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.
Although lenalidomide (LEN) have proved effective in treating many cancers, few patients receiving LEN may experience rare but life-threatening adverse events such as Acute Lymphoblastic Leukaemia (ALL). Today, data about ALL are scarce. The objective was to investigate reports of ALL adverse events related to LEN in patients with cancer using the World Health Organization (WHO) pharmacovigilance database.
Cystic fibrosis (CF) is characterized by various extrapulmonary manifestations, including altered skeletal muscle function, with both quantitative (e.g. reduced muscle mass) and qualitative (e.g. impaired oxidative function) impairments that may have a negative impact on exercise tolerance and quality of life. These abnormalities have traditionally been related to disease (e.g. systemic inflammation) or behavioral factors (e.g. increased physical inactivity). However, most of the studies that observed these abnormalities and tried to shed light on the underlying factors were either small or conducted before the widespread of CFTR (Cystic fibrosis transmembrane conductance regulator) modulators that have profound impact on the trajectory of the disease. While several studies suggested that the major recent improvements in therapeutics, including highly effective CFTR modulators, may have positive effects on skeletal muscle function, either directly (e.g. improved mitochondrial function) or indirectly (e.g. reduction in physical inactivity), no studies to date have thoroughly investigated this issue in a representative sample of people with CF. The absence of recent data on muscle function and physical activity levels casts doubt on the relevance of recommendations on exercise training in this population that were published before the widespread use of highly effective CFTR modulators. This study aims to compare muscle function, measured according to the latest recommendations of the European Cystic Fibrosis Society (Saynor et al., 2023), and physical activity of children and adults with CF under CFTR modulators, compared to age- and sex-matched healthy individuals. We hypothesize that the strength, endurance, muscle power, and physical activity levels of individuals with cystic fibrosis, treated with CFTR modulators, remain reduced compared to healthy individuals.
The management of colorectal cancer often requires oxaliplatin-based chemotherapy, either as part of curative treatment plans or exclusively in palliative situations. Oxaliplatin therefore plays a key role in the management of colorectal cancer. In addition to its digestive and hematological toxicity, oxaliplatin frequently induces chronic, often limiting, sensitive peripheral neuropathy. Only early discontinuation of oxaliplatin can limit the risk of clinically limiting neurotoxicity (grade ≥ 3). In oncology, managing the side-effects of treatment is an essential objective of supportive care, and is open to a variety of complementary medicines, including reflexology. This technique, derived from traditional Chinese medicine, involves stimulating reflex points on the arch of the foot.
This study will investigate the efficacy and safety of "deep" rTMS on neuropathic pain or fibromyalgia. It will be randomized and sham controlled and will last 3 months. Patients will be randomized to receive acctive rTMS or sham rTMS and will receive repeated rTMS sessions (5 daily sessions then one session per week then every 2 to 3 weeks for up to 10 weeks).
This study focuses on a population of adult patients placed under peripheral Veno-Arterial Extracorporeal Membrane Oxygenation (VA-ECMO) for refractory cardiogenic shock. Cardiogenic shock, primarily caused by myocardial infarction, is associated with a high mortality rate that remains around 50%, despite advancements in the field of coronary reperfusion. VA-ECMO is a rapidly growing cardiac support technique worldwide. Its goal is to improve peripheral organ perfusion even as myocardial damage continues, thereby enhancing the prognosis of patients with severe multiorgan failure. VA-ECMO is a temporary cardio-respiratory support technique based on the principle of extracorporeal circulation. However, patients under VA-ECMO are at risk of experiencing various complications, including infectious, thromboembolic, hemorrhagic complications, or malfunctions of the ECMO machine itself, with the incidence increasing with the duration of assistance. Numerous authors and scientific reviews highlight the increased risk of Acute Pulmonary Edema (APE) in patients under peripheral VA-ECMO, attributing it to the elevation of afterload induced by retrograde arterial reinfusion against the residual native blood flow, hypothetically leading to an increase in Pulmonary Artery Occlusion Pressure (PAOP). This phenomenon is presumed to intensify as the VA-ECMO reinfusion rate increases. Furthermore, APE under ECMO-VA represents a turning point in the patient's course. Brechot et al. demonstrated that patients who developed APE under VA-ECMO had a prolonged ECMO duration, a higher reliance on mechanical ventilation, an extended stay in critical care, and a higher mortality rate compared to patients who had previously undergone a left ventricular unloading technique (aimed at reducing PAOP and the risk of APE). However, until now, no physiological study has assessed the specific effect of the variation in peripheral VA-ECMO flow on the change in PAOP during a dedicated protocol. It is with the aim of addressing this question that the investigators are considering the PAPO-Flow study.
Cardiopulmonary bypass (CPB) surgery present risk of acute postoperative neurological complications. These complications are most often postoperative cognitive dysfunction (confusion, cognitive disorders, executive disorders) with a prevalence of up to 40% at 5 years, and ischemic (stroke) with an incidence of between 0.4 and 14%. The causes are usually multifactorial, but altered cerebral perfusion during CPB surgery is an important prognostic factor. Data regarding the effect of deep hypothermia on cerebral perfusion during CPB in adult are scarce. Currently, aortic arch replacement following aortic dissection or aneurysm, and pulmonary artery endarterectomy (PAE) in the treatment of pulmonary hypertension of post embolic origin are performed under deep hypothermia. In this latter indication, the need to obtain a completely bloodless operating field necessitates complete circulatory arrest during short period of time to enable the surgeon to optimally remove the clot materials located into the pulmonary arteries. To protect the brain and avoid irreversible brain injury during circulatory arrest(s), body temperature is lowered at 18-20°C. Deep hypothermia can lead to significant arterial vasoconstriction, which can reduce the blood supply to the brai. It also increases the solubility of CO2 in the blood, leading to respiratory alkalosis, which can also lead to vasoconstriction of cerebral vessels, increasing the risk of ischemic lesions. In adult there is no consistent data on the cerebral perfusion during PAE surgery under deep hypothermia at 18-20°C. Animal studies showed that cerebral regulation seems to be preserved under these conditions. A better understanding of the effect of deep hypothermia on cerebral perfusion during PAE surgery is essential to adapt our management to limit the occurrence of postoperative neurological complications.
Ambispective post-market data collection on visual symptoms, patient satisfaction and surgeon experience with the TECNIS PC IOL.
The additional time required to awaken a patient is one of the main reasons for not extubating him or her in the operating room (OR). Conversely, transferring an intubated patient to recovery room (RR), prolonging the duration of anesthesia and intubation, in a limited environment in human resources, may lead to increased complications' rates. Little is known about those time lengths and complications rates.
Background: For thirty years, a major shift in the management of liver trauma has been seen. Contained hepatic vascular injuries (CHVI), including pseudo aneurysms and arteriovenous fistula, are often feared due to their risk of secondary bleeding. Nonetheless, knowledge of CHVI is scarce and no guidelines on their management have been set. The investigators aimed to validate the risk factors of CHVI, identify associated morbidities, and establish a management protocol. Study Design: A retrospective study on 318 liver trauma from a level 1 trauma center over the last 15 years, comparing the presence or not of CHVI. Univarious and multivarious analyses were performed. A comparison of the management of CHVI was also performed.
The goal of this randomised controlled, cross-over clinical trial is to compare High Flow Nasal Cannulas (HFNC) and Continuous Positive Airways Pressure (CPAP) in neonates over 34 weeks' amenorrhoea (SA) up to children weighing less than 20 kg with respiratory failure. The main question it aims to answer is the non-inferiority of high flows of high-flow nasal cannula compared with CPAP by analysis of diaphragmatic contraction (EAdi (Electrical activity of diaphragm)). Participants with respiratory failure and need of non invasive ventilation and nasogastric tube will receive 4 different increasing flows of HFNC and Positive End-Expiratory Pressure of 7 cmH2O with CPAP during 30 minutes for each flow rate and CPAP. The electrical activity of diaphragm and clinical data of the patient upon each flow and support will be collected. According to the cross-over procedure, the patients will change groups (increasing flows of HFNC or CPAP) in order to perform the remaining analysis.