View clinical trials related to Subarachnoid Hemorrhage (SAH).
Filter by:Subarachnoid hemorrhage (SAH) can cause transient myocardial dysfunction. Recently, it have been reported that myocardial dysfunctions that occur in SAH are associated with poor outcomes. It therefore appears essential to detect theses dysfunctions with the higher sensitivity as possible. Strain measurement using speckle-tracking echocardiography may detect myocardial dysfunction with great sensitivity. The main objective of this study is to assess the prevalence of myocardial dysfunction in "non-severe" SAH (defined by a WFNS grade 1 or 2), using speckle-tracking echocardiography. This study also aims to analyse Strain measurement with classical echocardiography and serum markers (troponin, BNP) of cardiac dysfunction.
Introduction: Increased intracranial pressure (ICP) is considered to be the most important intracranial mechanism causing secondary injury in patients admitted after acute traumatic brain injury (TBI) and intracranial haemorrhage (ICB) including subarachnoid haemorrhage (SAH). Currently, ICP can be measured and monitored only using invasive techniques. The two ICP measurement methods available - intraventricular and intraparenchymal - require both a neurosurgical procedure in order to implant the catheter and probes within the brain. The invasiveness of current methods for ICP measurement limits the diagnoses reliability of many neurological conditions in which intracranial hypertension is a treatable adverse event. A reliable, accurate and precise non-invasive method to measure ICP would be of considerable clinical value, enabling ICP measurement without the need of a surgical intervention. Aim: The aim of this study is to validate a novel non-invasive ICP measurement device by comparing its measurement with the "gold standard" invasive ICP-measurement by intracranial probe. The device used in this study has been been developed in the Telematic Science Laboratory at the Kaunas University of Technology, Lithuania. Methods: The non-invasive ICP measurement method will be assessed prospectively using repeatable simultaneous non-invasive and invasive (standard with intracranial probe) ICP measurements on patients presenting with TBI and SAH. The device method is based on two-depth transcranial doppler (TCD) technique for simultaneously measuring flow velocities in the intracranial and extracranial segments of the ophthalmic artery (OA). The intracranial segment of the OA is compressed by ICP and the extracranial segment of the OA is compressed by the pressure Pe externally applied by the device. Two-depth TCD device is used as an accurate indicator of the balance point (Pe = ICP) when the measured parameters of blood flow velocity waveforms in the intracranial and extracranial segments of OA are identical. The device has the same ultrasound transmission parameters as existing TCD devices and meets all patient safety criteria.
Systemic inflammatory response syndrome (SIRS) is characterized by changes in body temperature, heart rate, respiratory rate, or peripheral blood white cell count, and is often a heralding manifestation of blood infection (ie., sepsis or bloodstream infection). SIRS however can occur as a result of a stroke without sepsis. When SIRS occurs after stroke, patients are subjected to blood cultures and tests to exclude sepsis, and are often empirically treated with antibiotics potentially leading to a serious gastrointestinal infection called C. difficile enterocolitis, and bacterial antibiotic resistance. Development of a blood test that could provide sufficient sensitivity to exclude blood infection in stroke would therefore prevent numerous tests, cultures, antibiotics, and costs. In recent years, there has been increasing evidence that procalcitonin (PCT) may serve as diagnostic marker to distinguish between infectious and non-infectious SIRS. The investigators hypothesize that PCT can differentiate SIRS after stroke into patients with infection and those without infection. Such screening tests would provide crucial information to clinicians that could improve patient care by reducing the number of tests and antibiotics used, as well as antibiotic-related infections, bacterial resistance and hospital costs. Hypothesis: The investigators hypothesize that PCT can be used to define normal (SIRS without infection) and abnormal values SIRS with infection (i.e., blood, lung, urinary, spinal fluid) in a population of patients with aneurysmal subarachnoid hemorrhage (SAH). Specific Aim 1.) To establish normal values of PCT in patients with aneurysmal subarachnoid hemorrhage and SIRS. Specific Aim 2.) Derive the sensitivity and positive predictive value of abnormal PCT values in patients with aneurysmal SAH, SIRS with true systemic infection.
The purpose of this study is to determine whether treatment guided also by ICP mean wave amplitude improves outcome compared to international standard care in patients with SAH.