ABSTRACT
Background: Some patients present persistent ground glass opacities (GGO) and/or consolidations after an acute episode of SARS-CoV-2 pneumonia (COVID19). Risk factors for persistent pneumonitis (PPN) and potential response to corticosteroids remain unclear. Objective(s): To evaluate the clinical characteristics of patients with PPN, as well as to detect possible risk factors and the role of corticosteroids. Method(s): We conducted a prospective, controlled, multicenter analysis of patients hospitalized because of COVID19 with (n=152) or without (n=140) PPN. PPN was defined by the persistence of pulmonary opacities in a chest CT scan >14 days after admission. Characteristics of participants were obtained from their medical records. A CT score was used to quantify parenchymal abnormalities when PPN was suspected. Result(s): Compared to controls, patients with PPN were older and suffered more comorbidities, also D-dimer and Creactive protein levels were higher. The most frequent features observed in CT scans were GGO (97%), consolidation (95%), bronchial dilatation (93%) and reticular pattern (92%) with a CT score of 16.12+/-4.26. Multivariate logistic regression identified age and C-reactive protein levels on admission as independent risk factors for PPN. No significant differences were observed in thoracic CT scan one-month after discharge in patients treated with higher corticosteroids doses (>50 mg/day after discharge) compared to lower doses. Conclusion(s): Age and raised C-reactive protein levels on admission are significant risk factors of PPN after COVID19. Treatment with high doses of corticosteroids does not seem to add benefit.
ABSTRACT
High-altitude pulmonary edema (HAPE) and COVID-19 pneumonia are different diseases, but HAPE-susceptible individuals (whose susceptibility often has a genetic basis) can also suffer from severe COVID-19. We hypothesized that certain pathogenic mechanisms might overlap if such a coincidence occurs, since these patients could react to alveolar hypoxia with a more intense and heterogeneously distributed pulmonary vasoconstriction than non-HAPE-susceptible patients. It is also not known how future altitude acclimatization might affect lowlanders with COVID-19 pulmonary sequelae, and how the loss of adaptation to chronic hypoxia might differ by genetic lineage among highland natives who have recovered from severe COVID-19 around the world. Although the incidence of CoV-2 in high-altitude locations seems to be lower, a correct differential diagnosis of both conditions is essential, especially in high-altitude areas where health resources are scarce, considering that there is sometimes a similarity between COVID-19 pneumonia and HAPE. © 2022 by the author.
ABSTRACT
In late December 2019, a novel coronavirus emerged and had a rapid and worldwide spread, resulting in an ongoing pandemic. This virus, designated SARS-CoV-2, causes a respiratory disease named COVID-19 which can range in severity, depending not only on the viral infection but also conditioned by the immune system and the host's response. COVID-19 is often associated with aggressive and uncontrolled inflammation that may lead to acute respiratory distress syndrome (ARDS), multiorgan damage and failure, and death. In this chapter, we review the general characteristics of SARS-CoV-2 infection, its interaction with target cells and the resulting immune response, as well as current and potential therapeutic interventions. © 2022 Elsevier B.V.
ABSTRACT
SARS-CoV-2 infection can cause a range of respiratory sequelae, especially in patients who have had severe Covid-19 pneumonia. Given the high number of patients who have developed this infection over a short period of time, numerous post-Covid-19 follow-up visits are being carried out, but no clinical follow-up protocol has been established to advise on the complementary tests to be performed and the frequency of these procedures. This consensus document was drawn up by professionals from different areas of the Spanish Society of Pulmonology and Thoracic Surgery (SEPAR) in order to assist the clinician in identifying possible respiratory complications that may occur during the months following the acute disease, and to protocolize their follow-up and additional tests to be performed. It recommends examinations and interventions to be carried out at various stages in the post-Covid-19 period, and details the specific objectives of these procedures. Primarily, we aim to ensure that patients receive timely clinical follow-up, following a pre-established schedule that takes into account the severity of the disease and the likelihood of long-term sequelae. Another objective is to avoid overloading the health system by eschewing examinations and/or consultations that are, in many cases, unnecessary. Finally, we define criteria for referring patients with specific established sequelae (interstitial lung disease, pulmonary vascular disease, bronchiectasis) to the corresponding specialized units.