134 Clinical Trials for Various Conditions
Up to 80% of breast cancer survivors experience chemotherapy-induced neuropathy that impairs quality of life and increases fall risk long into survivorship, yet treatment options for neuropathy remain limited. The successful treatment will target neurophysiologic mechanisms for restoring function while addressing patient-reported symptoms and participation in treatment. Toward this end, the investigators propose to study a noninvasive, social sensorimotor intervention - Adapted Argentine Tango - which targets motor control restoration, symptom alleviation, and treatment participation in concert.
Assess the safety and effectiveness of Axon Therapy in the treatment of chemotherapy-induced neuropathy
Chemotherapy-induced peripheral neuropathy (CIPN) is a highly prevalent and severe side-effect of platinum-based chemotherapy, often used to treat gastrointestinal cancers. Unfortunately there are very limited treatments for CIPN. This is a phase II randomized controlled trial to test the preliminary efficacy of exercise vs. nutrition education on CIPN, to systematically investigate the potential roles of inflammation and interoception, and to obtain data with a more accurate effect size to inform a future study.
The proposed randomized control trial will evaluate auricular point acupressure (APA) on chemotherapy-induced neuropathy (CIN), rigorously considering point specificity and placebo effects by integrating self-report measures, psychophysical measures (QST), endogenous biomarkers (cytokines), and neuro-imaging to investigate APA's efficacy and underlying mechanism(s).
This early phase I trial studies how well fingolimod works in treating patients with chemotherapy-induced nerve pain (neuropathy). Fingolimod acts by suppressing immune reactions in the brain. This study is being done to see if fingolimod can reduce neuropathy caused by chemotherapy.
This is an observational based pilot study evaluating the use of spinal cord stimulators for the treatment of chemotherapy induced peripheral neuropathy will lead to an increase in quality of life and decrease in pain.
To determine rate and severity of chemotherapy induced neuropathy in extremities treated with cold gloves and socks versus control extremities
Many types of chemotherapy may cause nerve damage as a side effect. This neurotoxicity can manifest as peripheral sensory neuropathy (characterized by numbness, tingling, or pain). The goal of this study is to determine the efficacy of the combination of vitamin B6 and B12 in preventing chemotherapy induced neuropathy.
This study was designed to evaluate the safety and efficacy of Cesamet™ in controlling pain in subjects experiencing pain due to chemotherapy-induced neuropathic pain in patients with cancer.
Numbness, tingling, and pain in the hands and feet following the administration of chemotherapy (also called chemotherapy-induced neuropathy (CIN)) is a common problem in oncology patients. However, more information is needed on why patients develop neuropathy and how it impacts their mood, ability to function, and their quality of life. In addition, effective treatments for this problem are not available at the present time. This study will be conducted in two parts. In Part 1, patients who have finished chemotherapy and did or did not develop CIN will be evaluated to determine why some patients do and other patients do not develop CIN. In addition, the impact of CIN on patients' mood, function, and quality of life will be evaluated by comparing patients' reports on these important outcome measures. In addition, genetic markers that contribute to or protect against the development of CIN will be evaluated. Part 2 of this study will test the effects of a new treatment called photon stimulation (also called infrared light therapy) compared to placebo treatment to improve sensations in the feet of oncology patients with CIN. Patients who receive the photon stimulation will have greater improvement in sensation in their feet compared with those who do not receive photon stimulation.
A clinical outcomes study measuring reduction in pain and numbness experienced in four types of peripheral neuropathy patients during 60 day administration of the an amino acid formulation.
Primary Objective: To assess whether six-week treatment with twice daily topical Menthol application will decrease neuropathic pain as measured by the change in Brief Pain Inventory-Short Form (BPI-SF worst pain score), following or during neoadjuvant/adjuvant chemotherapy with taxane or platinum-based regimens among breast, gastrointestinal or gynecologic cancer patients. Secondary objectives: * To compare change in patient-reported outcomes: overall BPI-SF scales, EORTC-CIPN20, European Organization for Research and Treatment of Cancer Chemotherapy Quality of Life Questionnaire (EORTC QLQ-C30), Patient-Reported Outcomes Measurement Information System (PROMIS-29) scores between study groups. * To compare changes in dose delivery and early treatment discontinuation rates between study groups. * To compare objective sensory and motor functional change from baseline with the use of quantitative neurosensory testing. * To perform an exploratory analysis evaluating the interaction between treatment and chemotherapy type.
Paclitaxel, a widely used chemotherapeutic agent, is associated with several well-known side effects including neuropathy (weakness, numbness and pain) and generalized body aches. The latter has recently been described as paclitaxel-associated acute pain syndrome (P-APS) and often occurs in the first three to four days after administration. It affects about 58-90% of patients. Currently, the mechanism of P-APS is unknown, and there is no standard of care to treat it. However, an intervention with both anti-inflammatory as well as neuroprotective properties would be an ideal candidate for testing in the prevention of P-APS and subsequent development of peripheral neuropathy. Previous studies have suggested that omega-3 fatty acids may act as neuroprotective agents, and there are no currently documented safety concerns with their combined use with paclitaxel. Therefore, this randomized pilot clinical trial will determine whether omega-3 fatty acids can treat pain in patients with breast or ovarian cancer receiving paclitaxel.
This clinical trial assesses the impact of a family caregiver-delivered massage technique for use in cancer survivors with chemotherapy-induced peripheral neuropathy (CIPN). CIPN is a common cancer treatment side effect that impairs quality of life and daily functioning. Aside from the relatively transient effects of chemotherapy treatment (e.g., nausea, diarrhea, vomiting, infections, fatigue, hair loss), chemotherapy can damage nervous system structures leading to long-term CIPN effects including numbness in hands or feet, "pins and needles" or sudden stabbing pains, difficulty buttoning clothing or picking up objects, loss of balance and risk of falling, difficulty driving (steering wheel, foot pedals), and increased sensitivity to heat or cold. Caregivers who lack effective strategies of supportive care are at risk of feeling helpless, overwhelmed or frustrated watching their loved one suffer. Oncology massage (OM) teaches oncology-informed modifications, adaptations and safety precautions for a cancer survivor's specific condition, treatment history and side effects. An mobile health application (app) for caregivers can teach care for CIPN using safe oncology-informed massage techniques at home. Using the Peripheral Neuropathy Relief (PNR) program in the form of relaxation may help for stress reduction, reduced CIPN symptoms, and/or an increased sense of connection with patients and their family caregiver.
The investigators hypothesize that Scrambler therapy with duloxetine, compared to duloxetine-based usual care, will result in greater improvement in CIPN as measured by the BPI-Short Form. In addition, the investigators will further assess pain using the EORTC CIPN-20 and determine whether Scrambler therapy results in improved levels of function as measured with the PDQ, and a decreased need for opioid medications. Our primary objective is to investigate whether Scrambler therapy with duloxetine is superior to duloxetine-based usual care in achieving at least a 50% reduction in pain scores, when comparing the cross-sectionally measured "average" pain score at day 35 to the cross-sectionally measured "average" pain score at baseline.
This research is being done to determine whether a 12-week virtual Tai Chi training program, designed to improve balance and small nerve fiber function, is feasible and acceptable among cancer survivors with chemotherapy-induced peripheral neuropathy (CIPN).
To learn if topical capsaicin can help relieve pain from CIPN and improve gait (the pattern of walking) in patients.
This phase II trials evaluates how well different types of phytocannabinoids (cannabidiol \[CBD\] versus tetrahydrocannabinol \[THC\] and CBD formulation \[THC:CBD\]) work to reduce chronic chemotherapy-induced peripheral neuropathy among breast and colon cancer survivors. Chemotherapy induced peripheral neuropathy is a set of symptoms that includes pain, tingling, numbness and motor weakness caused by certain types of chemotherapy treatment. Phytocannabinoids are compounds made by the cannabis plant, such as THC and CBD, that have been found to be an effective treatment for chronic pain. Phytocannabinoids may be effective in reducing chronic chemotherapy-induced peripheral neuropathy symptoms in patients treated for breast or colon cancer.
To explore the benefits of using closed loop spinal cord stimulation (SCS) in the treatment of patients experiencing painful chemotherapy induced peripheral neuropathy (CIPN) by assessing changes in pain, quality of life, pain medication use, sensory improvement through quantitative sensory testing, and improvement of gait through quantitative gait testing.
Cohort 1: To track the onset and progression of a condition called chemotherapy-induced peripheral neuropathy (CIPN). Cohort 2: To track the onset and progression of a condition called chemotherapy-induced peripheral neuropathy (CIPN) and to test a certain type of experimental neuromodulation (stimulation of the brain) with a device called a closed-loop brain-computer interface (clBCI) to see if can help to prevent pain due to CIPN.
The purpose of this pilot study is to examine the acceptability and proof of concept effectiveness of a wireless Transcutaneous Electrical Nerve Stimulation (TENS) technology to address Chemotherapy Induced Peripheral Neuropathy (CIPN). Participants, who satisfy the inclusion and exclusion criteria and sign the informed consent form will be randomly assigned with ratio of 1:1 into two groups. The patients and clinicians will be blinded for group allocation. One group will utilize TENS high-dose devices (Intervention group, IG); the other group will utilize low-dose TENS devices (Placebo group, PG). The baseline measurements will be performed, and the patients will take the programmed device home for a duration of 8 weeks. Then, the patients will come back after four weeks (4W) and after 8 weeks (8W) for outcome assessment. The primary outcome will be pain. Secondary outcomes include: nerve conduction and velocity, vibration perception threshold, quality of life. Exploratory outcomes include gait assessment (gait speed, stride length, double stance, and gait steadiness), and balance.
To learn if peripheral nerve stimulation (PNS) can help to improve pain in participants with CIPN.
The investigators aim to determine the effect of cryotherapy wraps plus compression therapy (henceforth referred to as cryocompression) versus cryotherapy wraps alone on the incidence and degree of chemotherapy-induced peripheral neuropathy in patients with gynecologic cancer using a noninferiority design. The investigators also aim to determine the effect of cryocompression versus cryotherapy on patient tolerability and patient and staff satisfaction.
To learn if a process called neuromodulation can help to improve pain due to CIP
The goal of this clinical trial is to assess the efficacy of SensoniQ® Treatment Station in preventing or reducing chemotherapy induced peripheral neuropathy (CIPN) in patients receiving frontline carboplatin and paclitaxel chemotherapy for a gynecologic malignancy. This study will also assess the improvement of CIPN in patients who have previously received carboplatin and paclitaxel therapy with persistent Grade 2 or worse neuropathy. The main questions this clinical trial aims to answer are: 1. To investigate the efficacy of SensoniQ® Treatment Station on the prevention or reduction of CIPN in gynecologic oncology patients receiving front line carboplatin and paclitaxel. 2. To investigate the efficacy of SensoniQ® Treatment Station on the improvement of existing CIPN in patients who previously received chemotherapy with platinum agent and paclitaxel for a gynecologic malignancy
This clinical trial tests how well phytocannabinoids (cannabidiol \[CBD\] and tetrahydrocannbinol \[THC\]) work in reducing chronic chemotherapy-induced peripheral neuropathy (CIPN) in breast and colon cancer survivors. Neuropathy is the most common neurological symptom reported by cancer patients due to treatment. A variety of pharmacologic treatments have been evaluated to alleviate CIPN symptoms; however, no definitive treatment has been found to successfully treat all the symptoms of CIPN. Therefore, investigators continue to seek other possible treatment options including cannabis. Phytocannabinoids may be a particularly useful intervention for cancer patients given the limited effective treatments for CIPN. In addition, cannabis-based medicines have become tremendously popular as both cancer patients and clinicians are seeking therapies with fewer potential risks of dependency and other side effects. This trial is being done to provide cancer patients and clinicians with reliable information to help guide their use of phytocannabinoids to manage the tremendous distress and pain experienced by many cancer patients, which impacts their long-term quality of life.
This phase III trial compares the effect of 3 study approaches in preventing chemotherapy-induced peripheral neuropathy: 1) cryocompression, 2) continuous compression, and 3) low cyclic compression. Taxane chemotherapy drugs, such as paclitaxel or docetaxel, can cause a nerve disorder called peripheral neuropathy, which can cause numbness, tingling, or pain in the arms and legs. The 3 study approaches will use a device, called the Paxman Limb Cryocompression System, made of wraps that cool and/or compress the arms and legs. This study may help researchers determine if any of the study approaches are able to prevent taxane chemotherapy from causing peripheral neuropathy.
The purpose of this clinical trial is to compare the efficacy of twice daily applications of ATX01 (10% \& 15%) versus placebo during a 12-week treatment period in treating chemotherapy-induced peripheral neuropathy (CIPN) in adult cancer survivor patients.
This is a small pilot trial (n=26) among cancer survivors with CIPN who will utilize an internet-delivered pain coping program for 8 weeks in order to assess program feasibility and preliminary understanding of how participation in the program may influence pain interference. Also proposed is a secondary focus on subjective and objective function, medication use, psychological distress, and coping.
This research is being done to determine whether acupuncture can help prevent or lessen chemotherapy-induced peripheral neuropathy (CIPN), a side effect of some kinds of chemotherapy that causes pain, numbness, tingling, swelling, or muscle weakness mostly in the hands or feet. This research will also help determine whether acupuncture can improve quality of life in patients receiving taxane-based chemotherapy for the treatment of breast cancer. The names of the study activities involved in this study are/is: * Acupuncture treatments for participants in the Acupuncture Group * Nature videos with a relaxation exercise for participants in the Relaxation/ Exercise Group The Comprehensive and Integrative Medicine Institute (CIMI) of South Korea is supporting this research study by providing funding.