Organoclay flocculation as a pathway to export carbon from the sea surface.

Marine microorganisms play a critical role in regulating atmospheric CO concentration via the biological carbon pump. Deposition of continental mineral dust on the sea surface increases carbon sequestration but the interaction between minerals and marine microorganisms is not well understood. We discovered that the interaction of clay minerals with dissolved organic matter and a γ-proteobacterium in seawater increases Transparent Exopolymer Particle (TEP) concentration, leading to organoclay floc formation.

Prone position plexopathy: an avoidable complication of prone positioning for COVID-19 pneumonitis?

Prone positioning is a mainstay of management for those presenting to the intensive care unit with moderate-to-severe acute respiratory distress syndrome due to COVID-19. While this is a necessary and life-saving intervention in selected patients, careful positioning and meticulous care are required to prevent compression and traction of the brachial plexus, and resultant brachial plexopathy. We describe two patients who developed a brachial plexus injury while undergoing prone positioning for management of COVID-19 pneumonitis.

The Role of a Liaison Team in ICU Family Communication During the COVID 19 Pandemic.

Context: In the name of public safety, a general suspension on hospital visiting was imposed in the U.K., prohibiting family and friends to visit hospitalized patients, even if they were critically ill.

Immediate postoperative management and complications on the intensive care unit.

The postoperative management of patients immediately after liver transplantation requires knowledge of this complex surgery and the physiology that accompanies liver failure. A multidisciplinary approach to the care of these patients is essential in order to reduce postoperative complications and preserve function in the transplanted organ. By their nature, patients undergoing liver transplantation have complicated medical problems before surgery which must be borne in mind when managing them after surgery.

Bioelectric effects of quinine on polarized airway epithelial cells.

Quinine has been increasingly utilized as a placebo in cystic fibrosis (CF) clinical trials, including those leading to FDA approval of inhaled tobramycin, recent studies of anti-inflammatory aerosols such as glutathione, and clinical testing of hypertonic saline aerosols to augment mucous clearance. The drug effectively masks taste of experimental therapeutics, but could also confer changes in processes contributing to CF pathogenesis, including chloride secretion and paracellular ion permeability. In the Ussing chamber, concentrations of quinine (1 mg/ml) anticipated in the airways of CF subjects after aerosolization led to changes in chloride transport in Calu-3 (airway serous glandular) cell monolayers.

Activation of chloride secretion in cystic fibrosis cells and tissues by the substituted imidazole SRI 2931.

Recent interest in nucleotides and related agents as part of clinical trials in cystic fibrosis (CF) therapy have elicited efforts to identify novel compounds capable of activating transepithelial chloride (Cl(-)) transport in CF cells and tissues. From a library of nucleosides, bases, and other substituted heterocycles, 341 compounds were screened for their ability to activate anion transport in CF cells grown on permeable supports. One compound, SRI 2931, was found to confer prolonged and potent activity when administered to the apical surfaces of CF pancreatic epithelial cells, primary CF nasal epithelial cells, non-CF human colonic epithelial cells, and intact tissue taken from mouse models for CF.

CO(2) capture by a task-specific ionic liquid.

Reaction of 1-butyl imidazole with 3-bromopropylamine hydrobromide, followed by workup and anion exchange, yields a new room temperature ionic liquid incorporating a cation with an appended amine group. The new ionic liquid reacts reversibly with CO2, reversibly sequestering the gas as a carbamate salt. The new ionic liquid, which can be repeatedly recycled in this role, is comparable in efficiency for CO2 capture to commercial amine sequestering reagents, and yet is nonvolatile and does not require water to function.