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.
The aim of this study is to identify the knowledge, behavior and social representation on dental health among pregnant women. This study could improve, in the future, prevention, treatments and care for them.
The aging of the French population is a major public health issue. Frailty is a reversible clinical state between optimal healthy aging and pathological aging. Early detection of frailty makes it possible to identify people aged 65 or over who are at risk of developing or worsen dependency and to offer them appropriate medical and/or social care adapted to their needs. The multidimensional screening program known as "ICOPE" (for "Integrated Care of Older People") promoted by the World Health Organization (WHO) aims to prevent functional decline worldwide and improve the well-being of older people. To support healthy aging, 6 intrinsic abilities are to be screened according to ICOPE: visual impairment, hearing impairment, depressive symptoms, locomotor abilities, cognitive decline and vitality. This program is intended to be developed in each country and adapted to the territories of action. The Mauriac and Vichy community health basins have a proportion of elderly people (≥60 years old) that is much higher than regional and national data, justifying the regional and national data, justifying the chosen action territories. The epidemiological characteristics of the French population and of the action territory made it possible to add to the following themes to the ICOPE recommendations: socio-economic situation, assistance to caregivers, vaccinations, drug iatrogeny, alcohol consumption, cardiovascular risk and cancer screening. The ICOPE process is organized in 5 steps: a community screening and a relay to the general practitioner to ensure a follow-up, an primary care in case of abnormality, evaluated at 3 months and then 6 months, establishment of a plan of care if necessary, possible referral to a specialist and mobilization of community resources mobilization of community resources and support for caregivers if needed. The hypothesis is that conducting a fragility screening in a rural area (Mauriac health (Mauriac health basin) and a semi-urban area (Vichy health basin) would allow an effective would allow an effective allocation of expenses. In more detail, the costs are direct medical, direct non-medical, indirect and intangible costs, and efficiency is measured by measured by the quality of life score (LEIPAD). The hypothesis is that the early detection of people's frailties and their management improves their quality of life
Descriptive: A 24-month multicentre, observational, prospective cohort study. Population: IBD Patients under stable clinical and biological remission Study treatments: Patients who will be proposed to switch, or who have just switched, from the intravenous originator Remicade® or one of its biosimilars to the subcutaneous infliximab Remsima®SC as part of routine care. All consecutive patients in IBD centers participating in the study will be proposed to participate in the study during their regular outpatients' visits. Objectives:The primary objective of PEREM study is to determine the rate of persistence of subcutaneous infliximab at 48 weeks after switching from IV infliximab to subcutaneous infliximab Remsima®SC.
The purpose of this study is to assess the efficacy of adding lazertinib to amivantamab, carboplatin, and pemetrexed (LACP/ACP-L dosing strategies) and amivantamab, carboplatin and pemetrexed (ACP) compared with carboplatin and pemetrexed (CP) in participants with locally advanced or metastatic epidermal growth factor receptor (EGFR) Exon 19del or Exon 21 L858R substitution non-small cell lung cancer (NSCLC) after osimertinib failure. The purpose of the extension cohort is to further describe the safety and efficacy for the ACP-L dosing schedule versus ACP with additional data. After completion of the primary analysis, the study may eventually transition to an open-label extension (OLE) or long-term extension (LTE) phase during which participants will have the option to continue their assigned treatment.
The COVID-19 pandemic is caused by the severe acute respiratory syndrome coronavirus 2 (SARS CoV-2), an emerging coronavirus, which has already infected 192 million people with a case fatality rate close to 2%. About 5% of patients infected with SARS CoV-2 have a critical form with organ failure. Among critical patients admitted to intensive care, about 70% of them will require ventilatory assistance by invasive mechanical ventilation (MV) with a mortality rate of 35% and a median MV duration of 12 days. The most severe lung damage resulting from SARS CoV-2 infection is the acute respiratory distress syndrome (ARDS). The virus infects alveolar epithelial cells and capillary endothelial cells leading to an activation of endothelium, hypercoagulability and thrombosis of pulmonary capillaries. This results in abnormal ventilation / perfusion ratios and profound hypoxemia. To date, the therapeutic management of severe SARS CoV-2 pneumonia lay on the early use of corticosteroids and Interleukin-6 (IL-6) receptor antagonist, which both reduce the need of MV and mortality. The risk factors of death in Intensive Care Unit (ICU) are: advanced age, severe obesity, coronary heart disease, active cancer, severe hypoxemia, and hepatic and renal failure on admission. Among MV patients, the death rate is doubled in those with both reduced thoracopulmonary compliance and elevated D-dimer levels. Patients with severe alveolar damage are at risk of progressing towards irreversible pulmonary fibrosis, the incidence of which still remain unknown. The diagnosis of pulmonary fibrosis is based on histology but there are some non-invasive alternative methods (serum or bronchoalveolar biomarkers, chest CT scan). We aim to assess the incidence of pulmonary fibrosis in patients with severe SARS CoV-2 related pneumonia. We will investigate the prognostic impact of fibrosis on mortality and the number of days alive free from MV at Day 90. Finally, we aim to identify risk factors of fibrosis.
This study will be comparing tivozanib in combination with nivolumab to tivozanib alone in subjects with advanced Renal Cell Carcinoma (RCC) who have had 1 or 2 prior lines of therapy, one of which was an Immune Checkpoint Inhibitor (ICI).
The aim of this study is to make a precise inventory of the complications that may occur postoperatively in the more or less long term in a cohort of patients who should benefit from surgical management of Hallux Valgus.
Peripheral Veno-Arterial Extra Corporeal Membrane Oxygenation (VA ECMO) is a temporary assistance that provides a mechanical circulatory support in patients victim of cardiogenic shock (CS) or refractory cardiac arrest. During VA-ECMO support, hypotension may frequently occur due to deteriorated cardiac function, vasoplegia, or hypovolemia. Volume expansion is a common means to correct hypotension and improve systemic perfusion, but inappropriate fluid therapy is associated with adverse outcomes. As other intensive care unit (ICU) patients, VA-ECMO assisted patients have been shown to have higher mortality in case of large early fluid administration. Prediction of fluid responsiveness could achieve a lower fluid balance and improve outcomes of patients treated with VA-ECMO. Several dynamic hemodynamic parameters based on cardio-pulmonary interactions (stroke volume, pulse pressure or inferior vena cava variations induced by invasive ventilation cycles) have been described and validated for predicting fluid responsiveness in critically ill patients. Unfortunately, the VA-ECMO conditions (native cardiac circulation by-pass, low pulsatility, presence of drainage canulation in the inferior vena cava, the use of low tidal volume) make this parameters less reliable. Simulation of a fluid loading by shifting blood from the lower limbs and splanchnic compartment thanks to a revisable maneuver is another feasible approach to assess fluid responsiveness. Whereas the use of different maneuvers have been validated in the classical ICU population, very few data exist in the ECMO population and their application is questioning because blood transfer may be modified by the preload dependence of the ECMO. Recently, Luo et al showed that the variation of aortic Velocity Time Integral (VTI) measured using echocardiography induced by a Trendelenburg maneuver was predictive of fluid responsiveness during VA-ECMO support. However, their study excluded patients with low cardiac ejection (pulse pressure < 15 mmHg) so that their data may not be extrapolated to the acute phase of heart failure requiring full mechanical support. Moreover, aortic VTI measurement suffers from low reproducibility in case of low native cardiac output (NCO) and arrythmia; and can be time-consuming. The investigators previously demonstrated in an observational prospective study that End-tidal CO2 (EtCO2) and Pulse Pressure (PP) were strongly correlated to NCO during VA-ECMO when NCO < 2l/min. The investigators aim to study the variations of aortic VTI, EtCO2 and PP induced by Passive Leg Rising (PLR) and their ability to predict fluid responsiveness in patients under VA-ECMO.
Partial or total edentulousness has a significant impact on quality of life both functionally and aesthetically. TBR® Tissue Level Z1 Implants allow the patient to prevent bone resorption and maintain facial tissue and musculature support. At the functional level, the patient who benefits from implant treatment regains normal masticatory function with all the benefits on the quality of life that this can bring him. Due to the osseointegration of the implant and the biocompatibility of the materials used, the implant treatment remains effective in the long term and makes it possible to maintain the aesthetics of the smile.
Partial or total edentulousness has a significant impact on quality of life both functionally and aesthetically. TBR® Bone Level Implants allow the patient to prevent bone resorption and maintain facial tissue and musculature support. At the functional level, the patient who benefits from implant treatment regains normal masticatory function with all the benefits on the quality of life that this can bring him. Due to the osseointegration of the implant and the biocompatibility of the materials used, the implant treatment remains effective in the long term and makes it possible to maintain the aesthetics of the smile.