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.
As of December 2019, the global pandemic of COVID-19 has spread rapidly throughout the world, putting healthcare staff at the frontline. In this context, several factors leading to the appearance of psychiatric symptoms have emerged : work overload, fear of being infected or of infecting, exhaustion… (The Lancet, 2020) Indeed, post-traumatic stress disorder (PTSD), depressive symptoms, anxiety symptoms, insomnia and increased stress have been reported (Rossi et al., 2020). Furthermore, the increased anxiety and depression symptoms and stress associated with the COVID-19 pandemic may increase the risk of suicide in this already high-risk population. For example, suicidal ideation has been reported in up to 5% of healthcare workers in the United States (Young et al., 2021). It is therefore essential to evaluate the incidence of psychiatric disorders (e.g. PTSD, depression, suicide) and their associated risk factors among the hospital staff. To do so, Montpellier University Hospital healthcare staff was asked their mental state during the first wave of COVID-19.
Compare the maximum pain and anxiety experienced between the group using a virtual reality headset and the control group in an adult woman during a hysterosalpingography examination
This single-center, prospective, open-label, quasi-experimental, intra-individual comparative study will include a consecutive cohort of 21 patients with diffuse or limited, minimally active scleroderma with 3 to 30 years of evolution. Patients will have 4 sessions of pulsed dye laser 595 nm spaced 8 weeks apart. The final quadruple evaluation by several evaluators will be 2 months after the last session, on the following criteria: evolution of the number of telangiectasia; subjective improvement score (LINKERT scale); impact on quality of life (SKINDEX score); visual analog pain scale (VAS); adverse events (AEs), including discontinuation of treatment due to post-session purpura (AT-PPS); patient satisfaction (yes or no).
This study is a 12-month, prospective, 2-arm (1 test & 1 control), randomized (1 test:1 control), bilateral, subject/evaluator-masked clinical investigation of the EPV IOL versus the standard TECNIS monofocal control IOL. The study will be conducted at a minimum of one to a maximum of five sites in France, with a total of 40 evaluable subjects for the investigational lens group and 40 evaluable subjects for the control lens group participating in the sub-study. The peripheral and functional testing will be conducted on a sub-group of subjects who achieve binocular uncorrected distance visual acuity (UCDVA) of 0.2 logMAR or better and/or are able to perform the driving simulator-sickness testing as determined by patient response to the SSQ (Appendix D) at the first 1-month visit. The eye implanted first will be considered the primary study eye (first eye). Subjects will be randomized to either the investigational IOL Model C0001 or the control IOL Model ZCB00 in both eyes.
This study is being conducted to see if semaglutide tablets can be used as a treatment to help people living with overweight or obesity lose weight. This study will look at the change in participants body weight. Participants will either get semaglutide tablets (new medicine) or placebo tablets ('dummy' medicine that looks like semaglutide but has no effect on the body). For a fair comparison, people are divided into two groups at random by a computer. This process is called randomisation. Semaglutide tablets are new medicine being tested to treat overweight and obesity. Doctors in many countries can already prescribe semaglutide tablets at lower doses to treat type 2 diabetes. Participants will get semaglutide or placebo tablets for 68 weeks and will need to take 1 tablet every morning In addition to taking the medicine, participants will have talks with study staff about: - healthy food choices - how to be more physically active - what participants can do to lose weight The study will last for about 1½ year.Participants will have 14 clinic visits and 7 phone calls with the study doctor. Blood samples will be taken at 10 visits. Participants will have a test to check their heart done at 3 visits. Women cannot take part if pregnant, breast-feeding or plan to get pregnant during the study period. If participant is a woman and is able to become pregnant, participant will be checked for pregnancy via urine tests.
This study is for women in menopause who have moderate to severe hot flashes. It is for women who are unable to use hormone replacement therapy (HRT). Menopause, a normal part of life, is the time after a woman's last period. Hot flashes often occur during menopause. They can disrupt a woman's daily life. The study medicines (also called investigational products, or IP) are tablets of fezolinetant or placebo. An investigational product means that the product is not yet licensed. In this study, a placebo is a dummy treatment that looks like fezolinetant but does not have any medicine in it. The study will compare fezolinetant with the placebo to learn if fezolinetant reduces the number and severity of hot flashes. Women that want to take part in the study will be given an electronic handheld device with an app to track their hot flashes. Some women may be able to use the app on their own smartphone. In the last 10 days before their next clinic visit, the women will record information about their hot flashes. They can take part in the study if they have an average of 7 or more moderate to severe hot flashes each day. Women will be picked for 1 of 2 treatments (fezolinetant or placebo) by chance alone. Women who take part in the study will take 2 tablets every day for 24 weeks. Treatment will be double-blinded. That means that the women in the study and the study doctors will not know who takes which of the study medicines (fezolinetant or placebo). The women will continue recording information about their hot flashes on the electronic device or their phone. They will also use another device to answer questions about how hot flashes affect their daily life. During the study, the women will visit their study clinic several times for a check-up. This will happen during Weeks 2, 4, 8, 12, 16, 20, 24, and 27. Some women may be able to have home visits instead, from Week 2 to Week 20. At the check-up, they will be asked if they have any medical problems. Other checks will include vital signs (heart rate, temperature and blood pressure) and some blood samples taken for laboratory tests. At some check-ups, the women will have a physical exam. In Week 2 and Week 24, the women will have an ECG to check their heart rhythm. Women who have a uterus will also have a test called a transvaginal ultrasound. A probe is gently placed inside the vagina. Sound waves will create a picture of the organs in the pelvis. This will allow the study doctor to look more closely at the uterus and surrounding organs. The last check-up (at Week 27) will be 3 weeks after they take their last tablets of study medicine (fezolinetant or placebo).
The COVID-19 outbreak has been categorized as a pandemic and declared an international public health emergency by WHO. In this context, an exceptional mobilization and a complete reorganization of the organization of the healthcare offer was put in place.The investigators will study the psychological consequences among emergency department (ED) / SAMU (Service d'Aide Médicale Urgente) professionals exposed during the COVID-19 pandemic to high psychological stress due to work overload, changes in practices and fears of contamination.They will evaluate at 9 and 12 months after the end of the second lockdown (July December 2020), post-traumatic stress disorder (PTSD), personal and professional stress, anxiety and depression, burn-out and consumption of anxiolytic products. This is a multi-center study and includes doctors, DE interns and nurses, other paramedics and medical regulatory assistants working in one of the ED or SAMU working during phase 3 of the COVID-19 pandemic. It should make it possible to know the psychological load of the months following the epidemic among health professionals who worked in emergencies during this period and to understand their risk of occurrence of PTSD. These elements are also essential to improve the management of health crises and to put in place preventive measures for health professionals, in particular in anticipation of recurrences, second wave or future new episode.
The management of a patient with shock is based on improving tissue oxygenation through hemodynamic optimization. Lactate is a marker of tissue hypoperfusion commonly used in the ICU. In principle, hyperlactatemia can be caused by either increased tissue production (tissue hypoperfusion: type A), decreased lactate uptake (type B), or a combination of both mechanisms. It is important to correctly determine the cause(s) of hyperlactatemia, as this determines the treatment (expanders, inotrope, vasopressor, blood derivative transfusion), and the patient's morbidity and mortality. A classic example of this concept is volume expanders, which are frequently used to correct hyperlactatemia secondary to tissue hypoperfusion, but are associated with mortality if used excessively (fluid overload). In clinical practice, it is difficult to differentiate the exact causes of hyperlactatemia (type A and type B). From work carried out over the last 20 years in septic shock and then in other states of shock and in the operating theatre, it has been shown that the arteriovenous CO2 gradient (pCO2gap) measured from arterial and venous blood gases is a marker of tissue hypoperfusion with better predictive ability than the usual markers (clinical examination, SVO2....). Furthermore, when we relate pCO2gap to the arteriovenous O2 difference (pCO2gap /C(a-v)O2), this ratio allows us to distinguish with greater accuracy between states of acute circulatory failure associated with anaerobiosis (tissue hypoperfusion, type A) and those related to the underlying disease. Also, several studies have demonstrated a strong ability of the pCO2gap and the pCO2gap/CavO2 ratio to predict the severity of shock, mortality of the shock patient, hyperlactatemia, and correction of hyperlactatemia with hemodynamic treatment. As a result, many authors have proposed algorithms for the management of shock patients based on the measurement of these CO2-derived indexes. The hypothesis of this study is that the use of an algorithm based on CO2gap and the CO2gap/CavO2 ratio is superior in terms of correction of hyperlactatemia to usual practice based on clinical and macro-hemodynamics.
Pre-market feasibility clinical investigation designed to evaluate the clinical performance and safety of the investigational product in its intended target population
Evaluation of the benefit of non-opioid general anaesthesia on postoperative pain in laparoscopic colonic surgery