View clinical trials related to Hemorrhage.
Filter by:The aim of the study was to evaluate the relationship between superior vena cava (SVC) flow measurements within the first 24 hours of life and development of intraventricular hemorrhage in preterm born infants.
This is a prospective clinical study designed to assess blood loss in intracapsular and extracapsular hip fractures undergoing operative fixation at a Level II trauma center. It is well established in the orthopedic literature that tranexamic acid (TXA) decreases blood loss and need for postoperative blood transfusion in hip fracture patients as well as total joint arthroplasty patients. A typical dosing pattern, and the dosing pattern employed at our institution, is 1 gram IV infused prior to incision followed by 1 gram IV infused at the time of wound closure.
This project is a prospective observational study aimed to assess the use of non-invasive hemoglobin measurement in anticipating postpartum hemorrhage and predicting estimated blood loss. The non-invasive hemoglobin device is the Radical-7 Pulse CO-Oximeter which is a spectrophotometer manufactured by Masimo, Inc. Participants in the study will be undergoing a cesarean delivery at the George Washington University Hospital and during delivery the patient will wear the device on their fingertip so that hemoglobin measurements can be continuously recorded. No changes from routine medical management will occur during the study.
A double-blind, randomized trial (1:1) to characterize the local and systemic pharmacokinetics (PK) of two DPV-LNG vaginal ring formulations
Introduction Patients with severe brain injury are often restricted to bed rest during the early period of brain injury which may lead to unwanted secondary complications. There is lack of evidence of when to initiate the first mobilisation. The Sara Combilizer® is an easy and efficient tool for mobilising patients with severe injuries, including brain injury. Through a randomised cross-over trial the investigators will investigate the impact of early mobilisation on patients with severe acquired brain injury caused by traumatic brain injury, subarachnoid brain injury or intracranial haematoma. The investigators hypothesise that mobilisation using the Sara Combilizer® does not affect partial oxygenation of brain tissue.
during PCNL; A few milliliters of nor-epinephrine is injected into the intended tract after puncture of pelvicalyceal system and before its dilatation compared to injection of saline (placebo). hemoglobin change & blood loss is estimated and will compared.
The purpose of this study is to observe the relationship between the changes of circulating exosomes and the development and outcome of the disease in patients with intracerebral hemorrhage, and to search for early serum markers and potential intervention targets for disease monitoring in patients with intracerebral hemorrhage
Aneurysmal subarachnoid hemorrhage (aSAH) is bleeding into the space between the brain and the tissues that surround the brain as a result of a ruptured aneurysm and is a type of stroke associated with high morbidity and mortality. Those that survive the initial bleed are critically ill and require prolonged intensive care unit stays since they are at risk for a multitude of secondary insults that can further worsen functional outcomes. An especially feared secondary insult is delayed cerebral ischemia (DCI), which is a lack of blood flow to a particular portion of the brain that can result in an ischemic stroke and produce profound neurologic deficits. How DCI develops in some people after aSAH and not others is unknown, but many have hypothesized various mechanisms such as 1) cerebral vasospasm, a focal anatomic narrowing of the blood vessels in the brain that could decrease downstream blood flow, 2) abnormal electrical activity, and 3) microthrombi, or the formation of small blood clots. It is vitally important to identify a therapy that could protect the brain from these secondary insults that happen days after the initial brain bleed. Ketamine is a drug used in the majority of hospitals around the world for various indications, including general anesthesia, sedation, and for pain. Ketamine blocks a specific receptor that is present within the brain and in doing so could play a critical protective role against these secondary insults after aSAH by blocking the flow of dangerous chemicals. Ketamine may provide the following beneficial properties after aSAH: 1) pain control, 2) seizure prevention, 3) blood pressure support, 4) dilation of the brain blood vessels, 5) sedation, 6) anti-depressant, and 7) anti-inflammatory. This project is designed to test whether ketamine sedation in the intensive care unit after aneurysm repair provides better outcomes than the currently used sedation regimen.
The problem of delayed bleeding after endoscopic resection is becoming important due to the growing number of indications for anti-aggregation or anticoagulant treatment for cardiovascular reasons in the aging populations. Previous studies have shown that in patients at high risk of bleeding, the use of (PuraStat®), a simple and easily applicable solution, decreases the rate of delayed bleeding by promoting wound healing. Various preventive treatments, such as the prophylactic use of clips, have been tried to prevent the occurrence of delayed bleeding, but to date, no treatment has clearly shown its effectiveness. In addition, preventive hemostasis with clips is difficult and costly. The main objective is to compare the efficacy of PuraStat® to the standard treatment in reducing delayed bleeding after colorectal ESD in patients at high risk of delayed bleeding. The secondary objectives are to compare the same two strategies in terms of effectiveness and side effects. The primary outcome measure is the percentage of delayed bleeding at 30 days after surgery (ESD).
Postpartum hemorrhage (PPH) is the leading cause of maternal morbidity and mortality worldwide. Up to 80% of PPH is caused by uterine atony, the failure of the uterine smooth muscle to contract and compress the uterine vasculature after delivery. Laboratory and epidemiological studies show that low extracellular and serum calcium levels, respectively, decrease uterine contractility. A pilot study performed by the investigators supports the hypothesis that intravenous calcium chloride is well tolerated and may have utility in preventing uterine atony. The proposed research will establish the relationship between uterine tone and calcium through a clinical trial with an incorporated pharmacokinetic and pharmacodynamic (PK/PD) study. In a randomized, placebo-controlled, double-blind trial, investigators will establish the effect of 1 gram of intravenous calcium chloride upon quantitative blood loss and uterine tone during cesarean delivery in parturients with high risk of uterine atony. Investigators will concurrently collect serial venous blood samples to measure calcium for PK/PD modeling in this pregnant study cohort. High-quality clinical research and development of novel therapeutics to manage uterine atony are critical to reduce the high maternal morbidity and mortality from PPH.