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Showing 1-20 of 65 trials
NCT05057182
300 adults ≥30 years of age who have previously received two doses of an inactivated COVID-19 vaccine at least 3 months earlier will receive a third dose with an mRNA vaccine (BNT162b2, BioNTech). Investigators will monitor reactogenicity and measure the immune response to the third dose.
NCT06871293
This study aims to evaluate the impact of a functional and cognitive rehabilitation strategy compared to evidence-based informational messages, on functional capacity, cognitive abilities, quality of life, and disease progression in adults with chronic non-communicable diseases (NCDs) and Long Covid-19. Researchers will compare a structured rehabilitation program to informational support through evidence-based messages to determine if rehabilitation leads to better functional and cognitive outcomes in patients with Long Covid-19. Participants will be randomly assigned to one of two groups: 1. Functional and cognitive rehabilitation: Attending weekly in-person sessions for 8 weeks, including supervised physical and cognitive exercises. 2. Informational support: Receiving weekly evidence-based educational messages for 8 weeks. Participants will undergo assessments at baseline, post-intervention, and six months later, including a six-minute walk test, handgrip strength measurement, and questionnaires on disability, anxiety, depression, fatigue, dyspnea, cognitive function, and quality of life.
NCT04418206
The RT-PCR on rhino-pharynge sampling highlights the genetic material of the virus and indicates that a subject is infected with SARS-CoV-2. This test can be in about 30% of false negative cases, it does not allow to date the infection, nor to predict the asymptomatic, mild, moderate or severe evolution of the disease. In terms of public health, we need 1/ to better understand the chronology of the immune response to the virus in the general population and in contacts of index cases; 2/ To know which characteristics of the immune response are protective of future reinfections. Finally, in symptomatic subjects, we need biomarkers that predict the evolutionary mode of the disease (moderate vs. severe form).
NCT06599658
The goal of this pragmatic embedded open-label, 2 x 2 factorial phase II randomized controlled trial is to evaluate strategies to improve COVID-19 booster and influenza vaccine immunogenicity in people living with immunocompromising conditions (PLIC). The main questions it aims to answer are: 1. Is co-administration of seasonal inactivated influenza vaccine (IIV) with the most up-to-date recommended COVID-19 booster dose non-inferior in inducing a 1-month peak protective humoral response against COVID-19, compared to a strategy of sequential administration of COVID-19 booster dose followed by seasonal IIV given one month later? 2. Is the administration of the most up-to-date recommended COVID-19 booster doses at 3-month intervals superior at maintaining a longer term protective humoral immune response, compared to booster doses administered at 6-month intervals? Researchers will compare (1) COVID-19 and Influenza vaccines administered at Day 0 + COVID-19 Booster at a 3-month interval, (2) COVID-19 vaccine administered at Day 0 and Influenza vaccine administered at Day 28 + COVID-19 Booster at a 3-month interval, (3) COVID-19 and Influenza vaccines administered at Day 0 + COVID-19 Booster at a 6-month interval, and (4) COVID-19 vaccine administered at Day 0 and Influenza vaccine administered at Day 28 + COVID-19 Booster at a 6-month interval to see if median neutralization capacity of patient sera is non-inferior in the co- vs. sequential administration arms at 1-month after the initial COVID-19 booster and superior in the 3-month interval arms vs. the 6-month interval arms at 12 months after the initial COVID-19 booster. These outcomes will also be compared at 2-months for question 1 and 6-months for question 2. People living with immunocompromising conditions who take part in the trial will have blood samples drawn to verify immune response, be monitored for changes in clinical events and therapies, and complete questionnaires to verify adverse effects, quality of life and economic impact.
NCT05040659
The purpose of this study is to learn more about how to better track smell recovery in people who have been infected with the SARS-CoV-2 virus (which causes COVID-19). Many people who have been infected by this virus develop changes in their sense of smell (olfaction). We are interested in measuring smell function objectively via smell cards that test odor intensity, identification, and discrimination. Objective and precise olfactory testing that can be performed in the convenience of one's home will help identify people with smell loss after infection by SARS-CoV-2. We will use results from this test to better understand the relationship between SARS-CoV-2 infection and recovery of olfactory function and to learn whether the AROMHA longitudinal smell test is a reliable olfactory function tracking tool to quantify smell loss in the context of COVID infection. These results may inform the design of therapeutic clinical trials to accelerate the recovery of smell function.
NCT06391489
The goal of this pilot study is to assess the feasibility of adapting and delivering the existing home-based epilepsy self-management intervention, HOBSCOTCH, for people with Post Acute Covid Syndrome (PACS). The main questions it aims to answer are: Can the current HOBSCOTCH program be adapted for people with PACS? Will people with PACS experience improved quality of life similar to that found in people with epilepsy after participating in the HOBSCOTCH program? Participants will be asked to: * attend nine, one-hour virtual (online and/or by telephone) HOBSCOTCH-PACS sessions with a one-on-one certified HOBSCOTCH-PACS coach * complete a brief clinical questionnaire about their diagnosis of PACS * complete seven questionnaires before and after the HOBSCOTCH-PACS sessions about their quality of life, memory and thinking processes (objective and subjective cognition), about their physical and mental health and about autonomic symptoms associated with their diagnosis of PACS * keep a short daily diary (using a smart phone app or on paper) about their PACS symptoms and use of the self-management strategies taught in the HOBSCOTCH-PACS program * complete two brief surveys to assess satisfaction with their experience after the entire HOBSCOTCH-PACS program
NCT06654973
The goal of this study is to conduct a safe SARS-CoV-2 Delta variant human infection challenge in adult healthy volunteers. The main objectives are to: * Induce laboratory confirmed infection in up to 70% of participants * Confirm the safety profile as measured by the occurrence of adverse events (AEs) and serious adverse events (SAEs) from the day of viral challenge (Day 0) up to Day 28 follow-up. Participants will be given the GMP-produced Delta SARS-CoV-2 virus via intranasal drops using the optimized conditions established in the "Development of a SARS-CoV-2 Delta variant human infection challenge model" (COVHIC002) Human Challenge Study being conducted in the UK. A safe and well-tolerated human challenge model with the SARS-CoV-2 Delta variant will be established in Singapore. This model will be used to accelerate next-generation vaccine development and to determine the factors associated with altered clinical and virological outcomes; correlates of protection; and targets for the development of novel vaccines, therapeutics, and diagnostics.
NCT07278206
Cognitive problems and severe fatigue are two frequently occurring symptoms in long COVID, also known as Post-Covid Condition or Post-Acute Sequelae of COVID-19 (PASC), and their causes are currently unknown. Previous studies have shown reduced blood flow and increased inflammation in the brains of people with PASC. These brain processes are related to fatigue and cognitive problems. In other conditions, these disrupted brain processes have been treated safely and successfully with non-invasive brain stimulation. This may offer an effective treatment for people with PASC. The main goal of this clinical trial is to see whether non-invasive brain stimulation called repetitive transcranial magnetic stimulation (rTMS) can reduce fatigue in adults with PASC who also have trouble concentrating. rTMS uses short magnetic pulses on the scalp to gently stimulate a small brain area. In this study, 66 adults with PASC will be included, recruited through the Post-COVID Network Netherlands. Participants will be randomly assigned to receive either active rTMS or sham (placebo) rTMS. Sham rTMS feels and looks similar to the active treatment, but it does not generate effective magnetic pulses. The brain area that will be targeted is personalized using a brain scan (MRI) during a planning task. All participants will receive 24 rTMS sessions over six weeks (four per week). Fatigue will be measured within two weeks before and two weeks after treatment to determine whether active rTMS works better than sham. We will also look at cognition, brain connectivity and blood flow, signs of (neuro)inflammation, daily activity using an activity watch, and questionnaires about quality of life, mood, and sleep. Follow-up on cognition and questionnaires will take place 3 and 6 months after the end of the treatment.
NCT07278388
This proposal aims to understand the neurobiological mechanisms of fatigue in individuals with Post-Acute Sequelae of SARS-CoV-2 Infection (PASC). This knowledge will eventually provide candidate mechanisms to target with pharmacological intervention and inform rehabilitative care for those individuals suffering from symptoms of fatigue in PASC.
NCT06992401
This observational study is being conducted by Healing Hope International to collect real-world data on an emerging treatment approach for Long COVID in patients with immunodeficiency. The study investigates the effects of intranasal immunoglobulin (IVIG) therapy in a real-world setting. Participants will be individuals diagnosed with Long COVID who have confirmed immunodeficiency, such as low IgG or IgA levels or specific antibody deficiency. These individuals are receiving care through international clinical programs and will not receive any treatment as part of this study. Instead, Healing Hope will collect health information, clinical outcomes, and laboratory results from participating sites to better understand how intranasal IVIG might help reduce symptoms such as fatigue, brain fog, inflammation, and immune dysregulation. The goal of this study is to contribute new insights into potential treatment options for Long COVID and to support responsible, science-backed care models for patients participating in medical tourism. No experimental drugs are being administered as part of this protocol. All treatment decisions are made independently by each clinical site. Data will be anonymized and used to advance knowledge in the field of immunological recovery and neuroinflammation.
NCT07123727
This study will examine the safety and effectiveness of Anktiva in treating patients with Long COVID-19 which is defined as persistent symptoms of a COVID-19 infection that remain after the infection is over.
NCT05395390
This study is being done to understand body's response to hybrid home-based and on-site rehabilitation program utilizing individually tailored exercises throughout a total of 18 sessions with 12 of them occurring onsite, in people with and without chronic respiratory diseases, such as Chronic Obstructive Pulmonary Disease (COPD) and Obstructive Sleep Apnea (OSA) and in individuals recovered from COVID-19. Exercise training programs vary widely for people with COPD, OSA, and during prolonged recovery from COVID infection. This study will help identify if this program is helpful to address muscle loss and fatigue specifically in populations with and without chronic respiratory diseases.
NCT07013903
This randomized controlled study evaluates the effects of cold water hydrotherapy as an adjunct to standard rehabilitation in patients with Post-COVID Syndrome. The primary aim is to assess changes in quality of life compared to standard rehabilitation alone.
NCT06821100
The goal of this research is to learn more about ZADAXIN® (trade name; thymalfasin generic; Ta1 for short) and determine if Ta1 has any benefit in increasing the immune response to the COVID-19 vaccine. Ta1 has been shown to stimulate the immune system to fight infections. This research study will test the safety and possible harms of Ta1 when it is given to people at different dose levels before COVID-19 vaccination.
NCT04522076
Coronavirus-2019 disease (COVID-19) and community-acquired pneumonia are significant problems of modern medicine. Pneumonia is the most common severe complication of COVID-19. But at the same time, COVID-19 is not the only cause of community-acquired pneumonia. Moreover, pneumonia is only one of the numerous possible severe complications of COVID-19. Medical centers specialized for the hospital treatment of patients with severe COVID-19 and community-acquired pneumonia were organized in different regions of Russia during coronavirus pandemic-2020. The indications for hospitalization to one of these centers based in the National Medical and Surgical Center (NMSC) are: confirmed or suspected severe COVID-19 or community-acquired pneumonia. A prospective medical registry of such patients hospitalized to NMSC, is intended to analyze and compare their clinical and instrumental data, co-morbidity, treatment, short-term and long-term outcomes in real clinical practice. Stage 1. Hospital treatment in NMSC Duration of this stage: from the date of admission to the hospital up to the date of discharge from the hospital / or up to the date of death during the reference hospitalization. The date of admission to the hospital will be the date of enrollment to the study. Evaluation of electronic health record data using the Medical Information System (MIS). Assessment of the outcomes of the hospital phase (discharge from the hospital, death) and significant events (acute respiratory and pulmonary failure, requiring mechanical ventilation; cardiovascular events - myocardial infarction, cerebral stroke, acute heart failure, paroxysmal heart rhythm disturbances, bleedings, thrombosis of large vessels and thromboembolic complications). A survey of patients to clarify data on risk factors, somatic diseases, and drug therapy before hospitalization. COVID-19 was diagnosed when severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection was confirmed by Polymerase chain reaction (PCR). Pneumonia was confirmed according to computerized tomography (CT) data. Stage 2. Prospective outpatient follow-up for 24 months Duration of this stage: 24 months after discharge from the hospital This work will be delivered by investigators from the National Medical Research Center for Therapy and Preventive Medicine. Evaluation of long-term outcomes and events among residents of Moscow and the Moscow Region according to a patient survey (contact by phone for 30-60 days, 6 months, 12 and 24 months after discharge from the hospital) and medical records.
NCT06968156
Recent studies have shown that lymphopenia with cytokine storm syndrome is frequently found in COVID-19 patients. These features may suggest that the modified immune system plays a key role in determining disease progression. Lymphopenia or lymphocytopenia is a condition in which the number of lymphocytes in the blood is low. Although T cells can be increased at the onset of COVID-19, these patients tend to have low lymphocyte counts, which is associated with increased COVID-19 severity. Thus, individuals who died of COVID-19 have been shown to have significantly lower lymphocyte levels than survivors. There is evidence that myeloid cells play a role in the pathophysiology of coronavirus infection, either directly as virus targets or indirectly as effectors of cytokine release syndrome. Monocytes are innate hematopoietic cells that maintain vascular homeostasis and provide early responses to pathogens during acute infections. The role of monocytes and macrophages in the resolution of inflammation has also been emphasized as an important component of the response to SARS-CoV-2. Accordingly, it was investigated whether the change observed in blood monocyte levels was an effective parameter in the prognosis process in Covid-19 cases with lymphopenia, considering that monocyte levels could be useful as a guide in the course of the disease.
NCT06614361
The proposed study responds to the need for community-engaged interventions to increase vaccine uptake among populations experiencing health disparities. We focus on COVID-19 and influenza vaccination, both of which now require annual vaccines. Among those at highest risk for morbidity, hospitalization, and mortality are African American/Black and Latino (ABBL) persons who are not up-to-date on these vaccinations. Only 20-28% of adult AABL persons are up-to-date on COVID-19 vaccination, compared to 31% of White persons, and only 30-40% of AABL persons receive the influenza vaccine annually compared to \>55% among White persons. AABL experience serious impediments to COVID-19 (and to a lesser extent, influenza) vaccination at individual- (e.g., distrust, insufficient knowledge, low perceived risk, cognitive biases), social- (e.g., peer norms), and structural-levels of influence (e.g., poor access). Taken together, these comprise multi-level vaccine hesitancy. Factors that promote vaccination include trusted AABL health educators (peers, nurses), tapping into altruism and collective responsibility, circumventing cognitive biases, and reducing structural barriers. Without efforts to address multi-level vaccine hesitancy, rates of COVID-19 and influenza vaccination will remain unacceptably low and racial/ethnic health disparities in infectious disease morbidity and mortality will persist. The proposed study is led by a collaborative team at New York University and the Northern Manhattan Improvement Corporation. It uses the multiphase optimization strategy (MOST), an engineering-inspired framework, to test effects of individual candidate intervention components in a factorial design and then optimize a multi-component intervention made up of the most cost-effective combination of components. Staying up-to-date with COVID-19 vaccination (confirmed with documentary evidence) is the primary outcome, and influenza vaccination is the secondary outcome. We have identified four promising candidate components, with an emphasis on brevity, low-touch, and future scalability: A) nurse-led shared decision making, B) a text message intervention, C) modest lottery prizes for vaccination, and D) peer navigation to vaccination appointments. Participants will be N=560 community-residing adult English and Spanish-speaking AABL persons who are not up-to-date on COVID-19 and influenza vaccinations but with at least one COVID-19 vaccine dose.
NCT06895850
We performed a longitudinal crossover clinical study on survivors of COVID-19. We compared a standard rehabilitation protocol using elastic bands versus a novel eccentric cycling training protocol in individuals who have been discharged after being hospitalized due to COVID-19. We assessed the effects of these two rehabilitation modalities on physical performance, quality of life, and cognitive function parameters. We found that both protocols induced significant improvements in all variables. However, eccentric cycling induced such improvements involving less time per session. These findings could significantly impact strategies to treat COVID-19 survivors, which is a novel and impactful contribution to the body of knowledge.
NCT04445337
This study will establish the safety and efficacy of using stellate ganglion blocks in patients with acute respiratory distress syndrome (ARDS) due to COVID-19 disease.
NCT06672692
The DiaSorin Molecular LIAISON® NES FLU A/B, RSV \& COVID-19 real-time polymerase chain reaction (RT-PCR) assay is intended for use on the DiaSorin LIAISON® NES instrument for the in-vitro qualitative detection and differentiation of nucleic acid from influenza A, influenza B, RSV and SARS-CoV-2 virus from dry nasal swabs (NS) from human patients with signs and symptoms during the acute phase of respiratory tract infection in conjunction with clinical and epidemiological risk factors. The LIAISON® NES FLU A/B, RSV \& COVID-19 assay is intended for use as an aid in the differential diagnosis of influenza A, influenza B, RSV and SARS-CoV-2 infection in a professional laboratory setting. Negative results do not preclude influenza A, influenza B, RSV or SARS-CoV-2, infection and should not be used as the sole basis for patient management decisions. The assay is not intended to detect the presence of the influenza C virus.