(C) 2014 AIP Publishing LLC “
“To increase the working knowl

(C) 2014 AIP Publishing LLC.”
“To increase the working knowledge on how to drain a transplanted kidney via the use of a Boari

flap as a salvage procedure. A female with a transplant kidney had complete obstruction at the ureteropelvic junction and multiple strictures of the ureter causing deterioration of the graft function. Surgery was the only way to successfully drain the obstructed kidney, but conventional methods were not possible due to dense fibrosis around the kidney. A Boari flap to the lower pole calyx of the transplant kidney was therefore employed. A Boari flap vesicocalycostomy is a potential method available to the transplant surgeon to successfully restore graft function in a this website case where the transplant or native ureter is unsalvageable.”
“Magnetic particles have become a promising tool for nearly all major lab-on-a-chip (LOC) applications, from sample capturing, purification, enrichment, transport to detection. For biological applications, the use of magnetic particles is especially well established for immunomagnetic separation. There is a great amount of interest in the automation of cell sorting and counting with magnetic particles in LOC platforms. So far, despite great Ulixertinib mw efforts, only few fully functional LOC devices have been described and further integration is necessary. In this review,

we will describe the physics of magnetic cell sorting and counting in LOC formats with a special focus on recent progress in the field.”
“Patients with congenital Long QT are known to have normal QT Histone Methyltransf inhibitor interval in symptom-free period and in the early years of life. Precipitating factors like surgical stress, interactions with anesthetic agents prolonging QT interval, and electrolyte imbalances can manifest with life threatening arrhythmias in congenital or acquired Long QT syndrome. We report a case of concealed LQTS manifesting under anesthesia

and its subsequent perioperative course.”
“The confined flow of red blood cells (RBCs) in microvasculature is essential for oxygen delivery to body tissues and has been extensively investigated in the literature, both in vivo and in vitro. One of the main problems still open in microcirculation is that flow resistance in microcapillaries in vivo is higher than that in vitro. This discrepancy has been attributed to the glycocalyx, a macromolecular layer lining the inner walls of vessels in vivo, but no direct experimental evidence of this hypothesis has been provided so far. Here, we investigate the flow behavior of RBCs in glass microcapillaries coated with a polymer brush (referred to as “”hairy”" microcapillaries as opposed to “”bare”" ones with no coating), an experimental model system of the glycocalyx. By high-speed microscopy imaging and image analysis, a velocity reduction of RBCs flowing in hairy microcapillaries as compared to bare ones is indeed found at the same pressure drop.

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