View clinical trials related to Biliary Colic.
Filter by:Hospital Scene #1: A 6-year-old arrives in the Emergency Department at McMaster Children's Hospital (MCH) complaining of pain in his lower right side. His Dad explains the pain has been going on for a few hours and that Advil and Tyelnol haven't helped at all. He's anxious and concerned about his son because he never complains about pain - so this must be bad. After he has been seen by the doctor, the appendix appears to be the problem and the boy needs to have it removed. Dad wants his son's pain to go away but is worried because he once got a high dose of a medication and had some unwanted side effects. Hospital Scene #2: A 14-year-old girl has been experiencing migraine headaches for the past months and is awaiting an appointment with a specialist. Today, however, the pain is the worst it's been. Mom has picked her up from school and brought her to MCH not knowing what else to do to help her. The Advil and Tylenol have not improved her pain. She desperately wants the pain to go away but is worried because she read that some pain medicines are used without any studies done to see if they work and if they are safe. (https://www.ottawalife.com/article/most-medications-prescribed-to-children-have-not-been-ade quately-studied?c=9). In both cases, these children need medicine to help their pain. The treating doctors want to give them pain medicine that will 1) be safe and 2) make the pain go away. This is what parents and the child/teenager, and the doctors want too. Some pain medicines like opioids are often used to help with pain in children. Unfortunately, opioids can have bad side effects and can, when used incorrectly or for a long time, be addictive and even dangerous. A better option would be a non-opioid, like Ketorolac, which also helps pain but is safer and has fewer side effects. The information doctors have about how much Ketorolac to give a child, though, is what has been learned from research in adults. Like with any medication, the smallest amount that a child can take while still getting pain relief is best and safest. Why give more medicine and have a higher risk of getting a side effect, if a lower dose will do the trick? This is what the researchers don't know about Ketorolac and what this study aims to find out. Children 6-17 years old who are reporting bad pain when they are in the Emergency Department or admitted in hospital and who will be getting an intravenous line in their arm will be included in the study. Those who want to participate will understand that the goal of the study is to find out if a smaller amount of medicine improves pain as much as a larger amount. By random chance, like flipping a coin, the child will be placed into a treatment group. The difference between these treatment groups is the amount of Ketorolac they will get. One treatment will be the normal dose that doctors use at MCH, and the other two doses will be smaller. Neither the patient, parent nor doctor will know how much Ketorolac they are getting. Over two hours, the research nurse or assistant will ask the child how much pain they are in. Our research team will also measure how much time it took for the pain to get better, and whether the child had to take any other medicine to help with pain. The research team will also ask families and patients some questions to understand their perceptions of pain control, pain medicines and side effects they know of. This research is important because it may change the way that doctors treat children with pain, not just at MCH but around the world. The results of this study will be shared with doctors through conferences and scientific papers. It's also important that clinicians share information with parents and children so that they can understand more about pain medicines and how these medicines can be used safely with the lowest chance of side effects.
Benign gallbladder disease, including acute cholecystitis, chronic cholecystitis, biliary dyskinesia, and biliary colic, is very common, with over 300,000 surgical cholecystectomies performed per year in the US. Unfortunately, complication rates in elderly patients or patients with many comorbidities are high. These patients are often managed with percutaneous tube drainage of the gallbladder (percutaneous cholecystostomy). The recurrence rate of calculous cholecystitis after cholecystostomy tube removal is as high as 35% at 1 year. These patients are thus faced with permanent cholecystostomy tube drainage, high-risk surgery, or cholecystostomy tube removal and risk of repeat cholecystitis. Gallbladder cryoablation is an alternative to surgical cholecystectomy which is performed percutaneously and does not require general anesthesia. Published evidence on the outcomes of gallbladder cryoablation is however limited at this point in time. The purpose of the proposed study is to follow the outcomes of high-risk patients who undergo gallbladder cryoablation.