View clinical trials related to Foramen Ovale, Patent.
Filter by: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.
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.
A stroke is the second cause of deaths after heart attack, one of the most important causes of malfunction as far as adults are concerned and the second as for the frequency cause of dementia. In spite of a possibility of the therapy of stroke ( tissue plasminogen activator) and recognized most of risk factors there is expected that incidence rate on stroke connected with ageing of the society will be growing. It will cause medical and social consequences. There are many of potential causes of cardiac strokes, which are not entirely examined. More over many cryptogenic strokes are presumed to have an embolic etiology, and the frequent cause of these kind of strokes at young age is probably the mechanism of paradoxical embolism through patent foramen ovale. As far as the investigators are concerned, at present there is lack of any recommendations for these scientific hypothesis.
All patients awaiting to have either a left atrial appendage closure (LAA) or patent foramen ovale (PFO) or Atrial Septal Defect (ASD) closure device as part of standard care will be identified and reviewed in cardiology clinics. These patients will be placed on waiting list to undergo the procedure. Patient-participants will be consented on the date of admission for device closure implantation. The study will recruit 20 patients divided into; 10 patients undergoing PFO/ASD closure and 10 patients undergoing LAA closure. EPC will be measured on the day of the device implantation, day 0 and prior to discharge on day 1. Patient participants are admitted overnight after the device closure implantation. Then on subsequent out patient cardiology research clinic follow appointments on days (3-4) and (7-8).
The purpose of the study is to collect more data about performance and safety of the device called "IrisFITTM PFO occluder". This data will be used to help more patients who will accept treatment with this device in the future. Patients will undergo routine examination, procedure and follow-up. Related data will be collected and kept in a way that patient info is well protected.
The purpose of this multi-center, non-interventional, prospective, post-market clinical study is to collect real world data on patient outcomes and evaluate the procedural success and performance of the Lifetech CeraFlex™ occluders for patients with secundum type Atrial Septum Defect (ASD), Patent Foramen Ovale (PFO) or Patent Ductus Arteriosus (PDA).
The investigators will prospectively estimate incidences of decompression sickness in SCUBA divers with or without patent foramen ovale (PFO). All participants will receive transesophageal echocardiogram and transcranial doppler to ascertain whether they get a PFO. Clinical follow up will be undertaken 3 month after transesophageal echocardiographic evaluation, and every 6 month up to 3 years by E-mailing or telephone interview with self-questionnaire report. All decompression sickness (DC) events or DC-like symptoms will be reviewed by a professional diver, who is a medical doctor and member of DAN-AP, and a neurologist.
This study will involve patients who are planned to have hip or knee replacement surgeries. They will undergo a Transthoracic Echocardiogram study (an ultrasound of the heart) to look for a Patent Foramen Ovale (PFO). A PFO is a hole in the heart that everyone is born with and in most cases eventually closes by adulthood. However, it does not always close in all people. The investigators will compare the participants as two groups - those with a PFO, and those without, and look for differences in delirium in their postoperative stay. This will help us look for an association between postoperative delirium and the presence of a PFO.
The aim of the study is to compare correlation for right to left shunts (mainly patent foramen ovale) detection for three methods-transesophageal echo as a gold standard, transcranial doppler with contrast agent (microbubbles) and new method- Flow detection system ( Cardiox TM) in young stoke patients ( age under 55 years).