32 Clinical Trials for Various Conditions
This is a 16-week non-blinded, parallel, controlled trial to determine the feasibility and potential efficacy of an olive oil dietary intervention to alleviate facial pain caused by trigeminal neuralgia type 1 (TGN).
This study aims to test the safety, efficacy and potential mechanism of action of the SinuSonic device on adults with eustachian tube dysfunction (ETD) or facial pain/pressure. SinuSonic is a medical device that utilizes sound and pressure combined with normal breathing. The study will have 3 aims. Aim 1 will examine healthy controls with no signs of upper respiratory infection, inflammation, or ETD to determine if exhaled nasal Nitric Oxide is increased. Nitric Oxide is a compound in the body that acts as a blood vessel relaxant. Acoustic energy (humming) has been shown to increase nasal Nitric Oxide dramatically, thus equalization of gas pressures between the middle ear, the paranasal sinuses and the nasal cavity may very well explain any efficacy noted. Aim 2 will be performed to examine therapeutic efficacy for ETD. Aim 3 will be performed to examine therapeutic efficacy for sinus pain/pressure.
This is a phase IV randomized, double-blinded, placebo-controlled study to evaluate the efficacy of Erenumab in subjects with midfacial pain or pressure, without clinical or radiographic evidence of sinusitis.
Complex oro-facial pain is a poorly diagnosed and poorly treated cause of significant suffering and disability. This study will explore the ability of fMRI to identify patients with complex oro-facial pain who respond to transcranial magnetic stimulation therapy. Specific Aims: 1. To establish baseline patterns of MRI in patients with chronic oro-facial pain without a definitive etiologic diagnosis. 2. To estimate the rate of treatment success of transcranial stimulation of the primary motor cortex (M1) in these patients. 3. To identify post-treatment MRI patterns that are associated with treatment success.
Trigeminal neuralgia is a craniofacial pain syndrome that is typically characterized by unilateral severe, recurrent, electrical pain in one or more distributions of the trigeminal nerve. Current treatment strategies include oral medications as first line therapy with surgical interventions reserved for those patients who are refractory to medications or unable to tolerate medication side effects. Despite these current treatment options, many patients continue to have symptoms. Ultrasound-guided trigeminal nerve block allows for fine adjustment of the needle tip and direct observation of the medicine. Local anesthetic and steroids have been successfully used for diagnostic and or therapeutic nerve pain with great success. Steroids can be short or long acting in duration with varying side effects. If there exists a difference in duration of action, using the longer acting drug will provide a greater period of symptom relief for the patient and may allow the patient to undergo fewer interventional procedures.
The purpose of the study is to test the efficacy of ATNC05 in the treatment of Atypical Facial Pain (AFP), also known as Persistent Idiopathic Facial Pain (PIFP). This research project targets patients with chronic constant facial pain and excludes patients with primarily paroxysmal pain.
A study to determine if transcranial direct current stimulation (tDCS, the device that regulates brain activity, can improve pain in people with neuropathic facial pain and compare which modality (inhibitory tDCS over the somatosensory cortex or excitatory tDCS over the motor cortex) can result in better pain-relief.)
Botulinum toxin-A (BTX-A) prevents the release of acetylcholine in presynaptic terminals of the neuromuscular junction. It has been proposed to be effective in spastic conditions of the head and neck including oromandibular dystonias, bruxism, and muscular hypertrophy (1,2,3,4). However, only one randomized, double-blinded, placebo controlled trial has been completed involving 20 patients demonstrating both objective and subjective improvement in the BTX-A treated group over those treated with saline at one week, one month, and six months (5). Currently, in most orofacial pain practices, when the diagnosis of masticatory myofascial pain in the head region is made, patients are treated with a standard myofascial protocol. This protocol involves stretching, application of moist heat, spray and stretch, and lidocaine trigger point injections into the masticatory muscles. This is considered the standard of care among most orofacial pain practioners. There have been no randomized, double-blinded, head-to-head trials comparing BTX-A injections to lidocaine injections in the treatment of masticatory myofacial pain. Moreover, in all studies, muscles were targeted using surface landmarks with no confirmatory tests to guarantee the medication was administered to the intended muscle. In previous studies, the medial and lateral pterygoid muscles, important masticatory muscles that is often hyperactive in masticatory myofacial pain was not injected due to lack of palpable surface landmarks. Ultrasound and electromyography (EMG) guidance will help us locate these muscles. The purpose of this study is to objectively measure functional improvement in patients with masticatory myofascial pain injected with lidocaine versus BTX-A. A pilot study enrolling 20 patients is proposed. 20 patients will be randomized to receive either BTX-A or lidocaine injections into the bilateral temporalis, masseter, and medial and lateral pterygoid. Objective and subjective clinical parameters will be measured. These include pain at rest and with chewing, maximum non-assisted and assisted mouth opening, protrusive and laterotrusive jaw movements, subjective efficacy of treatment, and side-effects of treatment. Patients will be assessed at baseline, one week, one month, and three months after the procedure.
The study hypothesis is that the addition of an antidepressant to the standard treatment regimen in patients with both chronic sinusitis and depression or facial pain disorders and depression will decrease the report of chronic sinusitis or facial pain symptom severity. This is a stratified, randomized, double-blind, placebo-controlled study using the drug escitalopram for the treatment of depression in patients experiencing depression and chronic sinusitis or depression and facial pain disorders. It is a 12-week study. Subjects will have a screening visit and then be followed up by phone weekly for four weeks and bi-weekly for 8 weeks.
The study serves to investigate the type and prevalence of non-rhinologic headaches seen through a academic otolaryngology practice.The study encompasses survey questionnaires, review of CT images, and physical examination/nasal endoscopy findings.
The aim of this project is to evaluate the effects of the anticonvulsant drug lamotrigine (trade name Lamictal) on neuropathic facial pain or neuralgia using functional magnetic resonance imaging (fMRI).
This study will evaluate the safety and effectiveness of two drugs-dextromethorphan and topiramate-in treating orofacial (mouth and face) pain. Dextromethorphan, a commonly used cough suppressant, and topiramate, an anti-seizure medicine, block certain receptors on brain and spinal nerve cells that may cause the cells to produce electrical discharges and pain. Patients 18 years of age and older with oral and facial pain with trigeminal nerve damage and who have had pain daily for at least 3 months may be eligible for this study. Candidates will be screened with a medical history, physical examination, blood tests and psychiatric evaluation. These results will serve as baseline values for participants. Those enrolled in the study will take either dextromethorphan or topiramate in a 2-part study as follows: Dextromethorphan In Part 1, patients will take dextromethorphan and lorazepam (a commonly used anti-anxiety drug) separately in two 6-week periods. (Lorazepam is used in this study as an "active placebo" for comparison with dextromethorphan. An active placebo is a drug that does not work for the problem being studied but whose side effects are like those of the test drug.) They will take dextromethorphan for 4 weeks to determine the maximum tolerated dose (the highest dose that does not cause troubling side effects) and will stay on that dose for the remaining 2 weeks. Then they will repeat this process with lorazepam. Patients who respond to either drug may continue with Part 2 of the study, which compares these two drugs four more times to confirm the response seen in Part 1. In Part 2, the maximum tolerated dose will be determined in a 2-week period and that dose will be continued for another 2 weeks. This procedure will be repeated eight times. Throughout the study, patients will keep a daily pain diary. They will be contacted by telephone 2 to 3 times a week during dose escalation to check for side effects. At the end of each of the two 6-week periods in Part 1 and at the end of each 4-week period in Part 2 of the study, patients will have a 1-hour clinic visit. Participants who live more than a few hours' drive from NIH will have a full telephone follow-up evaluation instead of the clinic visits. Topiramate Patients who receive topiramate will follow a plan similar to that described above for dextromethorphan, with the following exceptions. They will take topiramate and an inactive placebo (a look-alike pill that has no active ingredients) in two separate 12-week periods. Patients' maximum tolerated dose will be determined in the first 8 weeks and they will stay on that dose for the remaining 4 weeks of each period. Patients who respond to the medication in Part 1 may continue with Part 2 to confirm the response. Part 2 consists of six 6-week periods. The first 4 weeks of each will be used to determine the maximum tolerated dose and the patient will remain on that dose for the next 2 weeks. Patients will keep a daily pain diary and will be contacted by phone 2 to 3 times a week while doses are being increased. Patients who complete Part 2 of the topiramate study may participate in another phase of the study that will last for 2 years. Those who continue for this phase will take topiramate for the 2-year period. They will be followed regularly by a study nurse and will come to NIH every 6 months for a follow-up visit.
This study provides a mechanism for evaluating patients for possible participation in NIDCR clinical research studies. NIDCR studies involve three major areas-pain, neurosensory mechanisms, and pain-relieving drugs-all of which have specific requirements and patient characteristics. No treatment is offered under this protocol; it is intended to facilitate patient recruitment into NIDCR studies. Patients with unusual or unknown conditions that have or have not been diagnosed may be eligible for this screening study. Specific medical criteria for enrollment vary with the particular protocol for which the individual is being screened. Medical and dental histories will be obtained and participants will have a dental examination. Diagnostic procedures will be done in accord with standard medical and dental practice and may include X-rays, blood tests, and routine urinalysis, as appropriate. Participants found eligible for an active study may enroll in that study. Those who are not eligible for a current study may be re-evaluated for future studies within a year if they wish. After 1 year, participants for whom no appropriate studies are identified will be referred back to their primary doctor or referring physician or dentist.
The purpose of this study is to investigate if the SinuSonic device decreases facial pain and pressure compared to the placebo device.
The primary objective is to establish the feasibility of using TMS for COFP pain management in the interim period before surgery. This will be investigated by comparing the non-intervention group's self-reported pain to those who recieved TMS at several timepoints.
The purpose of this study is to assess the effectiveness of craniofacial nerve stimulation for the treatment of neuropathic pain.
This study will test the effectiveness of the drug capsaicin in controlling pain after third molar (wisdom tooth) extraction. Capsaicin, the ingredient in chili peppers that makes them "hot," belongs to a class of drugs called vanilloids, which have been found to temporarily inactivate pain-sensing nerves. Healthy normal volunteers between 16 and 40 years of age who require third molar (wisdom tooth) extraction may be eligible for this study. Participants will undergo the following procedures in three visits: Visit 1: Patients will have touch (sensory) testing by the following three methods: 1) a warm sensor applied to the gums and the patient will rate when they first feel heat and when the heat feels painful; 2) the bristles of a small paint brush will be gently stroked across the gums, and the patient will say whether it feels painful; 3) a light touch will be applied to the gums with a small needle, and the patient will rate the pain intensity following the touch. After testing, patients will be numbed with a local anesthetic (bupivacaine) and then capsaicin or placebo (an inactive solution) will be injected next to the tooth. The tooth then will be extracted one day later. Visit 2: Patients will return to the clinic after 24 hours to repeat the same type of sensory testing. After testing, patients will be sedated and numbed with a local anesthetic (lidocaine) and given an intravenous injection of either saline or ketorolac (30 mg). After the extraction, pain ratings will be recorded every 20 minutes, for up to 6 hours. During this time, patients will be monitored for numbness, pain, side effects and vital signs (heart rate, blood pressure, respiration, etc.). Those who request pain medicine will receive acetaminophen and codeine. Patients will be required to stay for up to 3 more hours after this and then they will then be discharged with pain medicine. Visit 3: Patients will return to the clinic after another 48 hours to repeat the same sensory testing. Remaining wisdom teeth will be removed "off-study" at least three weeks following the first visit.
This study will evaluate the effects of the new anti-inflammatory drug, Celebrex, on relieving pain after oral surgery. It is also designed to assess the drug's selective inhibition of a chemical called cyclooxygenase-2 and not its closely related form, cyclooxygenase-1. This selective inhibition allows pain alleviation without the adverse side effects (e.g., bleeding and stomach upset) often associated with anti-inflammatory drugs. Healthy volunteers who require removal of their third molars are eligible for this study. Participants will have oral surgery for tooth extraction after receiving a local anesthetic (lidocaine) in the mouth and a sedative (midazolam) through an arm vein. On the evening before and 1 hour before surgery, patients will be given a dose of either the standard anti-inflammatory drug ibuprofen (Advil, Nuprin, Motrin), or Celebrex, or a placebo (a pill with no active ingredient). After surgery, a small piece of tubing will be placed in each extraction site and tied to an adjacent tooth to hold it in place. Samples will be collected from the tubing to measure chemicals involved in pain and inflammation. Patients will stay in the clinic for up to 6 hours after surgery while the anesthetic wears off and will complete pain questionnaires. During that time, they may receive acetaminophen plus codeine (Tylenol 3), if needed, for pain. The tubing then will be removed and the patient discharged with standard pain medication.
The goal of this study is to conduct a feasibility open pilot study (N=Up to 20) with exit interviews to assess the feasibility, acceptability, and credibility of the study protocol and Face-Forward-Web; a web-based mind-body intervention for adult patients with COP. Deliverables: \[1\] Adapt and refine open pilot protocol, patient recruitment, and other study materials. \[2\] Assess the feasibility, acceptability, and credibility of Face-Forward-Web and optimize the intervention methodology in preparation for a future efficacy study. This research leverages mixed methods information to evaluate the feasibility, acceptability, and credibility of Face-Forward-Web and optimize the intervention and study methodology in preparation for the subsequent pilot study and again later, for a pilot feasibility randomized control trial (RCT).
The purpose of this study is to assess the effectiveness of pre-operative administration of gabapentin 900 mg in management of acute post-operative pain in patients undergoing oral and maxillofacial surgical procedures.
This study is a single center, placebo-controlled, double blind, randomized, phase II pilot to evaluate the efficacy of erenumab-aooe in the management of trigeminal neuropathic pain comparing erenumab-aooe vs Placebo. A total of 40 patients (20 each arm) aged 18-65 years old of either sex, and any race or ethnicity, presenting trigeminal neuropathic pain will be randomly assigned in a 1:1 parallel, double-blind clinical trial, to receive either Erenumab or placebo. Participants will attend 6 clinic visits (Visit 0-Visit 5) over a period of 21 weeks. Changes in pain intensity and other pain related outcomes of trigeminal neuropathic pain will be assessed. Blood samples will be collected, and participants will need to keep a daily symptom diary and answer some other questionnaires.
To examine pediatric pain assessment in the Emergency Department
The hypothesis to be tested is temporomandibular joint (TMJ) rinsing followed by steroid injection is more efficacious than a placebo injection based on standard pain and physical measures that are recorded before and after treatment. All procedures will be the same as if following normal TMJ arthrocentesis (rinsing) clinical care except that the patient will be randomly assigned to one of two groups: (1) TMJ rinsing followed by the injection of 1 cc (about ¼ of a teaspoon) of the same rinsing solution (this is the placebo) into the jaw joint; or (2) TMJ rinsing followed by the injection of 1 cc (about ¼ teaspoon) of a steroid (5 mg of triamcinolone hexacetonide) into the jaw joint. A pregnancy test (urine test) will be conducted on all women of child-bearing age to verify that the patient is not pregnant before the rinsing procedure. The patient will fill out a short questionnaire and have a short exam of the TMJ and jaw muscles at each appointment.
The purpose of this study is to test the effectiveness of Buzzy®, a battery-powered reusable device that provides cold and vibration, in reducing the pain associated with intravenous (IV) cannulation. The investigators will investigate if Buzzy® is as effective as topical lidocaine cream in reducing the pain associated with IV cannulation.
This study proposes to develop and validate a new instrument designed to measure facial and nasal discomfort related to chronic sinusitis. The second phase of the study will be to use this instrument to measure correlation with sinus computed tomography (CT) scans.
This proposed pilot study will investigate the safety and initial effectiveness of focused ultrasound lesioning of the contralateral mesencephalon for severe, opioid-resistant pain associated with head and neck cancer
Trigeminal neuralgia or tic douloureux is severe, often debilitating, facial pain that significantly impairs the patient's quality of life and health. Stereotactic radiosurgery has been shown to provide pain relief in majority of patients treated. However, a common side effect of radiosurgery is facial numbness. To better understand how radiosurgery can bring about pain relief and facial numbness, we are conducting a study in which brain MRI scans will be done following stereotactic radiosurgery to learn if there are any changes in the MRI scans that correlate with symptoms.
This study is an open-label study to determine the feasibility of Motor Cortex Stimulation (MCS) in the treatment of patients with chronic pain of the face or upper extremity. MCS will be delivered by use of an electrode and pulse generator, which are FDA approved for spinal cord stimulation but are not approved for MCS. The study has as a single-arm design with the subject at baseline serving as a control for the response to MCS.
Lasers are used for non-ablative resurfacing of facial rhytides, atrophic scars, and a variety of epidermal and dermal lesions. Pain associated with the non-ablative laser treatment has been described as moderate to severe. For this reason, local anesthesia is commonly used to eliminate or minimize the pain. S-Caine™ Peel (lidocaine 7% and tetracaine 7% cream) is a eutectic formulation of lidocaine and tetracaine. The purpose of this study is to evaluate if S-Caine Peel is effective in providing topical local dermal anesthesia for non-ablative facial laser resurfacing in adults.
The study is a double-blind randomized, placebo controlled trial examining the impact of perioperative bupivacaine nerve block on PACU recovery metrics. Patients with operative facial fractures are randomized to receive either bupivacaine or saline injections prior to the anesthesia emergence.