Immediate skin-to-skin contact and postpartum hemorrhagic morbidity.

Objective: To examine rates of postpartum hemorrhagic (PPH) morbidity among patients who did and did not have immediate skin-to-skin contact (SSC).

Methods: This study was a retrospective cohort of all non-anomalous, term singleton vaginal births at a Level IV center over 2 years. Exclusion criteria included COVID-19.

Stepwise isolation of diverse metabolic cell populations using sorting by interfacial tension (SIFT).

We present here a passive and label-free droplet microfluidic platform to sort cells stepwise by lactate and proton secretion from glycolysis. A technology developed in our lab, Sorting by Interfacial Tension (SIFT), sorts droplets containing single cells into two populations based on pH by using interfacial tension. Cellular glycolysis lowers the pH of droplets through proton secretion, enabling passive selection based on interfacial tension and hence single-cell glycolysis.

Formal Dearomative Hydroamination of 2-Arylphenols.

An acid-promoted dearomative rearrangement of -arylhydroxylamines affords 2-aminocyclohexadien-1-ones, which can in turn be reductively quenched for the synthesis of -aminoalcohols on a cyclohexadiene core. This method serves as an efficient entry to the pharmaceutically relevant 1-arylcyclohexylamine scaffold in two steps (one purification) from commercially available or readily prepared 2-arylphenols.

Postpartum Hemorrhagic Morbidity with Scheduled versus Unscheduled Cesarean Delivery at Term.

Objective:  This study aimed to compare the composite maternal hemorrhagic outcomes (CMHOs) among term (≥37 weeks) singletons who had scheduled versus unscheduled cesarean deliveries (CDs). A subgroup analysis was done for those without prior uterine surgeries.

Study Design:  Retrospectively, we identified all singletons at term who had CDs.

Stepwise Isolation of Diverse Metabolic Cell Populations Using Sorting by Interfacial Tension (SIFT).

We present here a passive and label-free droplet microfluidic platform to sort cells stepwise by lactate and proton secretion from glycolysis. A technology developed in our lab, Sorting by Interfacial Tension (SIFT), sorts droplets containing single cells into two populations based on pH by using interfacial tension. Cellular glycolysis lowers the pH of droplets through proton secretion, enabling passive selection based on interfacial tension and hence single-cell glycolysis.