Active clinical trials for "Pneumonia"

Introduction: SARS-CoV2 infection produces severe pneumonia with pulmonary alveolar collapse. There is no specific treatment to date. In experimental models and humans with septic shock, there is a high production of nitric oxide (NO) and reactive nitrogen species (RNS) and can cause multiple organ failure. The administration of antioxidants such as n-acetylcysteine (NAC), vitamin C, melatonin, and vitamin E participate in increasing the intracellular content of GSH, ROS sequestration, protection of the lipids of cell membranes, cytosol proteins, nuclear DNA, mitochondrial and decrease LPO. Justification: as there is no specific antiviral therapy, the therapeutic options are limited, complications and mortality are high; It is intended to evaluate the effect of antioxidants on the storm outcome of the dysregulation of oxidative stress. Hypothesis: It is postulated that adjuvant therapy with antioxidants and Pentoxifylline reduces the use of ventilators in patients with or without septic shock secondary to severe SARS-COV2 pneumonia as decreases lipoperoxidation, and corrects dysregulation of oxidative stress by increasing the antioxidant capacity. Objectives: To evaluate whether it is possible to avoid intubation or decrease assisted mechanical ventilation days, improve oxidative stress dysregulation in patients with SARS-COV2 infection with severe pneumonia with or without septic shock. Methodology: Quasi-experimental, open analytical, prospective, and longitudinal study (before-after). In patients over 18 years of age who are admitted to the CITIBANAMEX Center with or without septic shock secondary to severe SARS-COV2 pneumonia. There will be two groups: 1) patients without septic shock and 2) patients with septic shock secondary to severe pneumonia due to SARS-COV2. A single antioxidant will be applied following the clinical decision tree (NAC, Vit C, Vit E, melatonin) more Pentoxifylline orally or by orogastric tube for a total of 5 days from the start of the protocol. APACHE II will calculate the risk, SOFA, MEXSOFA, measurements of IL-8, vitamin C, NO3 / NO2, LOP, total antioxidant capacity will be carried out at baseline and 48 hours. SOFA will be calculated for seven days, in addition to days of hospitalization, days of mechanical ventilation. It was evaluated 28 days after discharge by telephone.

HYPOTHESIS: The administration of vitamin D supplements to patients who have a positive diagnosis for SARS-Cov-2, acute pneumonia requiring hospital admission and vitamin D deficiency have a more favourable evolution than subjects not treated with vitamin D (placebo). This favourable evolution will translate into a reduction in mortality, fewer ICU admissions and fewer days of stay in hospital. OBJECTIVES: PRINCIPAL: To assess whether the group of patients receiving vitamin D supplements have a less severe evolution of their acute pneumonia, translated into lower mortality, than patients who do not receive that supplement. SECONDARY: 1) To determine the number of intensive care admissions and the number of days of admission in both groups (control group and intervention group). 2) To estimate the prevalence of Vitamin D deficiency in the patients studied and the effectiveness of its supplementation. 3) To establish the degree of complexity of each study group and carry out a cost-effectiveness study. METHODOLOGY: DESIGN: Clinical trial, randomized, placebo-controlled and double-blind, with two parallel groups The active treatment will be vitamin D (Hydroferol soft capsules of 0.266 mg). The placebo will consist of a tablet with the same external characteristics and with the same treatment scheme but which will not contain any vitamin D active ingredients.

To evaluate the safety and efficacy of humanized Meplazumab for Injection in patients infected by 2019-nCoA.

In December 2019, coronavirus pneumonia (COVID-19) was detected in many cases in Wuhan, China. With the rapid spread of the coronavirus, cases of COVID-19 were also reported in other cities of China and other countries. COVID-19 can cause amplification of the pulmonary inflammatory responses, including the production of a large amount of free radicals and the release of inflammatory factors, in a short time after infection, leading to lung tissue damage and dysfunction, even resulting in life-threatening respiratory distress syndrome and respiratory failure. At present, there are no effective drugs targeting COVID-19. Previous studies have shown that Buzhong Yiqi Decoction has anti-bacterial, anti-viral, and anti-allergy effects. High-dose vitamin C also has anti-oxidative and anti-toxin effects, possibly exhibiting good effects in the treatment of viral infection and critical respiratory diseases. The study objectives include (1) investigate whether Buzhong Yiqi Decoction can improve the clinical symptoms of patients with mild and severe COVID-19 and accelerate recovery and to further investigate the clinical efficacy of high-dose vitamin C combined with traditional Chinese medicine in the treatment of mild and severe COVID-19; (2) to assess the safety of high-dose vitamin C combined with Chinese medicine in the treatment of mild and severe COVID-19.

This is a prospective, multicenter observational study to explore the predictive factors of checkpoint inhibitor pneumonitis (CIP) and to establish predictive models by combining imaging information for IRP. The imaging type of CIP, the pathological type, various inflammatory cytokines and tumor proportion score(TPS) of PD-L1 expression level, etc. will be paid more attention.

The study objective is to assess Efficacy and safety of Reparixin treatment as compared to placebo (both on top of standard treatment) in adult patients with severe COVID-19 pneumonia.

Study design: Allocation: Randomized Endpoint classification: Efficacy study Masking: Open label Primary purpose: Treatment Primary endpoint: Incidence of reaching the target serum trough concentration Secondary endpoint: Clinical efficiency, Antibiotic use, acute kidney injury.

Community-acquired pneumonia is acquired outside the hospital. Postural drainage is the positioning of a patient with an involved lung segment such that gravity has a maximal effect of facilitating the drainage of Broncho-pulmonary secretions from the tracheobronchial tree. It is based on the concept of gravity-assisted mobilization of secretions and transports it for removal. The objective of the study to find the effect of postural drainage and positive expiratory pressure techniques (PEP) to improve the air way clearance and breathing in pneumonia patients. This study will be a RCT and will be conducted in Services Hospital. The study will be completed within the duration of six month. Consecutive sampling study technique will be used to collect the data. The sample size of 46 patients will be taken. Patients will be divided into two groups. (Group A will be treated with postural drainage and Group B will be treated with positive expiratory pressure technique). Outcome measure will be taken on Pulse oximeter, incentive spirometer and chest X- Ray. A regular follow up visits to department and a final assessment was made at the end of four week. Data will be analyzed using SPSS software version 25. After assessing normality of data by Shapiro- Wilk test, it will be decided either parametric or non-parametric test will be use within a group or between two groups.

This study aims to assess the efficacy of the efficacy and safety of investigational drug (NanoS) in patients with mild to moderate COVID-19 at high risk for progression to severe COVID-19, including death.

COVID-19 is an infectious disease caused by a virus called SARS-CoV-2. The spread rate and mortality rate of the virus have had a significant impact on global health and economic systems. Comprehensive treatment and supportive care are required to help COVID-19 patients recover. During the treatment of COVID-19, the respiratory system of patients may be affected, and measures need to be taken to support respiratory function. Currently, awake prone positioning(APP) is an effective method for treating respiratory failure when mechanical ventilation is not feasible or unavailable. In the prone position, the patient's face is facing the ground, the chest is sinking, and the abdomen is rising. This posture can improve alveolar ventilation and blood flow distribution, reduce pulmonary edema and pulmonary vascular resistance. In addition, the prone position can also improve the coordination of respiratory muscles, promote pulmonary expectoration, and increase functional residual capacity. Although the prone position has been widely used, there is still some controversy over when to use it. Some studies have shown that using the APP for early-stage COVID-19 patients can reduce mortality rates and respiratory dependence time, while others believe that using the APP in the later stages may increase the risk of lung injury. Therefore, it is necessary to further study when to use the APP and its impact on treatment effectiveness and safety. Such research may need to consider multiple factors, such as the patient's clinical symptoms, the severity of lung lesions, lung function indicators, and the duration of using the prone position. Determining the optimal time to use the APP will help guide clinical physicians to better apply this treatment strategy in the treatment of COVID-19 patients. In addition, the prone position can also be used in the treatment of other respiratory system diseases, so relevant research can also provide references and inspiration for the treatment of other diseases. The goal of this observational study is to learn about the details which might optimize the effect of APP in COVID-19 patients. The main questions it aims to answer are: The optimal time to start in the prone position the optimal duration of APP treatment the strategies to improve the tolerance of the awake prone position