Assessment of extremely premature lambs supported by the Extrauterine Environment for Neonatal Development (EXTEND).

Background: Our team has previously reported physiologic support by the EXTra-uterine Environment for Neonatal Development (EXTEND) of 105 to 117 days gestational age (GA) lambs for up to 28 days with normal organ maturation. However, the fetal lamb brain matures more rapidly, requiring the study of 90-105 day GA fetal lambs to assess more neurodevelopmentally equivalent lambs to the 23-25 week GA extreme premature infant.

Methods: Extremely preterm lambs (90-95 days of GA) were delivered by C-section and supported by EXTEND.

Hemorheological Approach to Improve Perfusion of Red Blood Cells with Reduced Deformability Using Drag-Reducing Polymer (In Vitro Study).

Drag-reducing polymers (DRPs) are nontoxic water-soluble blood additives that have been shown to beneficially alter hemodynamics when delivered intravenously in nanomolar concentrations. This study examines the ability of DRPs to alter the traffic of mixtures of normal and less-deformable red blood cells (RBCs) through branched microchannels and is intended to support and expand upon previous experiments within straight capillary tubes to promote DRPs for future clinical use. Branched polydimethylsiloxane microchannels were perfused with a mixture of normal bovine RBCs also containing heat-treated less-deformable RBCs at a hematocrit of 30% with 10 ppm of the DRP poly(ethylene oxide) (MW 4M Da).

Drag-reducing polymers improve hepatic vaso-occlusion in SCD mice.

Nanomolar concentrations of drag-reducing polymer (DRP) reduce vaso-occlusion in the liver of sickle cell disease (SCD) mice. The potential for DRP as a rheology-based treatment/therapy for SCD warrants further study.