Background Virtual reality (VR) and augmented reality (AR) have recently become popular research themes. However, there are no published bibliometric reports that have analyzed the corresponding scientific literature in relation to the application of these technologies in medicine. Objective We used a bibliometric approach to identify and analyze the scientific literature on VR and AR research in medicine, revealing the popular research topics, key authors, scientific institutions, countries, and journals. We further aimed to capture and describe the themes and medical conditions most commonly investigated by VR and AR research. Methods The Web of Science electronic database was searched to identify relevant papers on VR research in medicine. Basic publication and citation data were acquired using the “Analyze” and “Create Citation Report” functions of the database. Complete bibliographic data were exported to VOSviewer and Bibliometrix, dedicated bibliometric software packages, for further analyses. Visualization maps were generated to illustrate the recurring keywords and words mentioned in the titles and abstracts. Results The analysis was based on data from 8399 papers. Major research themes were diagnostic and surgical procedures, as well as rehabilitation. Commonly studied medical conditions were pain, stroke, anxiety, depression, fear, cancer, and neurodegenerative disorders. Overall, contributions to the literature were globally distributed with heaviest contributions from the United States and United Kingdom. Studies from more clinically related research areas such as surgery, psychology, neurosciences, and rehabilitation had higher average numbers of citations than studies from computer sciences and engineering. Conclusions The conducted bibliometric analysis unequivocally reveals the versatile emerging applications of VR and AR in medicine. With the further maturation of the technology and improved accessibility in countries where VR and AR research is strong, we expect it to have a marked impact on clinical practice and in the life of patients.
Background and Aims Cholestasis is associated with disease severity and worse outcome in COVID‐19. Cases of secondary sclerosing cholangitis (SSC) after severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) infection have been described. Approach and Results Hospitalized patients with COVID‐19 between 03/2020 and 07/2021 were included. Patients were stratified as having (i) no chronic liver disease (CLD), (ii) non‐advanced CLD (non‐ACLD), or (iii) advanced CLD (ACLD). Patients with CLD and non–COVID‐19 pneumonia were matched to patients with CLD and COVID‐19 as a control cohort. Liver chemistries before (Pre) and at first, second, and third blood withdrawal after SARS‐CoV‐2 infection (T1–T3) and at last available time point (last) were recorded. A total of 496 patients were included. In total, 13.1% ( n = 65) had CLD (non‐ACLD: 70.8%; ACLD: 29.2%); the predominant etiology was NAFLD/NASH (60.0%). COVID‐19–related liver injury was more common among patients with CLD (24.6% vs. 10.6%; p = 0.001). After SARS‐CoV‐2 infection, patients with CLD exhibited progressive cholestasis with persistently increasing levels of alkaline phosphatase (Pre: 91.0 vs. T1: 121.0 vs. last: 175.0 U/L; p < 0.001) and gamma‐glutamyl transferase (Pre: 95.0 vs. T1: 135.0 vs. last: 202.0 U/L; p = 0.001). A total of 23.1% of patients with CLD ( n = 15/65) developed cholestatic liver failure (cholestasis plus bilirubin ≥6 mg/dl) during COVID‐19, and 15.4% of patients ( n = 10/65) developed SSC. SSC was significantly more frequent among patients with CLD and COVID‐19 than in patients with CLD and non–COVID‐19 pneumonia ( p = 0.040). COVID‐19–associated SSC occurred predominantly in patients with NAFLD/NASH and metabolic risk factors. A total of 26.3% ( n = 5/19) of patients with ACLD experienced hepatic decompensation after SARS‐CoV‐2 infection. Conclusions About 20% of patients with CLD develop progressive cholestasis after SARS‐CoV‐2 infection. Patients with NAFLD/NASH and metabolic risk factors are at particular risk for developing cholestatic liver failure and/or SSC after COVID‐19.
Background Duration of invasive mechanical ventilation (IMV) prior to extracorporeal membrane oxygenation (ECMO) affects outcome in acute respiratory distress syndrome (ARDS). In coronavirus disease 2019 (COVID-19) related ARDS, the role of pre-ECMO IMV duration is unclear. This single-centre, retrospective study included critically ill adults treated with ECMO due to severe COVID-19-related ARDS between 01/2020 and 05/2021. The primary objective was to determine whether duration of IMV prior to ECMO cannulation influenced ICU mortality. Results During the study period, 101 patients (mean age 56 [SD ± 10] years; 70 [69%] men; median RESP score 2 [IQR 1–4]) were treated with ECMO for COVID-19. Sixty patients (59%) survived to ICU discharge. Median ICU length of stay was 31 [IQR 20.7–51] days, median ECMO duration was 16.4 [IQR 8.7–27.7] days, and median time from intubation to ECMO start was 7.7 [IQR 3.6–12.5] days. Fifty-three (52%) patients had a pre-ECMO IMV duration of > 7 days. Pre-ECMO IMV duration had no effect on survival (p = 0.95). No significant difference in survival was found when patients with a pre-ECMO IMV duration of < 7 days (< 10 days) were compared to ≥ 7 days (≥ 10 days) (p = 0.59 and p = 1.0). Conclusions The role of prolonged pre-ECMO IMV duration as a contraindication for ECMO in patients with COVID-19-related ARDS should be scrutinised. Evaluation for ECMO should be assessed on an individual and patient-centred basis.
Background and Aims The coronavirus disease of 2019 (COVID‐19) causes considerable mortality worldwide. We aimed to investigate the frequency and predictive role of abnormal liver chemistries in different age groups. Methods Patients with positive severe acute respiratory distress syndrome‐coronavirus‐2 (SARS‐CoV‐2) polymerase chain reaction (PCR) test between 03/2020‐07/2021 at the Vienna General Hospital were included. Patients were stratified for age: 18–39 vs. 40–69 vs. ≥70 years (y). Aspartate aminotransferase (AST), alanine‐aminotransferase (ALT), alkaline phosphatase (ALP), gamma‐glutamyl transferase (GGT) and total bilirubin (BIL) were recorded. Results 900 patients (18–39 years: 32.2%, 40–69 years: 39.7%, ≥70 years: 28.1%) were included. Number of comorbidities, median D‐dimer and C‐reactive protein increased with age. During COVID‐19, AST/ALT and ALP/GGT levels significantly increased. Elevated hepatocellular transaminases (AST/ALT) and cholestasis parameters (ALP/GGT/BIL) were observed in 40.3% ( n = 262/650) and 45.0% ( n = 287/638) of patients respectively. Liver‐related mortality was highest among patients with pre‐existing decompensated liver disease (28.6%, p < .001). 1.7% of patients without pre‐existing liver disease died of liver‐related causes, that is consequences of hepatic dysfunction or acute liver failure. Importantly, COVID‐19‐associated liver injury (16.0%, p < .001), abnormal liver chemistries and liver‐related mortality (6.5%, p < .001) were most frequent among 40–69 years old patients. Elevated AST and BIL after the first positive SARS‐CoV‐2 PCR independently predicted mortality in the overall cohort and in 40–69 years old patients. Conclusions Almost half of the COVID‐19 patients exhibit abnormal hepatocellular and cholestasis‐related liver chemistries with 40–69 years old patients being at particularly high risk for COVID‐19‐related liver injury and liver‐related mortality. Elevated AST and BIL after SARS‐CoV‐2 infection are independent predictors of mortality, especially in patients aged 40–69 years.
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