Prospective Double-Blinded Randomized Field-Based Clinical Trial of Metoclopramide and Ibuprofen for the Treatment of High Altitude Headache and Acute Mountain Sickness.

Introduction: High altitude headache (HAH) and acute mountain sickness (AMS) are common pathologies at high altitudes. There are similarities between AMS and migraine headaches, with nausea being a common symptom. Several studies have shown ibuprofen can be effective for AMS prophylaxis, but few have addressed treatment.

Stem cells and bioactive scaffolds as a treatment for traumatic brain injury.

Successful repair of the injured brain is critical, as traumatic brain injury pathology often involves a secondary cascade of insults that may ultimately lead to worsened neurologic dysfunction. Damage is balanced by the brain's attempt to repair itself, the genetic profile of the person, underlying health issues, and age, among other factors. The challenge in using a tissue engineering approach to repair and regeneration is centered at the heterogeneous and complex environment, variables that are difficult to measure and interpret.

Synapse-to-neuron ratio is inversely related to neuronal density in mature neuronal cultures.

Synapse formation is a fundamental process in neurons that occurs throughout development, maturity, and aging. Although these stages contain disparate and fluctuating numbers of mature neurons, tactics employed by neuronal networks to modulate synapse number as a function of neuronal density are not well understood. The goal of this study was to utilize an in vitro model to assess the influence of cell density and neuronal maturity on synapse number and distribution.

Three-dimensional neural constructs: a novel platform for neurophysiological investigation.

Morphological and electrophysiological properties of neural cells are substantially influenced by their immediate extracellular surroundings, yet the features of this environment are difficult to mimic in vitro. Therefore, there is a tremendous need to develop a new generation of culture systems that more closely model the complexity of nervous tissue. To this end, we engineered novel electrophysiologically active 3D neural constructs composed of neurons and astrocytes within a bioactive extracellular matrix-based scaffold.

High rate shear insult delivered to cortical neurons produces heterogeneous membrane permeability alterations.

Traumatic brain injury (TBI) occurs when brain tissue is subjected to stresses and strains at high rates and magnitudes, yet the mechanisms of injury and cellular thresholds are not well understood. The events that occur at the time of and immediately after an insult are hypothesized to initiate cell dysfunction or death following a critical cell strain and strain rate. We analyzed neuronal plasma membrane disruption in two in vitro injury models-fluid shear stress delivered to planar cultures and shear strain induction of 3-D neural cultures.