There are about 36633 clinical studies being (or have been) conducted in France. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
ThoraflexTM is designed for the treatment of aneurysm or penetrating ulcer of the descending thoracic aorta. Each system is advanced from a transfemoral or transiliac approach over a 0.035" guidewire and positioned under fluoroscopic control. If necessary, an arterial conduit technique may be required to allow access to the arterial system. The soft tapered tip allows atraumatic insertion into the vessel, while the catheter and sheath are designed to provide excellent flexibility and control through tortuous arterial anatomy. Each individual stent graft device is supplied sterile and pre-loaded in a single-use delivery system. The stent graft is a self-expanding endoprosthesis constructed of a thin wall woven polyester and nitinol ring stents, which are attached to the fabric with braided polyester sutures. The delivery system central catheter is a stainless steel braided co-extrusion of polytetrafluoroethylene (PTFE) and polyester elastomer, designed to provide significant torque control and strength, while also maintaining superior flexibility. The outer sheath is made in a tri-layer construction consisting of a PTFE liner, a stainless steel flat braid layer and a polyester elastomer outer jacket with a hydrophilic lubricant coating. These materials provide very low friction force during device insertion and deployment together with enhanced flexibility of the delivery system. The handle components are moulded from thermoplastic polyurethane. The materials of the endoprosthesis are identical to those of the current Conformité Européenne (CE) marked Vascutek Ltd. AnacondaTM Stent Graft System intended for abdominal aortic aneurysm repair. The materials of the delivery system are well established in medical applications. The design of ThoraflexTM is based on the same principles as other clinically established thoracic endovascular devices. The endoprosthesis is constructed of self-expanding nitinol stents and a polyester tube graft. Four proximal hooks anchor the endoprosthesis within the aorta. Unlike existing thoracic endovascular devices, the delivery system of ThoraflexTM allows repositioning of the endoprosthesis so that the optimal deployment position can be enhanced. The intended use of ThoraflexTM is the treatment of aneurysm or penetrating ulcer of the descending thoracic aorta, which is identical to other CE approved thoracic endovascular devices.
Treatment of PAH includes exercise limitation, non specific agents (anticoagulants, diuretics and supplemental oxygen), pulmonary specific vasodilators and antiproliferative agents. Recent data obtained by our group, within rat PAH models, showed that the antihyperglycemic drug metformin, used in France since 1959 in diabetic type II patients, significantly acts at the pulmonary arteries level. According to these results, and knowing that metformin is a widely used drug, with a favorable safety profile, the investigators decided to set up a pilot study, in order to evaluate the activity of metformin in PAH treatment. In parallel, the investigators will focus on metformin mechanism of action.
The FORESEE HOME is intended for the early detection of central and paracentral irregularities (abnormalities) in the visual field, most commonly associated with Age Related Macular Degeneration (AMD). However, the device has the ability to detect the development of the lesion post treatment and therefore to assess in determination of the next treatment. The Optical Coherence Tomography (OCT) may be used as well to identify choroidal neovascularization (CNV). Comparison between the two methods will allow better understanding of both devices. The FORESEE HOME can be used as an assessment tool for the progression and success of the treatment given to AMD lesions. Therefore, evaluating the size and the location of the treated lesions may serve as an additional tool.
A phase I study of azacitidine with Ceplene/interleukin-2 will first evaluate the safety and tolerability of this regimen in patients with higher risk myelodysplastic syndromes (MDS) who achieved a hematological response after 6 cycles of azacitidine. After approval by an independent Data Safety Monitoring Board (DSMB), the phase I study will be followed by an open label randomized phase II study designed to characterize the efficacy, safety, and tolerability of the addition of Ceplene/interleukin-2 to azacytidine in patients with higher risk myelodysplastic syndrome (MDS) who achieved a hematological response after 6 cycles of azacitidine.
Our primary goal is to validate a new diagnostic tool for functional coronary artery stenosis that uses multimodal imaging (combining stress echocardiography and stress scintigraphy) in patients with known coronary chest pain.
This is an open label and single arm study to investigate the safety and efficacy of BEZ235 in adult women with endometrial carcinoma whose disease progressed (or recurred) while on or after first-line antineoplastic treatment for advanced endometrial carcinoma.
The primary objective of this retrospective study is to evaluate the percentage of patients with device related adverse events (infection, rejection, dislocation, fracture of the implant) in the first 24 months after implantation.
Recent studies reports feasibility, effectiveness and even less complications of using NIV for preoxygenation during tracheal intubation in ICU and in Operating Room. None study has been done in emergency out-of-hospital medical rescue. This trial attempts to demonstrate same results or even more in that conditions.
The prognosis for heart failure patients is bleak for the advanced stages of the disease, with a reported 6-month mortality rate of almost 50% in patients treated with chronic inotropic therapy. As well as its very severe prognosis, heart failure is a costly disease. Heart transplantation remains the reference treatment for the terminal stage of the disease but although this is an effective therapy, it does engender ethical, social, economic and legal problems. It also requires irreproachable and costly logistics, immuno-suppressor treatment and a lifetime of follow-ups. In particular, the number of donors has been going down steadily for several years in most countries which offer a heart transplant programme and some patients cannot take advantage of being added to a waiting list for a graft (age, co-morbidities…). It is in this context that, alongside the medical treatments for cardiac insufficiency, other therapeutic strategies were developed, including resynchronization and long-term mechanical circulatory support. The progress made in resynchronization is at several levels: better understanding of the action mechanisms, the development and improvement of equipment specifically dedicated to resynchronization and prospective and randomized clinical trials which have scientifically validated this technique. Simultaneously, many studies were published evaluating long term support with mechanical circulatory support (MCS), excluding light devices, as a bridge to transplant or an alternative to a transplant. It is also recognized that mechanical circulatory support with a new generation of continuous flow assist device improved the quality of life and functional capacity, with a reduced risk of device failure and infrequent need for replacement. The "Achilles heel" of cardiac resynchronization remains the 20 to 40% of patients who respond barely or not at all. Among this population of patients, some are not candidates for a transplantation and long-term mechanical circulatory support by axial pump is an alternative to be considered. We elaborated an original randomized pilot study for these patients in order to evaluate their survival and their quality of life, to define if they should be proposed a left ventricular assist device (LVAD)or not.
The purpose of this study is to investigate the evolution of daytime partial pressure of carbon dioxide in the blood (PaCO2) after 6 weeks of noninvasive ventilation-pressure support ventilation (NIV-PSV) with target volume versus continuous positive airway pressure (CPAP) alone versus NIV-PSV.