Active clinical trials for "Chronic Pain"

Following preliminary studies carried out in our department on these subject and subjective findings during clinical examinations, it has been shown that pain is a symptom that is rarely reported following treatment. Instead, neurosensory disorders such as hypoesthesia and paresthesia are found. The objective of the study is to map and qualitatively evaluate neurosensory disorders in patients treated for cancers of the oral cavity and oropharynx.

Post-mastectomy pain due to nerve injury leads to long-term opioid use and diminished quality-of-life. The investigators on this study will evaluate the regenerative peripheral nerve interface (RPNI), a novel surgical approach to neuroma treatment, to improve patient-reported post-mastectomy pain and definitively treat intercostal neuromas after mastectomy.

In 230 patients undergoing mastectomy, the investigators will compare opioid-free anesthesia (OFA) versus conventional opioid-based anesthesia in terms of chronic pain. The enrolled patients will be randomly assigned into two groups with 1:1 ratio. Chronic pain will be evaluated at 1 year after mastectomy based on the Breast Cancer Pain Questionnaire (BCPQ). Baseline pain sensitivity test and psychologic evaluation will be done before operation.

Several studies have implicated involvement of sigma-1 receptors (SR1s) in the generation of chronic pain, while others are investigating anti SR1 drugs for treatment of chronic pain. Using [18F]-FTC-146 and positron emission tomography/magnetic resonance imaging (PET/MRI), the investigators hope to identify the source of pain generation in patients with chronic pain. The purpose of this study is to compare the uptake of [18F]FTC-146 in healthy volunteers to that of individuals suffering from chronic pain.

Dual medication (guanfacine and morphine) as a standard treatment for chronic pain.

This two-part study seeks to improve symptoms such as pain and sleep problems after concussion, or mild traumatic brain injury (mTBI). Study I evaluates symptoms of mTBI through a series of 10 office sessions in which musical tones are echoed, or mirrored back in real time, to reflect one's own brain activity. Those who take part in the study will be randomly assigned to receive either tones that are based on their brain activity/brainwaves, or random tones. Study II evaluates symptoms of mTBI through either 10 office sessions of the same acoustic stimulation linked to brain activity/brainwaves as Study I compared to 5 office sessions of acoustic stimulation plus intermittent very low level electrical stimulation of the scalp linked to brain activity.

The public health relevance of this proposed project is substantial given the current opioid abuse epidemic as identified by the Centers for Disease Control (CDC). This study finalizes and tests a new psychotherapy treatment that is designed to treat chronic pain and opioid addiction at the same time in a format that could be easily used in a community addiction treatment setting. Final products of the study will yield an integrated STOP (Self-regulation/Cognitive-behavioral therapy (CBT) Therapy for Opioid addiction and Pain) manual guided protocol, patient workbook, and therapist training protocol.

Abdominal pain in chronic pancreatitis (CP) affects up to 90% of patients during the course of their disease, and response to currently available therapies is suboptimal and unpredictable. The proposed clinical trial will evaluate the predictive capability of Pancreatic Quantitative Sensory Testing (P-QST) - a novel assessment of neurosensory phenotyping- for improvement in pain in patients with CP who are undergoing medically-indicated invasive treatment with endoscopic therapy or surgery.

Reducing the incidence of chronic post-surgical pain after Total Knee Arthroplasty (TKA) is paramount. NOPAIN, a technology-enhanced Acceptance and Commitment-based treatment, will be developed, tested and improved for this purpose. The feasibility of NOPAIN will be evaluated in a small sample of patients listed for TKA at the IRCCS Istituto Auxologico Italiano. Potential pre-surgical and post-surgical predictors of non-response to treatment will be measured and tested using a machine learning algorithm. The results of this study will be employed to improve the content of NOPAIN or for identification of criteria for patient selection. Finally, a randomized controlled clinical trial will be performed. Patients listed for TKA will be randomized to Treatment As Usual (TAU) or to NOPAIN+TAU. Primary outcome will be time to complete pain relief, secondary outcomes will include subjective and objective measurements of quality of life and functional recovery.

This project examines the effects of noninvasive brain stimulation on pain. The investigators believe this study will help to better understand possible treatments for chronic pain patients. Participants undergo structural imaging, a functional Magnetic Resonance Image (fMRI) and computed tomography (CT). These images are used to align the low-intensity focused ultrasound (LIFU) device which uses sound waves to temporarily change brain activity. Pain testing is done using a small device that will increase/decrease the temperature of the skin. Brain signals are collected using electroencephalography (EEG). Heart rate, blood pressure, and skin moisture will be monitored as well.