View clinical trials related to Covid19.
Filter by:Although SARS-CoV-2 infection and subsequent COVID-19 disease is regarded as a disease that primarily affects the lungs, it can also damage many other organs. This organ damage may increase the risk of long-term health problems, but much remains to be elucidated as to how COVID-19 infection will affect those who have contracted the infection over time. Since SARS-CoV-2 infection mainly affects elderly people, one of the aspects to be evaluated in the near future is its interaction with bone metabolism, which progressively worsens with advancing age. So far, data on bone metabolism in SARS-COV-2 infection are very scarce. Furthermore, it is not clear whether the incidence of osteoporosis and the risk of fracture may increase in patients after recovery from the infection, due to the interaction of their risk factors (old age, smoking, long-term bed rest). term, hypovitaminosis D and steroid treatment) with the COVID-19 inflammatory process. In patients after recovery from severe acute respiratory syndrome (SARS), osteonecrosis and bone abnormalities with reduced bone density were observed, which were partly but not entirely explained by short-term use of steroids. Infections, trauma and injuries induce the production of endogenous signaling mediators of the inflammatory response. Significantly higher serum concentrations of pro and anti-inflammatory cytokines, including IL-6, TNF-α, and IL-10, characterized by severe versus moderate cases, suggest that disease severity may be associated with a "cytokine storm. "[14]. The interaction between inflammatory molecules, such as cytokines, and the bone system is defined as "osteoimmunology" and osteoimmunological mediators, such as RANKL, OPG, RAGE, play a fundamental role in osteoclastogenesis in physiological and pathological conditions. Although the long-term effects of COVID-19 are still unknown, the alleged consequences of the disease would likely be similar to those of coronavirus-related diseases, including SARS (Severe acute respiratory syndrome). In the case of SARS, viral infection-mediated effects have been described that stimulate osteoclatogenesis. Similarly, the current SARS-Cov-2 could have a dual effect, both direct and indirect, on osteoclastogenesis and, consequently, on bone resorption: indirectly by inducing the cytokine storm that promotes bone resorption, direct by stimulating differentiation and osteoclastic activation through the activation of osteoimmunological mediators.
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the pathogen that causes a coronavirus-associated acute respiratory disease called coronavirus disease 19 (COVID-19), which is spreading all over the world. This virus can cause acute respiratory distress syndrome (ARDS) with a high fatality rate. In this phase I clinical trial, healthy volunteers in two dose cohorts will be vaccinated on a booster dose with RH109 Vaccine or placebo vaccine. The aim of the study is to assess the safety valuate the safety, reactogenicity, and immunogenicity of RH109 Vaccine.
This is a single blind, placebo-controlled clinical trial designed to determine the safety and tolerability of MTx-COVAB36 after a single administration in a dose escalation, dose limiting toxicity (DLT)-driven approach in healthy volunteers. Additional data to define the recommended phase II dose (RP2D) will also be determined. MTx-COVAB36 is a fully human monoclonal IgG1 antibody derived from the memory B cells of convalescent COVID-19 donors and directed against SARS-CoV-2 spike protein with potent virus neutralising activity. The trial will comprise four dose cohorts, each composed of 6 participants receiving MTx-COVAB36 and 2 participants receiving placebo, with pre-defined dose levels. The pre-defined investigational medicinal product (IMP) doses are: 100 mg, 500 mg, 1,000 mg and 2,000 mg, respectively. Participants will be administered a single dose of either IMP or placebo on Day 1 of the study and will be followed up until 63 days post administration.
The aim of this study is to compare plasma S Protein levels to SARS-CoV-2 viral load in COVID positive patients.
The in-utero exposure of acute viral infection in some instances is proven to have short- and long-term neonatal effects during the postnatal and childhood period and the Zika virus, measles, mumps, and rubella are few examples. COVID-19 is caused by a novel coronavirus strain of unknown consequences. The main purpose of this registry is to collect baseline data and help to establish future studies and hypothesis generation. In addition, we will be exploring the psychological impact of COVID-19 on women during the pregnancy and postnatal period. Stress and anxiety level are increased with potential adverse pregnancy and/or neonatal outcomes especially during an infectious disease outbreak. In fact, COVID-19 is associated with adverse maternal and neonatal outcomes resulting in increased levels of stress and anxiety. In addition, women during the pregnancy, peripartum, and postpartum period are at increased risk of depression. A risk that has been aggravated by social and physical isolation. Indeed, the social and physical isolation, a critically needed measure to stop the virus transmission, resulted in increased stress and depression levels and adversely affecting the mental and physical health of both the mother and the baby.
This is a first-in-human (FIH), Phase 1b, open-label, dose-escalation, safety trial consisting of 3 dose levels. Subjects will always be treated in cohorts of size 3, with from 3 up to 6 cohorts i.e. 9-18 subjects.
COVID-19 is associated with increased morbidity and mortality in patients with chronic kidney disease (CKD) on dialysis. CKD requires particular emphasis during the pandemic due to concern for increased susceptibility to infection from greater use of health facilities in people undergoing maintenance hemodialysis. COVID-19 due to SARS-CoV-2 involves multiple organs and lung injury is one of the most clinical manifestations. The binding of SARS-CoV-2 to the ACE2 receptors at target cells ,including type II pneumocytes ,and alveolar macrophages in the lung could arise into acute systemic inflammatory responses and cytokine storm.The consequentially leading to lung-resident dentritic cells (rDCs) activation, T lymphocytes production and release antiviral cytokines into the alveolar septa and interstitial compartments resulting in diffuse alveolar epithelium destruction,hyaline membrane formation, alveolar septal fibrous proliferation and pulmonary fibrosis.Although it has been reported that subgroups of COVID-19 survivors developed persistent lung parenchymal injury that persisted at least after 6 months 5-6 ,the data in CKD patients has not been reported yet.In addition, a study of pulmonary function test after COVID-19 is needed to be investigated.Thus,we plan to assess pulmonary sequalae of COVID-19 in hemodialysis (HD) patients and pulmonary function test after recovered of infection at least 3 months.
Objective: Measure incidence of malaria and malaria-related outcomes, evaluating potential impact of the SARS-CoV2 epidemic and of antimalarial resistance in Oyam and Kole district, Uganda with focus on pregnant women. Study design: Facility-based, prospective, observational study. Study population: All pregnant women at any gestational age presenting to the Aber Hospitals during the study period both at the emergency department or the Ante-Natal Care (ANC) clinic will be eligible to participate in this study. Methods: Women will be recruited at ANC visits and at the emergency department and screened against the inclusion criteria. Women will be followed until delivery and evaluated during the consecutives ANC visits. Outcomes will be assessed at the delivery or/and at the discharge if admitted to the hospital for any other causes related with the pregnancy or the malaria. Also, a subpopulation of nonpregnant individuals diagnosed with malaria will be recruited for resistance detection. Main study parameters/primary endpoints: Incidence of malaria and malaria-related adverse outcomes; impact of the COVID-19 pandemic on malaria care; prevalence of antimalarial resistance against artemisinin derivatives and sulphadoxine-pyrimethamine.
As ICU mortality has been significantly decreased over the last two decades, the focus has been shifting from short term (such as ICU and hospital mortality) to long-term outcome. This evolution has led to a new entity that has been established in 2012 at a stakeholder conference: the Post-Intensive Care Syndrome (PICS). It is defined as impairments in physical, cognitive and mental health status arising after critical illness and persisting beyond acute care hospitalisation. As family members of ICU patients may also be affected by mental health impairment, the PICS-F (F for Family) has been introduced simultaneously. It is expected that the COVID-19 pandemic will result in a significant increase of the proportion of patients and relatives suffering PICS and PICS-F, as there is during the COVID-19 related ICU-stay exposure to a high number of risk factors for developing these entities. This Post Intensive Care Syndrome in COVID-19 survivors (PICOVIDS) study is an observational, single-center exploratory follow-up cohort study that aims to get insight into the mental impact of a COVID-19 related ICU stay for COVID-19 ICU survivors and their family members, 18 months after ICU discharge. Specific research questions are: 1. What is the prevalence of symptoms of depression, anxiety and Post Traumatic Stress Disorder (PTSD) and what is the prevalence of these specific disorders in COVID-19 ICU-survivors and their relatives 18 months after ICU-discharge? 2. What are important risk factors for these symptoms and disorders? 3. What is the satisfaction level of patient and caregiver about the ICU care: How did they experience ICU stay?
The magnitude of seasonal RSV epidemics brings each year new logistical challenges for the hospitalization of young infants with bronchiolitis that overwhelm hospital capacities and lead to specific winter plans with deprogramming and mobilization of human and logistical resources. The Covid-19 pandemic has changed the way winter epidemics are presented. For example, the seasonal RSV epidemic was shifted by several months in Lyon, with an impression of a lower incidence of hospitalized cases, with a population of older children and with fewer signs of clinical severity. This is largely attributable to the widespread use of barrier gestures and social distancing measures, known as "non-pharmacological interventions" or NPI. Given the magnitude of the reduction of the RSV epidemic, it is legitimate to analyze the benefits of NPIs to draw lessons for maintaining preventive measures around RSV-vulnerable populations; moreover, new preventive pharmacological interventions are soon to be marketed, whether they are particularly refined and long half-life anti-RSV monoclonal antibodies, RSV vaccines for mothers or for newborns and infants. In this perspective, it is crucial to properly define the populations at risk of severe disease to establish a legitimate hierarchy in the implementation of different preventive strategies. The study of the RSV epidemic is a high potential model because of the convergence of epidemiological, virological, and pharmacological knowledge. However, the study of the impact of the pandemic on the epidemiology of rhinovirus also seems promising because, for reasons unknown to date, it seems that the pandemic did not have the same reducing impact on the rhinovirus epidemic; in the latter case, the interest is to confirm the resistance of this virus and to look for more fundamental explanations, for example, on viral interactions. On a previous study (see NTC 04944160), 519 infants were recruited in the Pre-Covid-19 season population, and 277 infants were recruited in the first Per-Covid-19 season population.