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.
Multi-center study on the effectiveness of treatment with a blue light medical device (EmoLED) in the reduction of ulcer surface in 10 weeks. The aim of BLUR clinical trial is to verify if the proposed treatment represents a valid and significant remedy for Chronic Venous Insufficiency ulcers. The effectiveness will be measured through the evaluation of the reduction percentage of the lesion area during 10 weeks of treatment comparing the lesion (or portion of it) treated with EmoLED versus the control lesion (or portion of it) treated only according to current Standards of Care(SOC). In the 10 weeks following the recruitment, the patient continues to follow the usual topical therapy with a frequency of once a week visit. The patient will be monitored up to the first event occurring: Complete healing or ten weeks. During the study, reports and evaluations will be made by medical staff on the device safety and usability. 90 patients will be recruited corresponding to the following criteria: - Subjects suffering from venous, arterial and mixed skin ulcers and surgical dehiscence lesions; - Presence of similar multiple lesions or lesions larger than 5 cm ; - Men and women ≥ 18 years old; - The patient must be able to understand the aims of the clinical study and provide informed consent in writing; - Chronicity of the lesion: at least 8 weeks. The present clinical trial will be a multi-center prospective, controlled study with the aim of verifying the clinical efficacy of a portable battery-powered device based on blue LEDs. We expect to record at least 20% of the difference between treated lesion and untreated lesion on the same patient during observation time. The treatment, additional to the standard therapy for the patient, will be performed at each visit for 60 seconds on each 5 cm diameter sub-area of the selected lesion or on part of it. In case of multiple lesions, one will be treated with EmoLED and one will be selected as a control lesion. In case of a very extensive lesion, it will be divided into two and one half will be the control of the other. All lesions will be cleansed with saline solution and a surgical debridement will be performed with a scalpel if a slough/black base is present. Only then the treatment with EmoLED will begin. If the patient has more than one lesion at the recruitment time, and all lesions are less than 5 cm in diameter, the worst lesions will be treated entirely with the EmoLED device and the others will constitute the control lesions. The evolution of all lesions in the ten weeks of the study duration will be evaluated. If the patient has only one lesion greater than 5 cm in diameter at the recruitment time, the lesion will be divided into two parts along the major side and one half of the lesion area will be treated. The other half of the lesion will be masked with multi-layered sterile gauze during treatment. The point of division of the lesion into two parts will be indicated with an indelible marker and retouched at each visit. If, at the time of recruitment, the patient has more than one lesion with a diameter greater than 5 cm, all lesions will be divided into two along the major side and will be treated as in the previous case. After treatment with EmoLED, a hydrofiber dressing will be applied to the lesion. If clinical signs of infection occur, a hydrofiber dressing with silver will be applied. If necessary, compressive bandage of the limb will be carried out.
The term ''Non-invasive ventilation'' (NIV) refers to various methods of respiratory assistance, in the absence of an indwelling endotracheal tube. In recent years, the use of NIV has increased for the treatment of both acute and chronic pediatric respiratory failure. Patient tolerance to the technique is a critical factor determining its success in avoiding endotracheal intubation. One of the key factors determining tolerance to NIV is optimal synchrony between the patient's spontaneous breathing activity and the ventilator's set parameters, known as ''patient-ventilator interaction''. Indeed, synchronization of the ventilator breath with the patient's inspiratory effort, optimizes comfort, minimizes work of breathing and reduces the need for sedation. During NIV, several factors can significantly interfere with the function of the ventilator, leading to an increased risk of asynchrony. Indeed, the presence of unintentional leaks at the patient-mask interface, the sensitivity of inspiratory and expiratory triggers, the ability to compensate for intentional and unintentional leaks and the presence/absence of expiratory valves are all factors that likely play a role in determining patient-ventilator synchronization. The investigators therefore designed the present crossover trial in order to compare the degree of respiratory asynchronies during NIV using different ventilators (Turbine-driven ventilator vs. compressed air-driven ICU ventilators) and different setups (single circuit vs. double circuit) in children with acute respiratory failure.
The aim of our study will be to establish in how many subjects with gastrointestinal symptoms and previous diagnosis of irritable bowel syndrome (IBS), the clinical picture is attributable to non celiac gluten sensitivity (NCGS) or fermentable oligosaccharides, disaccharides, monosaccharides and polyols (FODMAPs) intolerance. For this purpose, all subjects with IBS will take a low FODMAPs diet, which implies the absence of cereals and consequently of gluten, and those presenting symptom improvement during this dietary treatment, will be exposed to a double-blind gluten or placebo challenge, to make a diagnosis of NCGS.
This is an open observational extended follow-up study of patients originally randomized into TOOKAD® Soluble VTP therapy or active surveillance (control group). Additional 60-month follow-up study
The aim of this study is to evaluate the role of remote ischemic preconditioning (RIPC) in preventing acute kidney injury after lower limb revascularization. Remote ischemic preconditioning(RIPC) is a simple, cost-free and non invasive procedure (transient upper limb ischemia/reperfusion) that could provide organ protection (Heart, Brain and Kidney) following ischemia injuries.
The purpose of this clinical study is to evaluate the safety and immunogenicity of a 3-dose schedule (2-dose primary series followed by a toddler dose) of pneumococcal conjugate vaccine (PCV) as one of the currently recommended schedules by the World Health Organization (WHO) Strategic Advisory Group of Experts (SAGE) on Immunizations and practiced in many countries. The primary hypotheses are that V114 is non-inferior to Prevenar 13™ for the 13 shared serotypes based on response rates and on anti-pneumococcal polysaccharide (PnPs) serotype-specific Immunoglobulin G (IgG) geometric mean concentrations (GMCs) at 30 days following Dose 3; that V114 is superior to Prevenar 13™ for the 2 serotypes unique to V114 based on the response rates and on anti-PnPs serotype-specific IgG GMCs at 30 days following Dose 3; and that Vaxelis™ administered concomitantly with V114 is non-inferior to Vaxelis™ administered concomitantly with Prevenar 13™ at 30 days following Dose 3 for each antigen included in Vaxelis™.
The aim of this study is to observe mortality and complications in procedures in which are used new generation low-profile endoprothesis.
The execution of diagnostic-therapeutic investigations by bronchial endoscopy can expose the patient to acute respiratory failure (ARF). In particular, the risk of hypoxemia is greater during broncho-alveolar lavage (BAL). For this reason, oxygen therapy is administered at low or high flows during the course of bronchoscopic procedures, in order to avoid hypoxemia. Few clinical studies have demonstrated the efficacy and safety of high flow oxygen through nasal cannula (HFNC) during BAL procedures, and no study has evaluated, during bronchial endoscopy, the effects of HFNC on diaphragmatic effort (assessed with ultrasound) and aeration and ventilation of the different lung regions (assessed with electrical impedance tomography). Therefore, investigators conceived the present randomized controlled study to evaluate possible differences existing during bronchoscopy between oxygen therapy administered with HFNC and conventional (low-flow) oxygen therapy, delivered through nasal cannula.
This is a follow-up study to evaluate the long term outcome of babies treated in the FIREFLEYE study.
This study aims to evaluate peri-operative mortality and main post-operative complications (for example cardiovascular, respiratory and renal) in patients treated with frozen elephant trunk techinque.