View clinical trials related to Coronavirus.
Filter by:Data on pain after COVID-19 were generally collected from hospitalized patients and only include information on acute pain conditions. However, the characteristics of the chronic pain experienced after COVID-19 are unknown. For this reason, the treatment and recommendations for patients who present with chronic pain after COVID-19 are not clear. Our goal is to determine the characteristics and risk factors of chronic pain developing in COVID-19 patients and to create specific treatment recommendations for these patient groups with further studies.
Aerosol Generating Medical Procedures (AGMP) are procedures that have the potential to create tiny particles suspended in the air. These particles can contain germs such as viruses. The current Coronavirus Disease 2019 (COVID-19) pandemic is caused by the novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Patients infected with SARS-CoV-2 experience unusually high rates of critical illness that needs advanced airway management and intensive care unit admission. Bag-valve-mask (BVM) ventilation, laryngeal mask airway insertion (LMA), and endotracheal Intubation (ETI) are common AGMP for critically ill COVID-19 patients, and may contribute to a high risk of infection amongst Health Care Workers (HCW). To lessen HCW risk during high-risk AGMPs, a device called an aerosol box has been developed to place over the head of the patient, shielding the provider's face from virus droplets suspended in the air. The purpose of this research study is to better understand how particles disperse during AGMPs. The project team hopes what is learned from the project can help inform infection control measures. This could help make changes to the clinical environment and make it safer for HCW's. The investigators intend to investigate how an aerosol box performs in reducing contamination of HCW's who perform critical airway interventions.
This is a dose optimisation study in healthy adults aged 18-30 who will be experimentally inoculated with SARS-CoV-2. The aim is to cause PCR-confirmed upper respiratory infection in the majority of challenged individuals with minimal or no illness, providing data on the course of COVID-19 and the immune response to SARS-CoV-2 infection. This will establish an optimised dose and study design that will then be used to evaluate the efficacy of treatment and vaccine candidates plus level and duration of immune protection in follow-on trials.
Coronavac, one of the vaccines developed within the scope of combating the COVID-19 pandemic that has surrounded the world for a year, started to be applied in the first healthcare workers in our country. In this important step taken to end the pandemic, information on vaccines is still limited. Most vaccines, including the Coronavac vaccine, are applied with approval for emergency use before phase 3 studies are fully completed. While investigating the effect of the vaccine on the virus, possible side effects should also be considered. In this context, it is not known whether the vaccine has an effect on the menstrual cycle, especially of women of reproductive age. Our primary aim in our study is to evaluate the effect of the vaccine on the menstrual cycle and if the vaccine has any effect on the menstrual cycle, what kind of changes this effect causes.
The purpose of this study is to determine the reliability of a low-cost rapid diagnostic test for COVID-19. The method of the testing procedure uses electrochemistry to detect COVID-19 spike proteins within human samples. To test the effectiveness of this new method, patients will be recruited as they present for testing at ambulatory Penn testing sites. Patients will be asked to self-collect one anterior nares samples under the supervision of authorized study personnel.
Covid-19 associated Acute Respiratory Distress Syndrome (ARDS) may present with profound hypoxemia not fully explained with pulmonary infiltrates. Accordingly, how prone positioning improves oxygenation in these patients is not fully known. The investigators conducted a study among patients with severe Covid-19 ARDS receiving prone position for at least 16 hours. End Expiratory Lung Volume (EELV) was measured with Nitrogen wash-in/wash-out technique before (Supine Position 1- SP1), during (Prone Position - PP) and after (Supine Position 2 - SP2) prone positioning.
Open label, dose escalation study to investigate: 1. Safety, tolerability and immunogenicity of one or two doses of intranasal ChAdOx1 nCOV-19, in vaccine naïve individuals, with randomisation between one and two dose groups. 2. Safety, tolerability and immunogenicity of intranasal ChAdOx1 nCOV-19, given as a booster dose in individuals who have had two intramuscular COVID-19 vaccinations.
SARS-CoV-2 is the coronavirus responsible for developing the disease known as COVID-19. Its evolution can range from an asymptomatic course, to rapidly evolve and cause an acute respiratory syndrome. In addition to respiratory symptoms, is also has an impact on the neuromuscular systems. Therefore, the additional inactivity for hospitalization, negatively influences the loss of muscular, cardiovascular and metabolic fitness. In view of this, it is recommended that early post-acute rehabilitation be continued after the hospital phase to increase levels of physical activity, which can also be continued with long-term telerehabilitation. This project would offer a free service of asynchronous physical telerehabilitation for the patient that is easy to implement and follow up. For this purpose, patients will be recruited at the time of discharge from the Hospital Provincial Nuestra Señora de Gracia (HPNSG) and the Hospital Royo Villanova (HRV) in Zaragoza and two intervention groups with the same physical therapy and educational programme will be carried out. The experimental group will be carried out by means of home telerehabilitation, while the control group will receive the programme in an explanatory booklet. The main objective is to analyse the preliminary efficacy on physical fitness of a 12-week physical therapy and therapeutic education programme using asynchronous telerehabilitation in post-COVID-19 patients, and to compare its effects with patients who have undergone the same programme, but in a non-telematic format. The secondary objective is to analyze the feasibility of a physical home-based asynchronous telerehabilitation programme in post-COVID-19 patients. Hypothesis: the implementation of a 12-week programme of physical therapy and therapeutic education using asynchronous telerehabilitation software is feasible and preliminarily effective in increasing physical fitness as well as adherence to treatment, and in the improvement of psychosocial factors.
This proposal seeks to enhance uptake and completion of COVID-19 vaccination among African American and Latinx public housing residents in South Los Angeles. Given the multiple disparities experienced by public housing residents, the investigators will utilize a theoretically-based, multidisciplinary and culturally tailored intervention to provide education at multiple levels and implement innovate strategies to engage this population in the uptake of COVID-19 vaccination.
The COVID-19 pandemic has highlighted deleterious US health inequities. Specifically, African Americans, Latinos, and Native Americans have and continue to shoulder a greater burden of COVID-19 infections and deaths in the US. In addition to existing racial and ethnic disparities are rural health and regional disparities. Given the disproportionate impact of disease in US communities of color and also in rural and southern regions of the US, there is no doubt that these at-risk subgroups will continue to experience higher rates of coronavirus-related mortality as well as other long-term health outcomes as compared to other US populations. It is unknown how healthcare providers and other key at-risk subgroups within the US will receive COVID-19 vaccines. For success in immunizations, the US will need to reach their most at-risk and vulnerable populations. In addition to at-risk populations, a successful immunization strategy will involve engaging providers to support clear, consistent, and strong vaccine recommendation. It is critical to build vaccine trust, confidence, and overall acceptance of COVID-19 vaccines among healthcare providers and key at-risk subgroups, especially given the accelerated production timeline of these vaccines. Likewise, tailored vaccine messaging for key subgroups is vital in achieving vaccine confidence and trust. The proposed study will explore perceptions, confidence, trust, and uptake of potential COVID-19 vaccines among healthcare providers (nurses and doctors) and key at-risk population subgroups (minority populations living in the rural south) and will develop and test vaccine messaging that boosts vaccine confidence and trust among these key at-risk subgroups.