View clinical trials related to Patent Foramen Ovale.
Filter by:The ACHDi Registry study will create a foundational database for adult congenital heart disease interventions. This Pan-Canadian Registry will collect clinical and patient-reported information that will enable the evaluation of care processes and outcomes in five most common ACHDi interventions by enabling prospective and retrospective registry-based studies to answer important clinical practice and policy-relevant questions.
Multi centre, international, post market registry to monitor the clinical performance and safety of an atrial septal closure device with biodegradable framework in patients with clinically significant atrial septum defect (ASD) or patent foramen ovale (PFO) in routine clinical use
Multi-center, prospective, randomized, placebo- and sham-controlled study to evaluate the GORE® CARDIOFORM Septal Occluder for migraine headache relief
It has been proposed that there would not be an increased risk of DCI after closure of the interatrial communication, i.e. patent foramen ovale (PFO).
In summary, the investigators propose to study elite Croatian breath-hold and SCUBA divers. The investigators will quantify breath-hold hypoxia- and SCUBA diving-induced pulmonary hypertension and right heart function to investigate the relationships between PFO and IPAVA blood flow. The investigators will use a placebo-controlled intervention (sildenafil) to reduce pulmonary arterial pressure in these subjects to examine the impact of the change in pressure (or absence of change) on the relationships determined above.
The overarching goal of this study is to examine cardiopulmonary and respiratory physiology pre and post PFO/ASD closure in patients who are undergoing surgical closure of their PFO/ASD.
A patent foramen ovale (PFO) is present in ~30% of the general population. The PFO has historically been considered to be trivial. However, recent work by the investigator's group and others has identified that, compared to individuals without a PFO, those with a PFO have worse pulmonary gas exchange efficiency, have a higher core body temperature, blunted ventilatory responses to chronic hypoxia and acute carbon dioxide and increased susceptibility to altitude illnesses such as acute mountain sickness, and high altitude pulmonary edema (Lovering, Elliott & Davis J Appl Physiol 2016). Specific to this application,subjects with a PFO may have worse pulmonary gas exchange efficiency because a PFO is a potential source of right-to-left shunt that will make pulmonary gas exchange efficiency worse. If true, then this may negatively impact exercise capacity and/or exercise tolerance. Further, in those with a PFO compared to those without, preliminary work from the investigator's lab indicates that there may be an effect of PFO size on pulmonary gas exchange efficiency. This is such that those with a large PFO (grade 3 or higher) display significantly worse gas exchange efficiency compared to those with a small (grade 2 or lower) or no PFO,even at low exercise workloads. Additionally, the investigators were curious as to whether there would be a sex effect, but due to logistical constraints, the investigators were unable to recruit an equal number of female and male subjects. Thus, in addition to the potential size effect on the investigators outcome measures, the investigators would like to build on this work by examining the potential effect of biological sex. Although a PFO has been traditionally considered to have a minimal impact of physiology and pathophysiology, emerging evidence suggests this may not be the case. The investigator's lab is focused on understanding how and why a relatively small hole in the heart (PFO) can have a relatively large impact on cardiopulmonary and respiratory physiology, and how these impacts may be based on the size of the PFO.
Patent Foramen Ovale, is an embryonic remnant, formed by apposition of the septum primum and septum secondum composing the interatrial septum. This foramen ovale is permeable during intra-uterine life and allows inter-auricular communication. It tends to close at birth, due to increased pressure from the left atrium. However, it remains permeable in almost 25% of the general population. Several studies have shown that this cardiac "anomaly" associated with the atrial septum aneurysm (ASA), easily diagnosed by ultrasound, is more common in patients with cryptogenic stroke. The diagnosis of patent foramen ovale is performed by a cardiac ultrasound with a "bubble" test: a volume of micro-bubbles obtained by emulsion of saline (9 ml) and air (1 ml) is injected intravenously. The path of these microbubbles is observed by trans-thoracic ultrasound and can detect a shunt right / left. This test can be sensitized by Valsalva maneuver and / or cough. The shunt is quantified by the number of microbubbles flowing through the right / left shunt: positive diagnosis: more than 3 bubbles passing; minimal shunt <10 bubbles, moderate shunt between 10 and 30 bubbles, massive shunt if> 30 bubbles. Patent Foramen Ovale Closure is an interventional cardiac catheterization procedure by venous femoral approach. Several clinical trials show that Patent Foramen Ovale closure prevents stroke recurrence in young people and that this procedure is more effective than antiplatelet therapy. Nevertheless, an increase in the incidence of peri-procedural atrial fibrillation has been observed. For some researchers, this would be explained by irritation of the atrial muscle due to the establishment of the device. To date, only percutaneous closures made in clinical trials have been evaluated. In fact, there are no specific recommendations. The use in clinical practice of this percutaneous treatment therefore requires an evaluation of the indications but also the profile of the patients to optimize these procedures and reduce the complication rate. The closure technique and the choice of the size of the prosthesis are not standardized. The closure is done under trans-esophageal echocardiography (invasive method) or trans-thoracic echocardiography (non-invasive method) depending on the choice of the practitioner. In CLOSE study, this rate is not specified. The procedure rate under general anesthesia is 54%. This category of patients can be assumed to use a trans-esophageal echocardiography. The absence of specific recommendations concerning the technical modalities of this procedure lead us to study the closure of Patent Foramen Ovale standardized under trans-thoracic echocardiography and to evaluate its possible reliefs by avoiding the general anesthesia and the use of trans-esophageal echocardiography. The objective of the study is to bring elements of standardization of the technique. As part of a "real life" study, we will evaluate the success rate of procedure under local anesthesia and under trans-thoracic echocardiography control. This evaluation will be done by trans-thoracic echocardiography at 3 months, the re-endothelisation time of the medical device being between 1 and 3 months.
Migraine is a common, chronic neurovascular disorder characterized by attacks of severe headache, autonomic nervous system dysfunction and, in some patients, aura, and disabling neurological symptoms. Worldwide, migraine prevalence is as high as 18% in the general population. Increased frequency of patent foramen ovale (PFO) in migraineurs was first reported in 1998 in a case-control study. Since then, others have described a 60% prevalence of PFO in patients suffering from migraine with aura. The presence of a right-to-left shunt (RLS) is thought to be a potent trigger of migraine attacks, although the mechanism is unknown. Moreover, PFO closure has correlated with improved migraine symptoms in several retrospective uncontrolled studies. The aim of this single-center, prospective study is to assess the impact of PFO closure on migraine attacks over time together with evaluation of potential predictive risk factors.
Among consecutive 47 cryptogenic stroke patients who underwent PFO closure, a serial follow-up bubble contrast TEE at 3 and 9 months after the index procedure was completed in 38 patients (81%, 46±10 years, 19 men). To evaluate the efficacy of PFO closure, the incidence of any- and significant residual shunt (≥moderate) was assessed.