View clinical trials related to Communicable Diseases.
Filter by:This project investigates individual treatments using convalescent severe acute respiratory Syndrome Coronavirus 2 (SARS-CoV-2) plasma in SARS-CoV-2 infected patients at risk for disease progression. In addition to standard of care, SARS-CoV-2 infected patients for whom blood group compatible convalescent plasma is available and who are willing to sign the informed consent receive convalescent plasma. Only patients with moderate to severe disease at risk for transfer to intensive care unit or patients at the intensive care unit with limited treatment options will be treated.
In December 2019, an outbreak of pneumonia associated with a novel coronavirus named as severe acute respiratory syndrome coronavirus 2 (SARSCoV-2) was reported in Wuhan city, China, and spread exponentially throughout China and other countries in the following weeks. It is recommended that elective endoscopies should be deferred during the COVID-19 outbreak for the potential transmission between patients and medical staff in the statements of Asian Pacific Society for Digestive Endoscopy (APSDE-COVID statements). Therefore, exploring an alternative for patients with the requirements of endoscopy during the outbreak is of great importance. Herein,the investigators developed an novel non-contact magnetically-controlled capsule endoscopy (Nc-MCE) system (Figure 1) adds a remote control workstation and a audio-visual exchange system to the original well-established MCE system. This study was a open-label, prospective, randomized controlled study approved by the institutional review board of Shanghai Changhai Hospital. It was designed to evaluate the diagnostic utility, safety, feasibility and patients acceptability of Nc-MCE in patients with an indication of endoscopy, and comparing it with the result of MCE.
this prospective study we will examine the prevalence of fungal infection in patients undergoing oral cavity surgery without treatment with antifungal drug
In December 2019, the first patients infected with the 2019 novel coronavirus (2019-nCoV) were diagnosed in Wuhan. The clinical presentation and course of Severe Acute Respiratory Syndrome-CoV-2 (SARS-CoV-2) infection is poorly understood in older patients and is certainly different from the general population. This project is designed to better understand and to determine clinical, biological and radiological markers of poor adverse outcomes in hospitalized older patients diagnosed with COVID-19.
We will study genetic factors causing severe disease due to infection with SARS-COV-2 which may help to find targeted therapy
To compare between SCXL and ACXL for treatment of infectious keratitis
Primary objective: To demonstrate non-inferiority in sustained virologic response (SVR, undetectable HCV RNA at Follow up week 12) between PEG-Intron 1.5 µg per kg SC Q1W + Ribavirin 800-1400 mg PO daily and P1101 400 µg SC Q2W + Ribavirin 800-1400 mg PO daily for the treatment of chronic HCV genotype 2 infection
A weekly questionnaire is sent to patients and parents of patients who are vulnerable for infections. Possible symptoms of COVID19 are asked for and use of healthcare services and testing for COVID19. Weekly reports are being send to the national institutions to update advice given to this group.
Agent Name and Study Duration ArtemiC is a medical spray comprised of Artemisinin (6 mg/ml), Curcumin (20 mg/ml), Frankincense (=Boswellia) (15 mg/ml) and vitamin C (60 mg/ml) in micellar formulation for spray administration. Patients will receive up to 6 mg Artemisinin, 20 mg Curcumin, 15 mg Frankincense and 60 mg vitamin C given daily as an add-on therapy (in addition to standard care) in two divided doses, on Days 1 and 2. Patients will be randomized in a manner of 2:1 for study drug (ArteminC) and Standard of Care to Placebo and Standard of Care. Patient follow-up will last 2 weeks. During this time, patients will be monitored for adverse events. Additional time will be required for follow up (until hospital discharge) in order to check side effects and study drug efficacy. Placebo, composed of the same solvent but without active ingredients, will be given in the placebo group as add-on therapy, 2 times a day, on Days 1 and 2. Overall rationale A preparation of ArtemiC, comprising Artemisinin, Curcumin, Boswellia, and Vitamin C, is proposed as a treatment for the disease associated with the novel corona virus SARS-CoV-2. It is readily available in light of its status as a food supplement. This initiative is presented under the urgent circumstances of the fulminant pandemic caused by this lethal disease, which is known as COVID-19 and has spread across the globe causing death and disrupting the normal function of modern society. The grounds for the proposal are rooted in existing knowledge on the components and pharmacological features of this formulation and their relevance to the current understanding of the disease process being addressed. Leading among these considerations are well established immuno-modulatory activities of the active ingredients as established in vitro and in vivo and published over the years. These activities as apparent, for example, in diminishing activity of TNF alpha and IL-6 levels are acknowledged to be relevant to the pathophysiology processes involved in the progressive form of COVID-19. The active agents have in addition prominent anti-oxidant, anti-inflammatory as well as anti-aggregant and anti-microbial activities. Based on these activities and observations in animal models, together with clinical experience of the separate ingredients and in various combinations in other contexts it is proposed to evaluate their effect in the context of COVID-19. Study Purpose This study is designed to evaluate the safety and efficacy of ArtemiC on patients diagnosed with COVID-19. Methodology 50 adult patients who suffer from COVID-19 infection studied in parallel groups treated with active agent or placebo as add on to standard care. Safety will be assessed through collection and analysis of adverse events, blood and urine laboratory assessments and vital signs.
HVAPNOR consists of Three work packages: 1. Prospective observational study of Hospital (HAP) - and ventilator-Associated pneumonia (VAP) at 5 hospitals in Norway. Establish optimized routines for microbiological sampling, diagnostics and antibiotic stewardship.. 2. Biomarker studies in HAP and VAP. 3. Studies on capacity building in HAP and VAP diagnostics.