Covid-19 associated shoulder girdle calcific myositis: a novel entity.

OBJECTIVE: To investigate the prevalence, describe the radiological features, and consider the clinical sequelae of COVID-19- associated shoulder girdle calcific myositis. METHODS: All patients who underwent a CT pulmonary angiogram study at our institution (Queen Alexandra Hospital, Portsmouth Hospitals University NHS Trust, Portsmouth, United Kingdom) in April and May 2020, January 2021, and July 2021 were included. A total of 1239 CT pulmonary angiogram studies for 1201 patients were reviewed. Patients with COVID-19 and associated shoulder girdle calcific myositis were identified. Their electronic patient records were reviewed. The patients' demographics, serum inflammatory markers, and proning history were recorded. RESULTS: Of the 364 patients in Wave 1, 71 patients (19.5%) had COVID-19, and of those, 2 patients (2.8%) had shoulder girdle calcific myositis. Of the 521 patients in Wave 2, 354 patients (67.9%) had COVID-19, and of those, 3 patients (0.8%) had shoulder girdle calcific myositis. Of the 316 patients in Wave 3, 37 patients (11.7%) had COVID-19, and of those, 1 patient (2.7%) had shoulder girdle calcific myositis. The overall prevalence was 1.3%. The most common site of calcific myositis was within the subscapularis muscle. CONCLUSION: COVID-19-associated shoulder girdle calcific myositis is a rare extrapulmonary musculoskeletal manifestation of COVID-19. Early recognition and increased awareness of this disease entity, in our experience, aids in reducing patient morbidity and improving long-term functional outcome. ADVANCES IN KNOWLEDGE: We have reported a novel disease entity associated with COVID-19, in the form of shoulder girdle calcific myositis. We have described the common imaging features and discussed our experience of management and clinical sequelae.

Systematic review and meta-analysis on coronary calcifications in COVID-19.

Chest CT is valuable to detect alternative diagnoses/complications of COVID-19, while its role for prognostication requires further investigation. Non-pulmonary radiological findings such as cardiovascular calcifications could increase the predictivity of clinical outcomes of COVID-19 patients beyond pulmonary involvement. Several observational studies have reported mixed results on the role of coronary calcifications in COVID-19 patients as a predictor of hospitalization, ventilatory support, and mortality. The purpose of the study is to systematically review the available evidence on the predictive role of cardiovascular calcifications in SARS-CoV2 disease. The meta-analysis confirms the prognostic significance of coronary calcifications on hospital mortality, and coronary calcifications (CAC ≠ 0) were associated with an OR for mortality of 2.19 (95% CI 1.36-3.52). CAC was neutral on respiratory outcomes, but it was associated with an increased trend of cardiovascular events. Coronary calcium appears as a promising biomarker imaging even in short-term outcomes (MACEs, hospital mortality) in a non-cardiovascular disease such as Sars-CoV2 infection. Further large studies are needed to confirm promising results of this imaging biomarker in non-cardiovascular disease.

COVID-19 Unveiling Brain Calcifications.

Neurological symptoms in COVID-19 patients have attracted the interest of the scientific community, yet their mechanisms remain unknown. In some circumstances, the presence of neurological manifestations may result in an incidental diagnosis after a detailed investigation. In the present letter, we discuss a case published by Demir et al., in which the diagnosis of COVID-19 enabled the diagnosis of a rare neurological disorder, characterized by bilateral brain calcifications, commonly known by the eponym Fahr's syndrome. In addition, we report a case of primary brain calcifications unveiled by a suspected coronavirus infection.

Coronary artery calcification on low-dose chest CT is an early predictor of severe progression of COVID-19-A multi-center, multi-vendor study.

PURPOSE: Cardiovascular comorbidity anticipates severe progression of COVID-19 and becomes evident by coronary artery calcification (CAC) on low-dose chest computed tomography (LDCT). The purpose of this study was to predict a patient's obligation of intensive care treatment by evaluating the coronary calcium burden on the initial diagnostic LDCT. METHODS: Eighty-nine consecutive patients with parallel LDCT and positive RT-PCR for SARS-CoV-2 were included from three centers. The primary endpoint was admission to ICU, tracheal intubation, or death in the 22-day follow-up period. CAC burden was represented by the Agatston score. Multivariate logistic regression was modeled for prediction of the primary endpoint by the independent variables "Agatston score > 0", as well as the CT lung involvement score, patient sex, age, clinical predictors of severe COVID-19 progression (history of hypertension, diabetes, prior cardiovascular event, active smoking, or hyperlipidemia), and laboratory parameters (creatinine, C-reactive protein, leucocyte, as well as thrombocyte counts, relative lymphocyte count, d-dimer, and lactate dehydrogenase levels). RESULTS: After excluding multicollinearity, "Agatston score >0" was an independent regressor within multivariate analysis for prediction of the primary endpoint (p<0.01). Further independent regressors were creatinine (p = 0.02) and leucocyte count (p = 0.04). The Agatston score was significantly higher for COVID-19 cases which completed the primary endpoint (64.2 [interquartile range 1.7-409.4] vs. 0 [interquartile range 0-0]). CONCLUSION: CAC scoring on LDCT might help to predict future obligation of intensive care treatment at the day of patient admission to the hospital.