Causes, Complications, and Costs Associated with External Ventricular Drainage Catheter Obstruction.

Ventricular catheter obstructions in patients treated with external ventricular drains (EVDs) have the potential to substantially impact the cost of patient care. There is a paucity of literature that directly addresses catheter obstruction over large numbers of patients with EVDs in multiple centers. Contemporary literature was reviewed to characterize causes, complications, and costs of EVD catheter obstruction.

A self-reconfiguring metamorphic nanoinjector for injection into mouse zygotes.

This paper presents a surface-micromachined microelectromechanical system nanoinjector designed to inject DNA into mouse zygotes which are ≈90 μm in diameter. The proposed injection method requires that an electrically charged, DNA coated lance be inserted into the mouse zygote. The nanoinjector's principal design requirements are (1) it must penetrate the lance into the mouse zygote without tearing the cell membranes and (2) maintain electrical connectivity between the lance and a stationary bond pad.

Transgene delivery via intracellular electroporetic nanoinjection.

Development of an effective cytoplasmic delivery technique has remained an elusive goal for decades despite the success of pronuclear microinjection. Cytoplasmic injections are faster and easier than pronuclear injection and do not require the pronuclei to be visible; yet previous attempts to develop cytoplasmic injection have met with limited success. In this work we report a cytoplasmic delivery method termed intracellular electroporetic nanoinjection (IEN).

Nanoinjection: pronuclear DNA delivery using a charged lance.

We present a non-fluidic pronuclear injection method using a silicon microchip "nanoinjector" composed of a microelectromechanical system with a solid, electrically conductive lance. Unlike microinjection which uses fluid delivery of DNA, nanoinjection electrically accumulates DNA on the lance, the DNA-coated lance is inserted into the pronucleus, and DNA is electrically released. We compared nanoinjection and microinjection side-by-side over the course of 4 days, injecting 1,013 eggs between the two groups.