Impact of Antibody Cocktail Therapy Combined with Casirivimab and Imdevimab on Clinical Outcome for patients with COVID-19 in A Real-Life Setting: A Single Institute Analysis.

BACKGROUND: Recent data from clinical trials suggest that antibody cocktail therapy, which combined casirivimab and imdevimab, is linked to the reduction of the risk of hospitalization or death among high-risk patients with COVID-19. However, it remains unclear how effective the therapy is in a real-life clinical practice. METHODS: We retrospectively analyzed patients with COVID-19 with high-risk factors who underwent the antibody cocktail therapy, compared with those who were not given the cocktail therapy while being isolated in nonmedical facilities during the same period. RESULTS: Data from 55 patients who received the antibody cocktail therapy and 53 patients with initial isolation in nonmedical facilities were analyzed. A total of 22 (41.5 %) of 53 patients staying in isolation facilities were eventually hospitalized and received medical interventions. By contrast, 13 (23.6 %) of 55 patients who received the antibody cocktail therapy subsequently underwent further medical interventions. In multivariate analysis, the antibody cocktail therapy significantly reduced the need for further medical interventions by 70 % compared with isolation (odds ratio=0.30, 95%CI [0.10-0.87], p=0.027). Patients with percutaneous oxygen saturation 96% or higher were significantly favoured for the therapy and had an advantage. CONCLUSION: The results of this study indicate that the antibody cocktail therapy is associated with reducing burden on hospitals during the COVID-19 pandemic.

Conifer-Derived Monoterpenes and Forest Walking.

Conifer and broadleaf trees emit volatile organic compounds in the summer. The major components of these emissions are volatile monoterpenes. Using solid phase microextraction fiber as the adsorbant, monoterpenes were successfully detected and identified in forest air samples. Gas chromatography/mass chromatogram of monoterpenes in the atmosphere of a conifer forest and that of serum from subjects who were walking in a forest were found to be similar each other. The amounts of α-pinene in the subjects became several folds higher after forest walking. The results indicate that monoterpenes in the atmosphere of conifer forests are transferred to and accumulate in subjects by inhalation while they are exposed to this type of environment.