View clinical trials related to Cardiac Disease.
Filter by:Aim of the work: To describe the clinical patterns criteria of infants and children with cardiac disease admitted to PICU and their outcome.
Brief summary: Lipoprotein a (Lp(a)) is an independent risk factor for cardiovascular and cerebrovascular disease. Traditionally, the pathogenic role of Lp(a) has been linked to the atherogenic process given its similarity to low density lipoprotein (LDL), however there is a potential for prothrombotic tendencies given its resemblance to plasminogen. The emerging evidence suggests that the prothrombotic properties of Lp(a) contribute not only to arterial but also to venous thrombosis. Lp(a) has the potential to participate in thrombogenesis via several mechanisms: probable platelet aggregation and activation, increased expression of plasminogen activator inhibitor - 1, and reduced production of plasmin. Prior data suggests that Lp(a), can also modify fibrin clot permeability and its susceptibility to lysis. These observations have potentially important implications in patients with a history of myocardial infarction, stroke and venous thromboembolic disease. The investigators propose to conduct a proof-of-concept study to assess the prothrombotic effects of Lp(a), using both quantitative and qualitative assessment of thrombosis, in particular analysing clot structure and dynamics.
The study aims to identify the Following: - 1. incidence and mortality of cardiac Surgery associated -AKI based on the new consensus diagnostic systems of KDIGO (Kidney Disease Improving Global Outcomes). 2. use of biomarkers for the early detection of clinical and subclinical cardiac Surgery associated-AKI. 3. risk factors and prediction models of cardiac Surgery associated-AKI. 4. optimal cardiac surgical procedures including conventional versus minimally invasive approaches, on-pump versus off-pump, and optimal management of cardiac surgical support including duration of CPB, perfusion pressure, hemodilution, and hypothermia during CPB. 5. controversial pharmacologic therapies for the prevention and treatment of cardiac Surgery associated-AKI including statins, sodium bicarbonate, and N-acetylcysteine (NAC).
Amyloid heart disease is an accumulation of fibrillar proteins in the extracellular sector of the heart. Identified on echocardiography as Ventricular hypertrophy. The investigation of a Left Ventricular hypertrophy (LVH) is the most frequent discovery circumstance of amyloid heart disease. Pathophysiological mechanisms poorly understood, resulting in late diagnosis. Transthyretin amyloid heart disease (CATTR) is the most common form of cardiac amyloidosis in the West Indies due to an abnormally high frequency of the Val122Ile and Val107Ile mutations of the transthyretin gene in this population. Val122Ile and Val107Ile mutated-transthyretin are the substitution of valine for isoleucine at codon 122 of the TTR gene ( V122I) and at codon 107 of the TTR gene (V107I). Complications of CATTR are functional changes in heart cells or even death due to mechanical abnormalities (loss of contractility and increased wall stiffness cardiac arousal and conduction disturbances). These disorders result from an electrical abnormality of the heart the reason why the cardiologist performs preventive performance of electrophysiological explorations with EnSite Precision™. It's a registration system used to detect foci of necrosis within the myocardium. Amyloid deposits are areas devoid of electrical activity. Do they detectable by the EnSite Precision™ recording system ?
Patients are part of a family network. When any person in a family becomes critically unwell and requires the assistance of an Intensive Care Unit (ICU), this has an impact on all members of that family. COVID-19 changed visiting for all patients in hospitals across Scotland. It is not known what effect these restrictions will have on patients' recovery, nor do we understand the impact it may have on their relatives or staff caring for them. This study will look at the implications of the visiting restrictions as a consequence of the COVID-19 pandemic upon patients without COVID-19 who are in the cardiothoracic ICU. It will also explore the impact of these restrictions on them, their relatives and staff. This study will be carried out within a single specialised intensive care unit in Scotland using mixed methods. The first arm of this study will use retrospective data that is routinely collected in normal clinical practice. The investigators will compare patient outcomes prior to COVID-19 with outcomes following the implementation of COVID-19 visiting restrictions. The aim is to establish if the restrictions on visiting has an impact on the duration of delirium. Delirium is an acute mental confusion and is associated with longer hospital stays and worse outcomes in this patient group. The second arm of this study involves semi-structured interviews with patients, relatives and staff that will allow deeper exploration of the issues around current visiting policy. The interviews will last approximately 1 hour and will address these issues. They will then be transcribed word for word and analysed using grounded theory, meaning the theories will develop from the data as it is analysed.
to assess the oral mucosal alterations and their prevalence secondary to use cardiovascular drugs in a sample of Egyptian population with cardiovascular diseases .
Contactless and widely available health monitoring technologies are of growing interest in the context of the worldwide COVID-19 pandemic. Remote photoplethysmography (rPPG) is a well-studied technology that interprets variations in skin colour related to blood flow which, when analysed with complex mathematical algorithm, generates vital sign readings. This technology has been refined and embedded in a smartphone app designed to acquire heart rate, respiratory rate and oxygen saturation using a front-facing smartphone camera. Preliminary data comparing the accuracy of smartphone rPPG readings with conventional vital sign monitor readings are promising; however, less than 5% of the population studied in the app development phase had oxygen saturation levels below 95% making it impossible to ensure reliability in these populations. The goal of this study is to compare readings acquired using this rPPG app with the readings from hospital grade, Health Canada approved vital signs monitors used in healthcare settings with a focus on subject with low oxygen saturations. We will also study other sociodemographic and clinical features that may influence the accuracy of the readings. This will be achieved by recruiting consenting adults presenting to care in acute care settings and a designated COVID outpatient clinic. Vital signs will be acquired using the rPPG app and conventional hospital vital sign monitors simultaneously. Readings will be repeated within 2-5 minutes when time permits. Statistical analysis will be performed to analyze the findings and determine the accuracy and precision of the rPPG app readings. It is expected that the vital sign readings acquired with the rPPG app will be almost identical to those acquired using hospital-grade monitors for all subjects regardless of age, gender, skin colour, COVID status and relevant comorbidities.
From December 6, 2019 to March 23, 2020, the research group of Qingkun Fan found a novel protein(temporarily named protein F) in heparin anticoagulant plasma of three patients with heart disease. One patient was diagnosed with multiple myeloma.However, protein F cannot be detected by serum protein electrophoresis. Preliminary studies have shown that this novel protein F have an obvious absorption peak at about 600nm. Placed at 2-8 degrees for 7 days, protein F will be isolated from heparin plasma. To the naked eye, protein F appear to be transparent jelly between the red blood cells and the plasma. The specific protein F, how it is produced, how it causes disease are still unknown. This study will explore how to detect protein F and how it is produced.
The hypothesis is that patients with structural heart disease who are treated by STructural heARt nurses obtain better results in indicators of quality of care, compared with the usual practice (or not assisted) by this type of new interventional cardiology's nursing role.
The survival after intrahospital cardiac arrest has been reported to 15%. In Norway this varies between 16 and 23%.). Many factors are associated with survival after cardiac arrest, both intra- and prehospital. Recent studies have not included information about individual patient factors and the outcome after cardiopulmonary resuscitation (CPR). In the current hospital, we are able to record patient specific information related to a cardiac arrest/CPR situation, and thereby be able to assess patient-related factors associated with both detection, treatment and outcome of CPR.