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Syncope clinical trials

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NCT ID: NCT01914146 Withdrawn - Diabetes Clinical Trials

Insulin Therapy and Falls Due to Orthostatic Hypotension

Start date: April 2015
Phase: N/A
Study type: Interventional

In the proposed study, the investigators examine in older adults with Type 2 diabetes the impact of beginning insulin therapy on the orthostatic drop in blood pressure as well as the response of arterial blood pressure and Doppler measures of cerebral blood flow during upright tilt. The investigators hypothesize that in older adults with Type 2 diabetes, the cardiovascular effects of insulin would precipitate or worsen orthostatic intolerance not present at baseline.

NCT ID: NCT01914133 Completed - Syncope Clinical Trials

Acarbose and Older Adults With Postprandial Hypotension

PPH
Start date: January 2014
Phase: Phase 2
Study type: Interventional

The current proposal will determine if blocking carbohydrate intake in the small intestine with Acarbose can be a possible therapy for older adults with (PPH) Post Prandial Hypotension (a drop of blood pressure after eating), which can result in falls.

NCT ID: NCT01847378 Recruiting - Chest Pain Clinical Trials

Feasibility of Contact Force Catheter Mapping and Ablation in Epicardial and Endocardial Ventricular Tachycardias

EPICONTAC-VT
Start date: June 2013
Phase: N/A
Study type: Observational

Ventricular tachycardia is one of the commonest cause of sudden death in chronic chagas disease. As most ventricular tachycardias originate from scar in patients with heart disease, catheter ablation is an important step in patient treatment. Identification of fibrosis prior to ablation of sustained ventricular tachycardia (SVT) might reduce the time of anesthesia, procedure time, radiation exposure and possibly the risk of complications. Knowledge of arrhythmia circuit within scar allows planning strategies for each procedure. Condreanu et al. stablished that voltages inferior to 6.52 mV (unipolar) and 1.54mV (bipolar) are useful tools in detecting scar during electroanatomic mapping. Accuracy, however when compared to magnetic resonance imaging is limited due to difficulties in maintaining good contact between ablation catheter and ventricular wall. Contact force catheters might help increase accuracy of voltage mapping because they allow detection of poor contact areas. Although the threshold for identification of scar in ischemic and non ischemic patients during electroanatomical mapping is already known, this parameters still lacking for chronic chagasic individuals. A marked qualitative histological difference between these fibrous scars supports the hypothesis that voltage scar in chagasics might be different. Catheter ablation contact with endo and epicardial surface is an important issue when ablating arrhythmias. Conventional catheter ablation is not equipped with sensors capable of detecting degree of contact with the target. To our knowledge, the literature lacks information in regard to late lesions produced by a known contact force pressure "in vivo". The pattern of electrical activation in these patients and their relationship with local coronary veins for resynchronization likely to approach through the coronary sinus can be useful in defining chagasic that can benefit from resynchronization. 1. Compare endocardial and epicardial impedance and voltage using CARTO 3 with fibrosis on 3T MRI 2. Correlate areas of late activation within scar during activating mapping in sinus rhythm with different signal intensity in 3T MRI 3. Evaluate the influence of contact pressure during application of radiofrequency in making fibrosis analyzed 30 days after the procedure using a 3T MRI. 4. Assess the site of latest left ventricular activation in sinus rhythm and correlate with the coronary veins location

NCT ID: NCT01831297 Completed - Syncope Clinical Trials

Haemodynamic Feasibility Study of Sensors Within a Tilting Table Examination

Start date: August 2012
Phase: N/A
Study type: Observational

This study´s aim is to explore physiological associations concerning pulse wave velocity, heart rate and blood pressure in order to make taking the blood pressure more comfortable.

NCT ID: NCT01814228 Completed - Clinical trials for Neuromediated Cardioinhibitory Syncope

Efficacy of Transcatheter Ablation Using Anatomic Approach of Ganglionated Plexi Located in the Right Atrium to Prevent Neuromediated Cardioinhibitory Syncope

Start date: September 2013
Phase: N/A
Study type: Interventional

Cardioinhibitory neurocardiogenic syncope (CNS) or vasovagal syncope, is the most frequent aetiology of syncope in young people without apparent cardiac or neurological pathology. It is usually caused by inappropriately trigger-activated cardiac reflex which finally precipitates asystole, sinus bradycardia, or atrioventricular (AV) block [1]. Despite young patients affected by CNS have an excellent prognosis when electro-structural heart diseases are excluded [2], their quality of life may be seriously affected by recurrent episodes [2, 3]. Cardiac pacing might help to control symptoms and therefore is considered in patients aged more than 40 years old with recurrent episodes and documented cardioinhibitory response [1, 4]. In young individuals, the role of cardiac pacing is dubious due to predicted frequent device substitutions and adverse ventricular remodeling over time. Recently, radiofrequency (RF) biatrial ablation of ganglionated plexi (GP) has showed promising results in the short and long-term treatment of reflex syncope, functional atrioventricular block, or sinus node dysfunction [5, 6]. Nonetheless, strong evidences are emerging about efficacy of transcatheter ablation limited to ganglionated plexi in the right atrium with the possibility to avoid side-effects related to left-sided procedures [6] Aim of study To evaluate in a large cohort of patients effectiveness and safety of gangliar transcatheter ablation in the right atrium to obtain atrial denervation and prevent CNS. Study population and methods Twenty consecutive patients affected by cardioinhibitory neurocardiogenic syncope will be enrolled in the study. Inclusion criteria: - age between 18 and 60 years - 3 syncopal episodes at least of likely CNS in the previous 2 years - marked cardioinhibitory response to HUT or documented asystolic pauses at internal loop recorder registration [7]. Cardioinhibition will be considered as elicitation of asystolic pause (sinus arrest or AV block) ≥ 3 seconds associated to syncope or ≥ 6 seconds and related presyncope. Exclusion criteria: - documented myocardial and/or valvular abnormalities on 2D echocardiogram (ejection fraction lower than 50%) - documented tachyarrhythmias as possible causes of symptoms - channelopathies (Brugada syndrome, LQT or SQT syndrome) - ventricular preexcitation - symptomatic orthostatic hypotension diagnosed by standing blood pressure measurement - pregnancy in women - previous cardiac pacemaker implantation. After obtaining informed consent patients will undergo to basal electrophysiological study (EPS) to record AH interval, HV interval, Wenckebach cycle length, sinus node recovery time (SNRT) and correct sinus node recovery time (cSNRT); the same parameters will be recorded immediately after ablation. Following basal EPS an accurate (200 valid points at least) electroanatomic right atrium mapping (CARTO 3™ Biosense Webster, Inc) will be performed and subsequently radiofrequency delivered at right atrial anatomic sites where the underlying presence of ganglionated plexi (GPs) clusters was regarded as highly probable, on the basis of anatomical studies [8-11]: the supero-posterior area (superior right atrial GP, adjacent to the junction of the superior vena cava and the posterior surface of RA), the middleposterior area (posterior right atrial GP, posterior surface of the RA adjacent the interatrial groove), the infero-posterior area (inferior right GP placed between the inferior vena cava, coronary sinus ostium, and near the atrioventricular groove). Transcatheter ablation will be performed using an 8mm-tip catheter (Biosence-Webster Navistar DS 8mm) or an irrigated 4 mm-tip catheter with force control system (Biosence Webster Smarttouch). Ablation will be performed until complete elimination of local atrial electrical activity. Response to radiofrequencies delivery will be considered successful in case of asystolic pause or cardiac cycle lengthening of 30% (compared to basal cycle) at least. To prolong RF delivery despite asystolic response, a quadripolar catheter will be positioned in right ventricle to backup stimulation. To avoid phrenic nerve injury, high amplitude stimulation will be performed just before radiofrequency delivery to the superior right atrial GP. HRV analysis will be performed on admission, at 2 hour after ablation and patients discharge. The HRV analysis will include the following parameters: mean, maximal and minimal heart rate, SDNN (standard deviation of Normal-Normal), RMSSD (root mean square successive difference), pNN50 (percentage of differences between adjacent N-N intervals that are >50 msec), LF (low frequency), HF (high frequency). Moreover, an HUT and an HRV analysis will be performed at 1, 3, 6 and 12 months after ablation procedure during the follow up.

NCT ID: NCT01802398 Completed - Syncope Clinical Trials

Improving Syncope Risk Stratification in Older Adults

SRS
Start date: April 2013
Phase:
Study type: Observational

Syncope (temporary loss of consciousness) is a frequent reason for an emergency department (ED) visit among older adults. The current ED evaluation of syncope frequently leads to hospitalization, results in low diagnostic yield, and is enormously costly. The purpose of this protocol is to improve risk prediction for syncope. Improved risk prediction will inform the design of interventions to safely reduce unnecessary health service use. This is a multi-center, prospective, observational cohort study of older (age≥60 years) adults who present to an emergency department with syncope (otherwise known as fainting). The primary outcome is a composite of 30-day cardiac death and serious cardiac events. Study Aims and Hypotheses are: Specific Aim 1. Describe serious outcomes after unexplained syncope; rates and reasons for admission; and frequency, diagnostic yield, and therapeutic impact of inpatient diagnostic tests. H1: Current patterns of care representing a diversity of practice settings and patient populations are costly with low clinical benefit. Specific Aim 2. Derive and validate a novel risk prediction model for 30-day cardiac death and serious cardiac outcomes after unexplained syncope. H2: Explicit criteria including contemporary cardiac biomarkers will improve risk stratification compared to unstructured physician assessment and published risk models. Specific Aim 3. Assess safety and costs of a risk-tailored diagnostic algorithm compared to existing care for unexplained syncope. H3: A risk-tailored diagnostic algorithm can safely reduce the costs of evaluating unexplained syncope in older adults.

NCT ID: NCT01797289 Completed - Pulmonary Embolism Clinical Trials

Prevalence of Pulmonary Embolism in Patients With Syncope

PESY
Start date: February 2012
Phase: N/A
Study type: Interventional

All patients consecutively referred with the first episode of transient and short-lasting loss of consciousness will have a diagnostic workup for the assessment of the most common causes of syncope, and will be evaluated for the presence of pulmonary embolism (PE) with the use of an internationally accepted algorithm including a pre-test clinical probability (PTP according to the method of Wells et al.) and a high-sensitivity quantitative D-dimer assay. If the PTP is low and D-dimer negative, PE will be excluded. All other patients will undergo confirmatory diagnostic tests (either computerized tomography or ventilation/perfusion lung scanning) in order to confirm or rule out the presence of PE.

NCT ID: NCT01795469 Completed - Syncope Clinical Trials

Abdominal and Lower Extremity Compression During Tilt Table Testing in Adolescent POTS Patients

Start date: February 2013
Phase: N/A
Study type: Interventional

Postural orthostatic tachycardia syndrome (POTS) is a common cause of orthostatic intolerance in adolescents and adults. Compression stockings are commonly recommended as a treatment modality for POTS, but the effects of abdominal and lower extremity compression during tilt table testing have not been measured in adolescent patients. The aims of our study are to compare heart-rate changes and symptom onset during tilt table testing (a) with and without abdomen/lower extremity compression and (b) with abdominal compression only versus lower extremity compression only. During phase 1, 20 adolescents with POTS will undergo up to 10 minutes of tilt without compression (trial #1), a repeat study of up to 10 minutes with full compression (trial #2), and a third study without compression up to 10 minutes (trial #3). Compression will be performed using the non-inflatable Zoex anti-shock garment. During study phase 2, an additional 20 adolescent POTS patients will undergo up to 10 minutes of tilt without compression (trial #1), a repeat study of up to 10 minutes with abdominal compression only [n=10] or lower extremity compression only [n=10] (trial #2), and a third study repeated without compression up to 10 minutes (trial #3). To limit compression to the abdomen only, we will use the Zoex garment strap numbers 4 and 5 (thigh and abdomen) without straps 1-3 (lower extremities). For lower extremity-only compression, we will use Zoex garment straps 1-4 (lower extremity and thigh) without strap 5. Data collected will include mean and peak heart rates and timing of symptoms with each trial. A paired-samples t-test will be used to compare mean heart rates between trials for each study phase. Hazard analyses will be used to assess time-based endpoints.

NCT ID: NCT01791816 Active, not recruiting - Clinical trials for Postural Tachycardia Syndrome

Mechanisms of Vasovagal Syncope

Start date: February 2013
Phase: Early Phase 1
Study type: Interventional

Vasovagal Syncope (simple postural faint) is the most common cause of acute loss of consciousness. Postural tachycardia syndrome(POTS) is the most common chronic form of postural lightheadedness. Together they afflict many Americans, mostly young women, who are prevented from gainful employ or school attendance. The underlying mechanism is not known. Our past work suggests that a simple molecule, nitric oxide, acts to subvert normal blood flow controls causing blood to pool in the gut when standing. Our proposal will show the mechanism behind this problem and will indicate effective medical treatments. Patients will be compared to healthy control subjects.

NCT ID: NCT01721369 Completed - Clinical trials for Brief Loss of Consciousness

Applicability of Syncope Guidelines in Cataluña

SYNCAT
Start date: November 2011
Phase:
Study type: Observational

The aim of SYNCAT study is to study the level of adherence of the centers in Cataluña tu the Syncope Guidelines ESC2009 for the diagnosis and treatment of syncope and the impact that following them can have in the prognosis of these patients.