described approaches. However, this nasal applicator is intended to be an easy and non invasive method for office use.
This is a double-blind, randomized withdrawal study comparing CNV1014802 with placebo in patients with trigeminal neuralgia who have successfully responded to CNV1014802 in an initial open-label phase. Patients will participate in an initial open-label treatment period of 21 days of CNV1014802 150mg three times a day (tid). Responders will be randomized to 28 days of CNV1014802 150mg tid or placebo. Following an interim analysis after 10 evaluable patients have completed the open-label phase, the dose regimen may be increased to 350mg twice a day (bid) for the remainder of the trial if the responder rate is less than 60%.