Active clinical trials for "Heart Septal Defects, Atrial"

The objectives of the study are: To determine the efficacy of the Figulla Flex II device compared with that of the Amplatzer ASO device for transcatheter closure of secundum atrial septal defects To determine the safety of the Figulla Flex II device compared with that of the Amplatzer ASO device for transcatheter closure of secundum atrial septal defects This is a randomized, controlled, multi-centre trial of the efficacy and safety of the Occlutech septal occluder (Figulla Flex II) compared to the AGA septal occluder (Amplatzer ASO) for transcatheter closure of secundum atrial septal defects in patients.

The foramen ovale is an opening in the interatrial septum. It results from an incomplete coverage of the ostium secundum. In 10 to 24% of the general population incomplete fibrosis of the interatrial septum is a clinical finding and is defined as a patent foramen ovale (PFO). The Nit-Occlud® PFO umbrella is a permanent implant for closing PFOs that is implanted in the PFO using minimally invasive catheter technology. The umbrella is made from Nitinol, a material with superelastic properties, which, in its relaxed state, has the form of a double umbrella. This is a single-center, non-comparative, prospective interventional clinical investigation involving 1 center in Germany to assess the effectiveness, safety and practicability of implantation of the Nit-Occlud PFO® Closure Device.

The purpose of this study is to examine the pharmacokinetics, pharmacodynamics, and pharmacogenomics of dexmedetomidine in the following three pediatric patient populations: patients with bi-directional cavopulmonary anastomosis or a Fontan procedure, patients who have had a cardiac transplant, and patients with otherwise normal physiology who are undergoing closure of a patent ductus arteriosis or atrial septal defect.

The objective of this post-market registry is to assess the clinical use of the Lifetech CeraFlex™ Closure System in a real-world and on-label fashion.

Evaluate the safety and efficacy of the GORE® CARDIOFORM ASD Occluder in the percutaneous closure of ostium secundum atrial septal defects (ASDs)

The purpose of this study is to evaluate the sensitivity and specificity of the Cardiox Flow Detection System (FDS) in identifying an intracardiac right-to-left shunt (RLS) compared to the results of transesophageal echocardiography (TEE). RLS intracardiac shunts are associated with a number of clinically important syndromes including paradoxical thromboembolism (causing stroke or other systemic infarct), migraine headaches (particularly with aura), desaturation with obstructive sleep apnea, and decompression illness. From a research perspective, the detection of shunts in subjects with these types of syndromes is critical in helping to define the role of RLS in these disease processes. From a clinical perspective, shunt detection will be increasingly important in an era where interventional procedures for repairing cardiac defects are available for subjects determined to be at risk. The currently accepted reference standard for detection of an intra-cardiac patent foramen ovale/atrial septal defect (PFO/ASD) RLS is a transesophageal echocardiography (TEE), a procedure that is invasive, uncomfortable, and requires conscious sedation. Alternative options include transthoracic echocardiography (TTE) with injection of agitated saline (with and without Valsalva strain), a procedure that is far less sensitive than TEE due to the echocardiography imaging limitations seen in many adults. Finally, transcranial Doppler (TCD) with injection of agitated saline (with and without Valsalva strain) is a newer entrant into this arena that does not require sedation or any invasive instrumentation. The Cardiox Model 100 FDS utilizes an optical sensor positioned on the surface of the subject's skin at the scaphoid fossa of the ear. Next, a predetermined dose of an indicator dye, indocyanine green (ICG), is injected at a predetermined rate into a peripheral antecubital vein of the subject while the subject performs a breathing maneuver called a Valsalva maneuver. The exhalation by the subject into a mouthpiece connected to a pressure transducer via a flexible tubing extension, or its equivalent (ie, performing the Valsalva maneuver), is an essential step for all existing RLS detection methods. The Valsalva maneuver by the subject creates a pressure differential between the right and left sides of the heart. This Valsalva maneuver results in blood flow from the right side of the heart to the left side of the heart through an ASD, and/or causes a PFO, if present, to open, also allowing blood to flow directly from the right side to the left side of the heart without passing through the lungs (pulmonary vasculature) for oxygenation. The Earpads, including their fluorescence sensor arrays (FSA), are used to measure the relative concentration (ie, fluorescence signal level) of ICG dye in the bloodstream as a function of time. If a premature inflection or peak occurs in the ICG dye concentration level at a time point prior to the rise and fall of the concentration associated with the main bolus of indicator, then a RLS is present in the heart. The amplitude of this premature ICG dye-dilution curve (referred to as "RLS-indicator dilution curve") is used to subsequently quantify the magnitude of the right-to-left shunt by ratiometrically comparing the amplitude of this RLS indicator dilution curve to the amplitude of the main indicator dilution curve associated with that portion of the injected ICG dye that follows the normal pathway from the right side of the heart, through the lungs, and into the left side of the heart (referred to as "normal indicator dilution curve").

The primary objective of the GORE® Septal Occluder Study is to evaluate the safety and efficacy of the occluder device in the treatment of transcatheter closure of ostium secundum atrial septal defects (ASDs). The data obtained in this study will evaluate this next generation device as compared to outcomes of prior studies conducted with the GORE® HELEX® Septal Occluder.

Prospective mono-center clinical study to evaluate the safety and effectiveness of an intracardiac septal closure device in patients with atrial septum defect (ASD)

This is a prospective multicenter clinical study to evaluate the safety and effectiveness of an intracardiac septal closure device in patients with atrial septum defect (ASD) and patent foramen ovale (PFO).

Volume overload due to left-to-right shunting in patients with atrial septal defect type secundum causes pulmonary vascular disease over a long period of time. Pulmonary vascular resistance can be assessed non-invasively using bicycle stress echocardiography. By measuring cardiac output and pulmonary artery pressures at different stages of exercise, a pressure-output plot can be obtained. The slope of the pressure-output plot reflects pulmonary vascular resistance. In patients undergoing ASD repair after the age of 40 years, pulmonary vascular resistance was higher when compared to age-matched controls, indicating the presence of mild pulmonary vascular disease. Bosentan has been shown to decrease pulmonary vascular resistance. The investigators hypothesize that in patients with an ASD type secundum, who underwent ASD repair after the age of 40 years, administration of bosentan decreases pulmonary vascular resistance as assessed by bicycle stress echocardiography.