View clinical trials related to Pain, Intractable.
Filter by:Pain is one of the major symptoms in palliative care units and often is very difficult to treat, being considered as a refractory pain. There are different causes of refractory pain: pain due to bed sores and ulcer bandages, carcinological or ischemic wounds or injuries, pain due to patients' reduced mobility, pain due to traumatological injuries, pain associated with a long-term bed confinement, etc. The investigators propose a prospective study to estimate the effect and the tolerance to a subcutaneous bolus of ketamine administered for the treatment of refractory pain due to the care of bedsores, ulcers and vascular wounds in patients hospitalized in palliative care units.
Background: Cancer-induced bone pain (CIBP) is common in people with cancer. Bone cancer can also lead to anxiety, depression, and reduced mobility and quality of life. Researchers believe a research drug called resiniferatoxin (RTX) may be able to help. Objective: To learn whether RTX is safe and can reduce cancer induced bone pain. Eligibility: People ages 18 and older with CIBP that is not relieved by standard treatments Design: Participants will have up to 6 outpatient visits over about 7 months. These will include: Medical history Physical exam Blood and urine tests. Thermal testing: a disk placed on the skin to test ability to sense temperature in and around the area of pain Chest x-ray EKG: stickers are placed on the chest to measure heart signals ECG: measures electrical activity of the heart Participants will have 1 inpatient visit lasting 2-4 days. This will include: Catheter inserted into a vein in the arm. They are given anesthesia, sedation, and x-ray contrast. A needle is passed through the skin of the back to inject the RTX. Participants will keep a log of the pain medications they take after surgery. Participants will be called 1 week and 2, 3, and 4 months after the injection. Participants will be mailed surveys and questionnaires to complete 2, 3, and 4 months after the injection. ...
The purpose of this study is to evaluate programming options in spinal cord stimulation for the management of chronic, intractable pain of the trunk and limbs.
The purpose of this study is to evaluate the impact of genetic testing on healthcare decisions and patient outcomes in interventional pain management clinical care. Results of genetic testing will also be compared with the clinical outcome measures collected to discover novel genetic factors that may influence patient care.
This study will demonstrate that functional improvement measures over a 6-month period for chronic low back patients under the care of Primary Care Provider (PCP), using a therapeutic plan formulated initially by the Pain Medicine Specialist (PMS), are equivalent to those under the care of the PMS only. Chronic low back pain patient will be initially be evaluated by the PMS. If no interventional pain therapy is required, a multimodal therapeutic plan (pharmacological and/or non-pharmacological) will be formulated to manage the chronic low back pain. Patients will be randomized into one of the two groups: Group 1 - Subjects will be treated monthly for the following 6 months by PMS, and Group 2 - Subjects will be treated by their own PCP for monthly visits for 6 months.
11-SMI-2013 is a post market, observational, questionnaire based study to assess the effectiveness of the commercially available Axium neurostimulator in the management of intractable, chronic pain
04-SMI-2012 is post market, observational, questionnaire based study to assess the effectiveness of the commercially available Axium neurostimulator in the management of chronic, intractable pain.
In the palliative care unit, certain patients suffer from pain associated with medical procedures/care which is poorly controlled by antalgics. These situations may necessitate temporary sedation to improve comfort and facilitate treatment. No proven consensus exists, either in the literature or in clinical studies conducted, on the choice of sedative agent however Midazolam is the general recommendation. The investigators believe that Propofol could be used in this instance
A split-thickness skin graft (STSG) is used for a large wounds or wounds that cannot be closed by primary and secondary wound closure. Accelerated re-epithelialization rate and minimizing pain and infection are main goals of donor care. Traditionally dressings are inexpensive but adhere to the wound surface and cannot absorb exudates. Thus, we have developed a new biomaterial based on Thai silk for wound dressing application. Silk fibroin and silk sericin were selected to produce wound dressing in this study. The objective of this study is to compare wound dressing containing silk fibroin with bioactive coating layer with standard dressing (medicated paraffin gauze dressing; Bactigras®), with regard to healing time, patients' pain intensity, skin's transepidermal water loss after healing and evidence of infection in the treatment of split-thickness skin graft donor sites. The study design is a randomized, controlled, self paired clinical trial. Patients age 18 to 60 years and undergo STSG at thigh in Department of Surgery, King Chulalongkorn Memorial Hospital will be recruited in the study. The exclusion criteria are donor sites other than thigh area or located at high risk of infection. Patients who are immunocompromised or diabetes mellitus or psychiatric disorders or low serum albumin level (less than 3.0 g/dL) or known allergic to SS or SF or paraffin or chlorhexidine acetate are also excluded. All subjects sign the informed consents after discussion the protocol, benefits and risks. The donor site will be divided into two equal halves, each site will be randomized to receive the tested material or the medicated paraffin gauze dressing. The donor site wounds will be observed daily. The dressings will not be changed, except when they are fully soaked with exudates and easily fell off or any sign of infection. Healing time will be recorded when the dressing separate completely from the donor site, no exudates and no pain when the donor site is exposed to air. The patient's pain level will be evaluated with the visual analogue scale and the donor site wounds will be observed daily for signs of infection. On the day of the wound is recorded for healing time and 1 weeks, 1, 2, 3, 4 and 5 months after that, the skin barrier function (TEWL) of each site will be measured using a Tewameter. Blood sample will be collected from patients pre- and postoperatively (within day 3) for hepatic and renal function analysis.
The subjects will be treated with a single dose of SP-SAP. They will receive the study drug SP-SAP via a percutaneous intraspinal catheter, they will be monitored for 4 hours and required to stay in the hospital for 24 hours for precautionary care. Their vital signs will be monitored and recorded immediately following the injection. After the catheter has been removed, the following assessments will be made physical exam including motor and sensory functions, and electrocardiogram. A neurologist will be available for consultation as needed. Beginning dose of SP-SAP will be 1 -mcg for the first cohort. Subsequent single patient dose cohorts as 2, 4, 8, 16, 32, 64 and 90 mcg intrathecally (into the spine). SP-SAP will be accrued and treated after four weeks observation for toxicities between cohorts. Study duration will be up to 6 months from the start of SP-SAP administration.