Survey of attitudes in a Danish public towards reuse of health data.

Everyday clinical care generates vast amounts of digital data. A broad range of actors are interested in reusing these data for various purposes. Such reuse of health data could support medical research, healthcare planning, technological innovation, and lead to increased financial revenue.

Healthcare professionals' experiences of the change to telephone consultations in cancer care during the COVID-19 pandemic: An explorative qualitative study.

Objective: During the COVID-19 pandemic, changes were made in cancer care including increased use of teleconsultations (TCs) and restrictions for relatives to attend in-person appointments at the outpatient clinics. This study aimed to provide in-depth information on healthcare professionals' experiences of TC and the limited access for relatives during the COVID-19 pandemic in 2020.

Methods: This qualitative study was conducted at an oncological department responsible for oncological care of all patients with cancer in one of five health regions in Denmark.

Cavity-enhanced superconductivity in MgB from first-principles quantum electrodynamics (QEDFT).

Strong laser pulses can control superconductivity, inducing nonequilibrium transient pairing by leveraging strong-light matter interaction. Here, we demonstrate theoretically that equilibrium ground-state phonon-mediated superconductive pairing can be affected through the vacuum fluctuating electromagnetic field in a cavity. Using the recently developed ab initio quantum electrodynamical density-functional theory approximation, we specifically investigate the phonon-mediated superconductive behavior of MgB[Formula: see text] under different cavity setups and find that in the strong light-matter coupling regime its superconducting transition temperature T[Formula: see text] can be enhanced at most by [Formula: see text]10% in an in-plane (or out-of-plane) polarized and realistic cavity via photon vacuum fluctuations.