View clinical trials related to Cancer Pain.
Filter by:In cancer patients, the integration between anticancer therapies and palliative care is of fundamental importance. In this context, telemedicine can improve the quality of life (QoL) of chronic patients through self-management and remote monitoring solutions. This approach can favor the effectiveness of the treatment and therapeutic adherence. Of note, telemedicine can also be applied to the management of cancer pain. In the advanced stages of cancer disease, pain is one of the most obvious and most disabling symptoms. Consequently, proper pain management has a significant impact on the QoL, the ability to withstand treatment, and the recovery of patients. On the other hand, given the complexity of cancer pain, the main obstacle to its proper management is the lack of adequate measurement methods. Although in recent years a great deal of effort has been made in the direction of automatic pain assessment, both concerning the creation of datasets and the development of classification algorithms, the literature is lacking regarding the automatic measurement of pain in the setting of cancer patients. Observation by experienced clinical staff and self-assessment by patients could be useful for obtaining the ground truth and, in turn, for training automatic pain recognition systems.
Pain is a common symptom in palliative care cancer patients and is often insufficiently relieved. The 2010 INCA report showed that France is not an exception to this worldwide observation (synopsis of the 2010 national survey). This report shows that pain is the symptom that these patients fear the most and that it dramatically impacts their quality of life. These patients may experience nociceptive pain related to stimulation of sensory nerve endings by the tumour. When tumour resection is impossible, a symptomatic analgesic treatment is generally proposed, mainly consisting of administration of opioid analgesics. At high doses, this treatment induces adverse effects, especially drowsiness and psychomotor retardation that impair the patient's quality of life. They may also experience neuropathic pain, secondary to anatomical lesions or functional impairment of nerve structures (peripheral nerves or cerebral or spinal tracts) related to repeated surgical procedures and/or radiotherapy. This type of pain may respond to antiepileptic or antidepressant drugs. At high doses, these treatments also induce adverse effects fairly similar to those observed during treatment of nociceptive pain. As these two types of treatment often need to be coprescribed, these patients frequently present an almost permanent state of drowsiness at the end of life, preventing all normal activities of daily living. In recent years, noninvasive brain stimulation (NIBS) techniques (transcranial magnetic stimulation (rTMS) or transcranial direct-current stimulation (tDCS)) have been successfully used to treat chronic pain. It was shown that these NIBS techniques can improve pain in cancer patients in the palliative care setting.
Chest wall pain is a severe and distressing symptom. The erector spinae plane block (ESPB) is an interfascial plane block where local anesthetic is injected between the erector spine muscle and the transverse process. It is a simple procedure, with easy sonographic landmarks, for postoperative analgesia in patients undergoing thoracic, abdominal, lumbar, and urologic surgery. The ESPB was initially described to relieve chronic pain from metastatic disease and rib fractures.
Cancer pain is a frequent symptom, reported by 20 to 70% of patients in any stage of the cancer disease : 60 to 70% in the advanced stage of the disease and 20 to 40% among the survivors. Among patients who report pain, 40% report undertreated pain. Strengthening Pain management in cancer is a specific objective of the French Cancer Plan. Providing patient education for cancer pain management is recommended since small to moderate efficacy of patient education on pain intensity and interference was found in all meta-analysis. An effect size comparable with some analgesic agents. However, recommendations suggest improvement in order to increase effectiveness and population reach of those interventions. The DECLIC EPRI intervention aim at addressing all the issues raised by patient education for cancer pain management. It was developed according to the framework of Michie's Behavior change wheel theory.
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 work is looking for comparison between the effect of tramadol versus morphine on PD1 and PD1-ligand in patients with chronic cancer pain
This study is to compare the effect of pain management program. We compare life quality, pain scores, sleep, anxiety and depression scores, and self report measures before and after mindfulness based pain management workshops.
Cancer pain deteriorated in quality of life and related with numerous psychosocial problems. Over the one third of cancer patient suffered from moderate to severe cancer pain, even under adequate pain management. The 18F-fluoro-2-deoxyglucose (FDG) positron emission tomography/computed tomography (PET/CT) images can provide quantitative results in clinical oncology. As a functional neuroimaging, the PET evidently provided anatomical activated regions, size, and spatial extent information. In this study, we use FDG-PET to investigate changes concerning the glucose metabolism in the brain with or without cancer pain. Therefore, we may provide useful information to treatment target in cancer pain patients.
The efficacy of a mobile health (mHealth) behavioral cancer pain intervention designed to decrease pain and disability for breast cancer patients in medically underserved areas has not been investigated. The long-term goal of this work is to use mHealth technologies to facilitate wide-spread implementation of an efficacious behavioral cancer pain intervention - a non-pharmacological approach to pain management. The proposed project's objective is to demonstrate the efficacy of an innovative mobile health Pain Coping Skills Training (mPCST-Community) designed to meet the needs of breast cancer patients with pain in medically underserved areas. mPCST-Community addresses intervention barriers for patients in medically underserved areas as it is delivered with video-conferencing in the patients' community based oncology clinic by a remote therapist, is extended to the patients' home environment using simple mHealth technology, and is low-literacy adapted. The central hypothesis is that mPCST-Community will result in decreased pain compared to a mHealth education attention control group (mHealth-Ed). The rationale of this proposal is that if mPCST-Community is shown to be efficacious it will rapidly increase intervention access for individuals who receive their oncology care in medically underserved areas and ultimately reduce pain-related suffering. Guided by strong preliminary data, a randomized controlled trial will be used to pursue three specific aims: 1) Test the extent to which the mPCST-Community intervention reduces pain, fatigue, disability, and distress, 2) Examine self-efficacy and pain catastrophizing as mediators through which the mPCST-Community leads to reductions in pain, fatigue, disability, and distress, and 3) To evaluate the cost-effectiveness of mPCST-Community. For Aim 1, based on the study team's extensive work demonstrating the efficacy of in-person pain coping skills training protocols and pilot work showing promise for mPCST-Community, it is expected that mPCST-Community will lead to decreased pain as well as fatigue, disability, and distress compared to mHealth-Ed. For Aim 2, it is expected that the effects of mPCST-Community will be mediated by increased self-efficacy for pain control and decreased pain catastrophizing. For Aim 3, it is expected that mPCST-Community will demonstrate cost-effectiveness as assessed by all-cause medical resource use, participant and therapist time, and health utilities as well as successful overall accrual, high subject retention, and high intervention adherence.
The aim of this research is to study the influence of stochastic modulated vibrations on the autonomic nervous system of breast cancer patients during radiation therapy