71 Clinical Trials for Cancer Pain
To learn if hypophysectomy (treatment of the pituitary gland) using a type of radiation treatment called stereotactic radiosurgery (SRS) can help to relieve cancer-related pain.
To learn about the effectiveness of taking the antipsychotic medication olanzapine to help lower opioid craving.
This clinical trial tests a collaborative pain management intervention (ASCENT) for improving cancer pain in rural and Hispanic cancer survivors. Cancer pain is prevalent, under-treated, and remains a major cause of suffering, impairment, and disability for millions of Americans. Individual pain interventions and care models show promise for cancer pain in controlled settings. Hispanic and rural-dwelling cancer survivors stand to benefit the most from electronic health record innovations, as each of these health disparities populations experience profound disparities in pain outcomes, including marked under- and over-prescribing of opioids. Digitally facilitated solutions are especially well matched for these patients, and can be customized to address their needs. The ASCENT intervention provides patients with an educational guide that describes techniques for addressing cancer pain, and uses community health workers and pain care managers to coach patients through a personalized pain management plan. This study may help researchers learn how pain management strategies can improve cancer pain and lower risk of opioid exposure and dependency in rural and Hispanic cancer survivors.
This study is funded by the HEAL Initiative (https://heal.nih.gov/). Based on Preliminary Studies (PSs), the research team developed and pilot-tested an evidence-based Web App-based information and coaching/support program for cancer pain management (CAPA) that was culturally tailored to Asian American breast cancer survivors using multiple unique features. However, CAPA rarely considered depressive symptoms accompanying pain in its design or components, and PSs indicated the necessity of further individualization of the intervention components of CAPA due to diversities in the needs of ABD. The purpose of the proposed 2-phase study is to further develop CAPA with additional components for ABD and the individual optimization functionality (CAI) and to test the efficacy of CAI in improving cancer pain experience of ABD. The specific aims are to: a) develop and evaluate CAI through an expert review and a usability test (R61 phase); b) determine whether the intervention group (that uses CAI and usual care) will show significantly greater improvements than the active control group (that uses CAPA and usual care) in primary outcomes (cancer pain management and cancer pain experience including depressive symptoms) from baseline to post 1-month and post 3-months; c) identify theory-based variables (attitudes, self-efficacy, perceived barriers, and social influences) that mediate the intervention effects of CAI on the primary outcomes; and d) determine whether the effects of CAI on the primary outcomes are moderated by selected background, disease, genetic, and situational factors. This study is guided by the Bandura's Theory and the stress and coping framework by Lazarus and Folkman. The R61 phase includes: (a) the intervention development process, (b) a usability test among 15 ABD, 15 family members, and 15 community gatekeepers; and (c) an expert review among 10 experts in oncology. The R33 phase adopts a randomized repeated measures control group design among 300 ABD. Long-term goals are: (a) to extend and test CAI in various healthcare settings with diverse subgroups of ABD, (b) examine the costeffectiveness, sustainability, and scalability of CAI in the settings, and (c) translate CAI into health care for ABD.
The overall objective of this study is to assess the feasibility, safety and preliminary efficacy of psilocybin-assisted therapy to alleviate opioid-refractory pain in patients with advanced-cancer. The name of the study intervention used in this research study is: Psilocybin (a tryptamine derivative)
This study will evaluate patients on both buprenorphine and full agonist opioids (FAO) to assess for withdrawal symptoms. Patients will be evaluated by clinicians and using validated tools to assess for pain and withdrawal. At the same time, patients will use a CPM Rx application on their phone to track medication use.
The purpose of this study is to evaluate whether or not mindfulness-based interventions/MBIs may help reduce chronic pain in participants who have cancer-related chronic pain. MBIs are therapeutic programs that use mindfulness meditation practices to help people focus on the present moment, as well as encourage acceptance of thoughts, emotions, and body sensations. The researchers think that an MBI treatment called Mindfulness-oriented Recovery Enhancement (MORE) may help people who are experiencing cancer-related chronic pain.
This Registry study will prospectively evaluate the differences in treatment outcomes in terms of pain intensity, pain interference, concomitant medication use, health-related quality of life, opioid adverse effects, and healthcare utilization between targeted drug delivery and conservative medication management only groups.
This study is a randomized controlled trial of a psychosocial pain management intervention called, Meaning-Centered Pain Coping Skills Training (MCPC). Patients with advanced solid tumor cancer and pain interference (N=210) will be randomized to MCPC or a standard care control condition. Patient-reported outcomes will be assessed at baseline and 8- and 12-week follow-ups. The risk and safety issues in this trial are low and limited to those common to a psychosocial intervention (e.g., loss of confidentiality).
Oral squamous cell carcinoma (SCC) produces a higher prevalence and more severe pain than all other cancers. Orofacial pain is one of the most common initial symptoms of oral cancer and often leads to the diagnosis of oral cancer. However, the character, severity, and unique features of oral cancer widely differ between patients. There is currently no effective and lasting treatment available to alleviate suffering from oral cancer pain. A significant obstacle to effectively treating cancer pain is that the relative contributions of nociceptive mediators and their mechanisms of action (i.e., responsible receptors) are largely unknown. There is, therefore, a critical need to define the neurobiologic mechanisms responsible for oral cancer pain. Without such information, the promise of non-opioid therapy for the treatment of oral cancer pain will remain unfulfilled. The primary objective of this study is to define and quantify the phenotype of oral cancer pain in patients, by comparing mechano- and chemosensitivity in oral cancer patients with healthy subjects. Pain will be stimulated on the site of cancer in 40 oral cancer patients and on the tongue in 40 healthy volunteers utilizing chemical sensitivity and mechanical sensitivity tests.
Patients with digestive tract malignancy often experience severe and unremitting abdominal pain that negatively affects physical, emotional, and social function, as well as health related quality of life (HRQOL). Therapeutic virtual reality (VR) has emerged as a promising and evidence-based treatment modality for cancer pain. Users of VR wear a pair of goggles with a close-proximity screen in front of the eyes that creates a sensation of being transported into lifelike, three-dimensional worlds. To date, VR has been limited to short-term clinical trials for cancer pain. Moreover, limited research exists on theory-based VR modalities beyond mere distraction, such as VR that employs acceptance and commitment therapy (ACT) with components of biofeedback and mindfulness. To bridge these gaps, this study seeks to: (1) assess the impact of immersive VR on patient-reported outcomes (PROs), including pain, activity metrics, and opioid use among patients with visceral pain from a digestive tract malignancy; (2) assess differences in PROs, activity metrics, and opioid use between skills-based VR therapy vs. distraction VR therapy; and (3) determine patient-level predictors of VR treatment response in visceral cancer pain. To address these aims, the study will measure PROs and opioid use in 360 patients randomized among 3 groups and follow them for 60 days after enrollment: (1) an enhanced VR group receiving skills-based VR; (2) a distraction-based VR group receiving patient-selected VR videos; and (3) a VR sham control group using a VR headset with 2-D content. The results will inform best practices for the implementation of VR for visceral cancer pain management and guide selection of patient-tailored experiences.
The purpose of this pilot efficacy study is to examine the effects of EMG-biofeedback (EMG-BF) on pain-related outcomes in Chronic Low Back Pain (CLBP) patients, Recent mastectomy and lumpectomy patients, and patients with episodic migraine. EMG-BF facilitates neuromuscular retraining and muscle relaxation by using audio and visual stimuli using an EMG surface electrode-based biosensor and a software installed on a tablet or smart phone. For this pilot efficacy study, we will recruit 125 patients with chronic low back pain, 125 patients who are expected to undergo mastectomy and 80 patients with episodic migraine. Participants will be randomly assigned to either the JOGO Digital Therapeutics EMG Biofeedback device or treatment as usual control group. Patients assigned to the intervention group will be asked to complete self-report questionnaires assessing demographics, pain intensity, negative affect, physical function, pain catastrophizing and sleep, will undergo QST and will be asked to wear Actiwatches to keep track of health behaviors, prior to and after completing the intervention. The intervention consists of weekly sessions during which participants will be instructed on how to use the device by a trained biofeedback instructor. Patients in the control group will undergo sensory testing procedures at baseline and after treatment period but will receive no active treatment. The aims of this study are to examine the impact of EMG-BF on pain and QST and the impact of EMG-BF on psychosocial function. We hypothesize that patients that will undergo the EMG-BF will demonstrate reductions in pain, physical functioning, sleep, pain catastrophizing, anxiety and depression.
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
The research objective is to characterize the risk of a major adverse cardiovascular event (MACE) among new users of naldemedine versus new users of lubiprostone and new users of naloxegol as comparator opioid induced constipation (OIC) medications.
The purpose of this research is to investigate the delivery of Reiki to integrative oncology patients and assess its potential for improving cancer-related symptoms in this population.
This study will enroll patients with cancer and participants will be randomized to receive one dose of cannabis for approximately 4 months. There is a 3/4 (or 75%) chance that a participant will receive an active cannabis dose in the study. There is a 1/4 (or 25% chance) that a participant will receive a placebo dose (meaning a blank dose/no cannabis/no active drug). The goals of this study are to determine 1) the safety and tolerability of cannabis in individuals with cancer and 2) if cannabis can help with the side effects of cancer and cancer treatment - including nausea and vomiting, appetite, pain, sleep, and quality of life.
We propose an innovative approach to symptom management in cancer patients following cancer treatments, utilizing a Multimodal Integrative Therapy (MIT) delivered via Virtual Reality (VR) program, authorized by the US Food and Drug Administration for in-home use. Our primary goal is to generate pilot data on the effects of MIT-VR program on pain, fatigue, sleep, depression, and anxiety in participants suffering from chronic cancer symptoms following cancer treatments.
The NSS-2 BRIDGE® device (NSS stands for Neuro-Stimulation System) is a disposable device that stimulates the branches of cranial nerves and of the superficial cervical plexus innervating the ear. Because the stimulation of the nerves of the ear by the NSS-2 BRIDGE® device (NBD®) has been shown to modulate pain pathways in rodents, decrease abdominal pain in adolescents with inflammatory bile syndrome and due to the results of our preliminary pilot study, the investigators hypothesized that this technique may also be effective in reducing the requirement for postoperative opioids and provide a non-pharmacological alternative to perioperative opioid use. To establish the role that the stimulation of the nerves of the ear may have in reducing postoperative opioid requirement, the investigators are proposing to conduct a randomized, placebo controlled study in patients undergoing open abdominal or pelvic surgery requiring at least 5 days of hospitalization. Subjects who have signed an informed consent will be randomized in 2 groups (active NBD® group or inactive NBD® group). Furthermore, since preoperative and postoperative mood disorders have been shown to increase postoperative pain levels and opioid requirement by up to 50%, the investigators further hypothesize that the stimulation of the ear nerves by the NSS-2 BRIDGE® effects may be in part mediated by a reduction of the level of anxiety, depression and catastrophizing as assessed using validated questionnaires.
The researchers are doing this study to compare two different types of group therapy and find out whether they are effective approaches for helping breast cancer survivors manage joint pain caused by aromatase inhibitors (AI). This type of joint pain is called AI-associated arthralgia, or AIA, and it is common in people taking AIs. AIA and its associated symptoms can make some people decide to stop taking their medication. The study will look at the effects of two different types of group therapy on participants' cancer-related symptoms (such as pain, fatigue, and anxiety), their ability to continue taking AIs on a regular schedule, and their quality of life. We will measure participants' quality of life by having them fill out questionnaires. Both groups will have 2-hour group therapy sessions once a week, over the course of 8 weeks. During the sessions, you will be in a group of 6-10 participants, who may be a mixture of patients from both MSK and University of California San Diego (UCSD).
To determine whether an Internet-based pain coping skills program plus enhanced usual care, compared to enhanced usual care alone, yields significant improvements in the co-primary outcomes of pain severity (as measured by the Brief Pain Inventory (BPI)) and pain interference (also measured by the BPI) from baseline to the post-intervention assessment for cancer survivors with persistent pain.
This study will examine the safety of giving the experimental drug, resiniferatoxin (RTX), to treat severe pain in patients with advanced cancer. RTX is a chemical extracted from a cactus-like plant. It is similar to capsaicin, the active ingredient in hot pepper. RTX has relieved pain and reduced the need for pain medication in several animal experiments. It works by destroying nerves that transmit pain information. People at least 18 years of age with severe pain from advanced cancer at or below the level of the chest that cannot be controlled with standard treatments may be eligible for this study. Participants undergo the following procedures: Pretreatment Visit Before beginning treatment with RTX, patients give a medical history and undergo a physical examination that includes: * Electrocardiogram (EKG) * Blood draw * Urinalysis * Neurological examinations * Peak expiratory flow rate (PEFR) * Eye examination * MRI * Urology assessment * Pregnancy test, when appropriate * Questionnaires to collect information on health, personality, mood, pain levels and symptoms. 2-Day Hospitalization Patients are hospitalized for 2 days for RTX injection and monitoring, as follows: * RTX injection: RTX is injected in the operating room under general anesthesia. It is given through a catheter placed in the patient s spine. The catheter is also used to obtain samples of cerebrospinal fluid (CSF) the clear fluid that bathes the spinal cord. The fluid is examined to assess drug effects and side effects, chemical changes in the content of the CSF associated with RTX, and how RTX is handled by the body. * Post-injection monitoring, including: * Surveys about symptoms such as pain or weakness * Neurological examinations * Blood and CSF sampling * EKG * AEs Outpatient followup * Vitals * Blood draw, Urinalysis, neurological and sensory testing, EKG on days 7, 14 and 30 after the injection * MRI scans of the head and back, Urology assessment and PEFR on day 15 after the injection * Eye examination * Follow-up phone calls monthly for 6 months
The Aim of this Study is to examine the feasibility of using quantitative sensory testing procedures, widely applied to the experimental study of sensory processing in humans both with and without various pain syndromes, to now characterize the psychophysical properties of neuropathic pain that has developed as a consequence of cancer therapy. Skin punch biopsies will be performed in patients with chemotherapy-induced pain to determine whether the impairment of nerve function is due to actual retraction or loss of innervation to the skin in areas affected by sensory disturbance.
This clinical trial evaluates two surgical techniques (targeted muscle re-innervation \[TMR\] and regenerative peripheral nerve interfaces \[RPNI\]) alone and in combination for the alleviation of chronic residual limb and phantom limb pain in cancer patients who have had an amputation. Chronic residual limb pain and phantom limb pain are debilitating outcomes of traumatic and oncologic amputation. Emerging microsurgical treatments for post-amputation pain are very promising. TMR and RPNI are both approved surgical techniques that involve connecting cut nerves to parts of the muscle as a way to heal and protect the nerves. This trial evaluates these techniques alone and in combination for the treatment of residual and phantom limb pain in cancer patients who have received an amputation.
This research study will evaluate the use of, and participants experience with, a new device called Addinex that safely stores and dispenses opioid medication. The purpose of this study is to evaluate the use of the Addinex device in cancer patients undergoing cancer-related surgery that require pain control with opioids after the surgery. Participants will be asked to answer questions about their medical history and background, fill out questionnaires, use a mobile application associated with the device, and undergo a phone interview one month after stopping use of the device. This study aims to find out how participants like using the Addinex device as opposed to a traditional pill bottle. Results of this study will help determine if the Addinex device could be useful to patients in the future after surgeries, as opposed to typical pill bottles.
This trial studies how well virtual reality (VR) works in reducing pain and anxiety in cancer participants undergoing bone marrow biopsy or lumbar puncture. Virtual reality may impact pain and anxiety during and after the procedure.
The purpose of this study is to see whether acupuncture is a practical (feasible) treatment for breast cancer survivors with joint pain on hormonal therapies.
Smartphone Technology to Alleviate Malignant Pain (STAMP) + Cognitive Behavioral Therapy for Pain (STAMP+CBT) The purpose of the study is to develop and refine the mHealth pain-CBT app intervention and carry out a randomized pilot to test the novel mHealth (Mobile health technology) intervention, which harmonizes psychological and pharmacological support for advanced cancer pain. The name of the study smartphone application involved in this study is: -STAMP+CBT
The objective of the proposed study is to assess how myofascial massage alters stiffness and microvascular perfusion of shoulder muscles and how these changes are influenced by patient-therapist interactions. The primary hypothesis is that stiffness of shoulder muscles will be decreased, and microvascular perfusion will be increased after a 30-minute myofascial massage, and that the addition of patient-therapist communication levels will result in greater changes with certain levels.
The main goal of this clinical trial is to test benefits of completing online pain coping skills training program in women who have been diagnosed with stage I-III breast cancer, who have completed their primary cancer treatment, who are taking an AI medication, and who have arthralgia. Arthralgia is a type of joint, bone, and muscle pain that is a common side effect of AI medications. The main questions it aims to answer are: 1. Whether online pain coping skills training reduces the severity of pain and the interference it causes in women's daily lives. 2. Whether online pain coping skills training improves emotional distress, quality of life, and adherence to AI medications. 3. Whether benefits of online pain coping skills training are at least partially caused by women's increased confidence that they can manage their pain and a reduction in unhelpful thinking patterns about pain. 4. Whether online pain coping skills training improves effects of AI medications on sleep problems and symptoms of menopause like hot flashes and night sweats. Participants can complete all parts of the study at home. They will: 1. Complete four sets of questionnaires throughout the study, which will take about 9 to 10 months. 2. Attend 3 meetings in the first month of the study, all of which can be held via a video conference. 3. Use an electronic pill bottle to track their use of their AI medication. 4. Be randomized (like flipping a coin) to one of two study arms: They will either receive education about AIs and arthralgia or they will receive this education along with access to an online pain coping skills training program. Research will compare the education group to the education plus online pain coping skills training group to see if online pain coping skills training has the benefits mentioned above.
This phase IV trial compares methadone versus hydromorphone given in the fluid-filled space between the thin layers of tissue that cover the brain and spinal cord (intrathecal) for postoperative pain relief in patients with gynecologic cancer undergo surgery. Methadone binds to opioid receptors in the central nervous system and is a long-acting opioid pain medication. Intrathecal hydromorphone works by changing the way the brain and nervous system respond to pain and is similar to an epidural. This trial may help researchers determine if methadone works as well as intrathecal hydromorphone for pain relief after surgery in patients with gynecologic cancer.