There are about 21062 clinical studies being (or have been) conducted in Italy. 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 goal of this pilot, clinical, experimental, biological and prospective study with uso of biological material (venous blood sampling), in patient with acute carbon monoxide (CO) intoxication and in a group of healthy non-intoxicated subject (group of control) is the research of a possible increase of circulating microparticles level in human blood with an acute carbon monoxide intoxication. The main question to answer is: Is there an increase of circulating microparticles levels in subjects with acute carbon monoxide poisoning? Two blood samples will be withdrawn from patients with acute carbon monoxide poisoning, one before and one after hyperbaric oxygen treatment. Researchers will compare a group of healthy volunteers to see if there is a different in circulating microparticles blood level compared to patients with intoxication.
Contrast enhanced harmonic Endoscopic Ultrasound (CH-EUS) can be used during a conventional EUS examination to correctly identify and target lesions with the help of Ultrasound Contrast Agents. When CH-EUS is applied to the dynamic ultrasound images of conventional EUS, additional information about tumour vascularity can be obtained solely from the visual uptake of contrast agent into the tumour. Angiogenesis within malignant tumour tissue is varied from that of its normal surrounding tissue.Blood flow within malignant tissue is characteristically low volume. Contrast agents are slow to pass through tumour microvasculature and hence this is seen as an area of hypo-enhancement. This hypo-enhancement or hypo-vascularity is well demonstrated in PDAC and the opposite is known to be true for PNET, both of these findings showing to be consistent with cytopathological results.Tumour hemodynamics and vascular patterns resultant from contrast uptake can be analysed further with the help of fractal use. Attaining this information can allow more accurate characterization of both PDAC and PNET thus in turn predicting their respective behaviours i.e., aggressiveness (local or systemic spread) and histological grade. (6) Contrast-enhanced computer tomography (CT) is currently used to evaluate the response of chemotherapy in patients with PDAC according to the RECIST guidelines. However, one significant advantage of CH-EUS over dynamic CT imaging is that ultrasound contrast agents do not leak into the interstitial space allowing for better quantitative measurement of tissue perfusion.More recently, the EFSUMB guidelines have recommended dynamic CH-EUS as a preferred technique to monitor anti-angiogenic treatment.This founds the basis for evaluating CH-EUS's role. *(with the help of fractal analysis)-remove this if needed* in predicting PDAC's response to neo-adjuvant chemotherapy as this is yet to be evaluated. Yamashita et al. demonstrated that patients with PDAC with positive vessel sign showed a significantly longer progression free survival compared with patients with negative vessel sign after chemotherapy (P = 0.037; log-rank test). EUS elastography (EUS-E) is a US technique that measures the hardness of tissues. The level of hardness of SPLs can be evaluated using qualitative scores and/or quantitative methods (strain ratio [SR]).
The aim of the study is to evaluate whether the effect of biofeedback treatment is more effective than a control treatment in the recovery of dysphagia. This study will be a multicentric randomized, single-blind controlled study. The investigators intend to recruit 100 patients who have suffered a stroke and have dysphagia. Fifty patients will undergo training with bio-feedback (experimental group) and the other fifty patients will undergo standard training, using only verbal feedback rather than visual feedback (control group). Our hypothesis, based on the results obtained in some previous studies, is that in the control group the efficacy of the treatment will be lower in the absence of immediate visual feedback of strength, timing, coordination and efficacy of the swallowing act.
The purpose of this study was to examine the association between circulating cfDNA concentration and CVD risk in patients with periodontitis, CVD, and periodontitis plus CVD. In addition, the secondary objective was to identify, among other confounders, the impact of periodontitis and cardiovascular disease as potential significant predictors of circulating cfDNA levels in the enrolled population.
The trial is designed to evaluate prevalence of fragility fracture, their impact on quality of life of SLE patients and disease or treatment variables such as steroids dosage or use of specific drugs like hydroxychloroquine, DMARDs or belimumab. Patients will perform DXA evaluation, blood tests and PROs questionnaires. Moreover, the investigators want to correlate those variables to bone turnover markers and bone metabolism modulators. A secondary aim is also to assess the fracture risk of those patients as described by FRAX and DEFRA tools.
People lose collagen all over the body, not just in the face; skin roughness and laxity of the dorsum of the hands can result from chrono and photo-aging. This skin roughness and laxity can range from very mild to severe; injection procedures can provide new tone and firmness to the skin of the hand dorsum. Dermal fillers are the most used non-permanent injectable materials available today to correct skin flaccidity and roughness on the dorsum of the hands. They give immediate aesthetic effect due to elastic gel matrix injected and impart longer term effects due to bio stimulation, promoting new collagen formation. The objective of this study is to investigate the aesthetic performance of the Hyaluronic acid (HA)- based dermal filler Profhilo® Body injected by a blunt tip microcannula (25G or 22G, preferably 22G), with fanning technique through a single entry point performing 5 passages and injecting 0,3 ml per passage, 1,5 ml for each hand. Volunteers of both sexes, aged 18-65 years with mild-moderate skin roughness and laxity at the level of hand dorsum are to be treated.
A single-centre, randomized (1:1), open label, controlled study to assess the lipid-lowering effect at 12 weeks of 400 cc/die bergamot juice consumption compared to free diet in healthy subjects
This is a randomized, double-blind, placebo controlled, dose-ranging Phase 2 study. The primary objective is to evaluate the efficacy and safety of SAR443122 compared to placebo in participants with moderate to severe UC. Dose selection for further clinical development will be based on the multiple efficacy, safety and PK parameters. The study consists of 4 parallel arms (3 dose groups of SAR443122 vs placebo) to assess the efficacy and safety of SAR443122 in participants with moderate to severe UC. All participants will receive a total of 52 weeks (a 12-week induction treatment phase and a 40-week maintenance phase) of study treatment, except if treatment should be discontinued per investigator's assessment. At the end of the first 12 weeks of induction treatment, all participants in clinical response or remission will be offered study treatment up to 40 weeks and will continue with the same blinded treatment that was assigned. Participants who do not achieve clinical response or remission at the end of the initial 12 weeks induction treatment will roll over in an open-label treatment arm and will be treated with SAR443122 at the highest tested dose. In addition, participants from the maintenance treatment that lose clinical efficacy at any time up to V10/Week 40 (Week 28 of maintenance) will be offered to roll over in the open-label treatment arm with SAR443122 at the highest dose.
The aim of this study is to demonstrate the safety and effectiveness of the Lobster interspinous spacer device for the treatment of Lumbar Spinal Stenosis in comparison to an SSED-based performance goal.
Researchers are looking for a better way to treat women with, or at high risk for developing hormone-receptor positive breast cancer, who have vasomotor symptoms (VMS), a condition of having hot flashes caused by anti-cancer therapy. VMS, also called hot flashes, are very common medical problems in women with hormone-receptor (HR)-positive breast cancer, who are receiving anti-cancer therapy. HR-positive breast cancer is a type of breast cancer, which has hormone-receptors (proteins) for female sex hormones estrogen and/or progesterone. These hormone-receptors may attach to hormones like estrogen and progesterone and thereby help cancer cells to grow and to spread. Treatments that stop these hormones from attaching to these receptors are currently used to slow or stop the growth of HR-positive breast cancer. It is already known that women with HR-positive breast cancer benefit from this treatment. However, hot flashes are common medical problems related to this therapy. They negatively affect quality of life of many women and may lead to discontinuation (stopping) of this therapy. The study treatment, elinzanetant is being developed to treat hot flushes. It works by blocking a substance called neurokinin from sending signals to other parts of the body, which is thought to play a role in starting hot flashes. The main purpose of this study is to learn more about how well elinzanetant helps to treat hot flashes caused by anti-cancer therapy in women with or at high risk for developing HR-positive breast cancer compared to placebo. A placebo is a treatment that looks like a medicine but does not have any medicine in it. To answer this, the doctors will ask the participants to record information about their hot flashes before treatment start and at certain time points during the treatment in an electronic diary. The researchers will then assess possible average changes in number and severity of hot flashes after 4 and 12 weeks of treatment. To see how safe elinzanetant is compared to placebo. The study will collect information about the number of participants who have medical problems after taking treatment. The study participants will be randomly (by chance) assigned to 2 treatment groups, A and B. The participants from treatment group A will take elinzanetant. The participants from treatment group B will start with placebo and then switch to elinzanetant. All participants will continue taking the anti-cancer therapy they have been using when entering the study. Dependent on the treatment group, the participants will either take elinzanetant or placebo as capsules by mouth once a day. After 12 weeks, the participants who have initially received placebo will switch to take elinzanetant for the remaining 40 weeks. Each participant will be in the study for approximately 62 weeks. The treatment duration in the study will be 52 weeks. There will be up to 12 visits to the study site and 6 phone calls in between. Participants who completed the 52 weeks treatment phase, will be offered to continue treatment for another 2 years. Visit frequency: every 24 weeks until week 152. During the study, the participants will: - record information about their hot flashes - answer questions about their quality of life and other symptoms. The doctors and their study team will: - check the participants health and vital signs - take blood and urine samples - examine heart health using electrocardiogram (ECG) - examine pelvic organs like womb or ovaries using a trans vaginal ultrasound scan to see images of these organs - make images of the breast using x-ray (mammogram), a type of radiation that passes through the body to make images of the inside and/or by using ultrasound (if applicable) - check the health of the participant's cervix (neck of the womb) by taking a small sample of cells (smear test) for an analysis called cervical cytology (if applicable) - take an endometrial biopsy, a small piece of tissue from the lining of the womb (called the endometrium) for analysis. - ask the participants questions about what medicines they are taking and if they are having adverse events. An adverse event is any medical problem that a participant has during a study. Doctors keep track of all adverse events that happen in studies, even if they do not think the adverse events might be related to the study treatments. About 4 weeks after the participants take their last treatment, the study doctors and their team will check the participants' health.