View clinical trials related to Renal Colic.
Filter by:Renal colic is usually caused from an obstructing stone along the ureter. Some of the patients present with a high level of creatinin in the blood, even though there is a normal functioning contralateral kidney. Furthermore creatinin is not an ideal marker for renal function during acute changes. Several works have shown that modern urinary markers such as NGAL (neutrophil gelatinase-associated lipocalin), KIM-1 (Kidney Injury Molecule-1) and others rise earlier and are much more sensitive for kidney insult. There is a lack of research on their role in acute kidney obstruction
Kidney stone is one of the most common diseases in every human society and also Iran. What is normally used to treat renal colic pain is Intravenous Opioid with a variety of side effects including hypotension, respiratory depression and apnea, nausea and vomiting. Regarding less complications of Intravenous Acetaminophen, we aimed to compare it with Intravenous Morphine in management of renal colic pain.
In this study we will compare pain intensity and side effects at different time points after the intranasal administration of desmopressin or placebo in patients with acute renal colic pain.
The main objective of this study was to demonstrate the non-inferiority of intravenous paracetamol relative to intravenous ketoprofen when treating renal colic in an emergency ward. Efficacy is measured by the change in verbal numeric scale (vns) for pain at 30 minutes.
Study aims to assess patient-recorded outcomes of pain control medications prescribed in the ER after visits for specific painful injuries/illnesses.
The purpose of this study is to determine whether sublingual Buprenorphine is as effective as Iv Morphine sulfate on pain control of the patients with acute renal colic in the emergency department.
This study is to see whether the combination regimen of ketorolac and nefopam is superior to that of ketorolac and morphine in controlling ureter stone-related acute flank pain.
Computed tomography (CT) scanning is overused, expensive, and causes cancer. CT scan utilization in the U.S. has increased from an estimated 3 million CTs in 1980 to 62 million per year in 2007. From 2000 through 2006, Medicare spending on imaging more than doubled to $13.8 billion with advanced imaging such as CT scanning largely responsible. CT represents only 11% of radiologic examinations but is responsible for two-thirds of the ionizing radiation associated with medical imaging in the U.S. Recent estimates suggest that there will be 12.5 cancer deaths for every 10,000 CT scans. Renal colic is a common, non-life-threatening condition for which CT is overused. As many as 12% of people will have a kidney stone in their lifetime, and more than one million per year will present to the emergency department (ED). CT is now a first line test for renal colic, and is very accurate. However, 98% of kidney stones 5mm or smaller will pass spontaneously, and CT rarely alters management. A decision rule is needed to determine which patients with suspected renal colic require CT. While the signs and symptoms of renal colic have been shown to be predictable, no rule has yet been rigorously derived or validated to guide CT imaging in renal colic. A subset of patients with suspected renal colic may have a more serious diagnosis or a kidney stone that will require intervention; however the investigators maintain that clinical criteria, point of care ultrasound and plain radiography (when appropriate), will provide a more comparatively effective and safer approach by appropriately limiting imaging.
The purpose of this study is to determine the overall sensitivity and specificity of hydronephrosis on point-of-care bedside ultrasound to identify hydronephrosis as compared to hydronephrosis found by CT.
The purpose of this study is to determine whether nasal fentanyl is effective in the treatment of renal colic in adults in emergency department.