Many studies have been performed on the clinical features of COVID-19 patients [1-3]. There are no reports covering the pulmonary ventilation function of COVID-19 patients, especially severe ones whose lung function may be badly affected. In this study, we described the severe COVID-19 patients' lung ventilation function. The First Affiliated Hospital of Harbin Medical University in Heilongjiang Province of China has been designated a treatment center for severe COVID-19 patients in late February. The severe COVID-19 patient in our study refers to the person who has been hospitalized because of COVID-19 with PaO 2 /FiO 2 ≤ 300 mmHg. We collected the pulmonary ventilation function variables of survivors from severe COVID-19 who could complete the lung function test near discharge and in quarantine period (2 weeks after discharge); the variables include vital capacity (VC)/predicted value, forced vital capacity (FVC)/predicted value, forced expiratory volume in 1 s (FEV1)/predicted value, forced expiratory volume in 1 s/forced vital capacity (FEV1/FVC), and maximal mid-expiratory flow (MMEF)/predicted value. Before performing a lung function test, we used ultrasonography to exclude the patients who exhibited pleural effusion or pulmonary consolidation.
DEETIOLATED1 (DET1) plays a critical role in developmental and environmental responses in many plants. To date, the functions of OsDET1 in rice (Oryza sativa) have been largely unknown. OsDET1 is an ortholog of Arabidopsis (Arabidopsis thaliana) DET1. Here, we found that OsDET1 is essential for maintaining normal rice development. The repression of OsDET1 had detrimental effects on plant development, and leaded to contradictory phenotypes related to abscisic acid (ABA) in OsDET1 interference (RNAi) plants. We found that OsDET1 is involved in modulating ABA signaling in rice. OsDET1 RNAi plants exhibited an ABA hypersensitivity phenotype. Using yeast two-hybrid (Y2H) and bimolecular fluorescence complementation assays, we determined that OsDET1 interacts physically with DAMAGED-SPECIFIC DNA-BINDING PROTEIN1 (OsDDB1) and CONSTITUTIVE PHOTOMORPHOGENIC10 (COP10); DET1-and DDB1-ASSOCIATED1 binds to the ABA receptors OsPYL5 and OsDDB1. We found that the degradation of OsPYL5 was delayed in OsDET1 RNAi plants. These findings suggest that OsDET1 deficiency disturbs the COP10-DET1-DDB1 complex, which is responsible for ABA receptor (OsPYL) degradation, eventually leading to ABA sensitivity in rice. Additionally, OsDET1 also modulated ABA biosynthesis, as ABA biosynthesis was inhibited in OsDET1 RNAi plants and promoted in OsDET1-overexpressing transgenic plants. In conclusion, our data suggest that OsDET1 plays an important role in maintaining normal development in rice and mediates the cross talk between ABA biosynthesis and ABA signaling pathways in rice.
This study extends the understanding of the spiral of silence theory by taking into account four factors, including the topology of networks, the time factor of information transmission, the node degree of individuals and the freedom of expression. Simulation experiments analyze the silencers, public opinion in steady state and relaxation time in small-world networks, scale-free networks and community-structured networks by adjusting the initial conditions. Results highlight that individuals are easier to keep silent in scale-free network, especially when the individual with big degree and minority opinion starts the discussion. Conversely, there are only a few individuals keep silent in the community-structured network when the two communities hold opposite opinions. Moreover, the number of silencers grows as the degree of coupling increases, and it decreases as the freedom of expression goes up. By analyzing the public opinion evolution, we also find some important conditions, such as the network topology, the potential public opinion distribution, and the status and sides of the first speaker, can drive the minority reversal.
Objectives: This study investigates the clinical features and pulmonary functions of COVID-19 pneumonia survivors at 3 or 6 months after diagnosis in the Heilongjiang Province, China.Methods: Forty-six patients with COVID-19 pneumonia diagnosed since February 2020 were enrolled in this study for follow-up in July 2020. These patients were categorized into three groups: Group A (n=24) and Group B (n=11) who were diagnosed with moderate or severe pneumonia and followed up at three months after diagnosis; Group C (n=11) who were diagnosed with severe pneumonia and followed up at six months after diagnosis. Data on pulmonary function, arterial blood gas analysis, chest CT, blood test, antibody test, and health-related quality of life during hospitalization and at the follow-up visits were collected and analyzed. Results: Abnormal PO2 (A-a) was more prevalent in severe cases (Group B and C) than in moderate cases (Group A). Pulmonary dysfunction was common in this cohort. Abnormal CT scores of severe cases (Group B and C) were significantly higher than that of moderate cases (Group A). During the follow-up, lung abnormalities gradually resolved in the first 3 months (Group A and B), however, further resolution was not significant from 3 months to 6 months (Group B and C). Conclusion: Although pulmonary interstitial changes due to COVID-19 pneumonia gradually reverse over time, pulmonary dysfunction is common and appears to persist at least up to 6 months in patients recovered from COVID-19 pneumonia.
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