Effects of Aerobic Exercise during Pregnancy on 1-Month Infant Neuromotor Skills.

Purpose: To determine the effects of exercise during pregnancy on the neuromotor development of 1-month-old offspring. We hypothesized that aerobic exercise during pregnancy would be associated with higher neuromotor scores in infants at 1 month of age, based on standard pediatric assessment of neuromotor skills.

Methods: Seventy-one healthy, pregnant women between 18 and 35 yr were randomly assigned to either aerobic exercise intervention or no exercise (control) group.

On the high frequency transfer of mechanical stimuli from the surface of the head to the macular neuroepithelium of the mouse.

Vestibular macular sensors are activated by a shearing motion between the otoconial membrane and underlying receptor epithelium. Shearing motion and sensory activation in response to an externally induced head motion do not occur instantaneously. The mechanically reactive elastic and inertial properties of the intervening tissue introduce temporal constraints on the transfer of the stimulus to sensors.

Layer-by-layer evolution of a two-dimensional electron gas near an oxide interface.

We report the momentum-resolved measurement of a two-dimensional electron gas at the LaTiO(3)/SrTiO(3) interface by angle-resolved photoemission spectroscopy (ARPES). Thanks to an advanced sample preparation technique, the orbital character of the conduction electrons and the electronic correlations can be accessed quantitatively as each unit cell layer is added. We find that all of these quantities change dramatically with distance from the interface.

Effects of acute administration of ketorolac on mammalian vestibular sensory evoked potentials.

The nonsteroidal antiinflammatory drug (NSAID) ketorolac is a candidate for use as a supplemental analgesic during major surgery in anesthetized rodents. The use of ketorolac during surgery is believed to reduce the anesthetic dose required to achieve and maintain an adequate surgical plane, thus improving the physiologic condition and survival of animals during long experimental procedures. Ketorolac has reported side effects that include dizziness, ear pain, hearing loss, tinnitus, and vertigo in humans, but ketorolac has not been reported to affect the vestibular system in animals.

Anatomical and Physiological Considerations in Vestibular Dysfunction and Compensation.

Sensory information from the vestibular, visual, and somatosensory/proprioceptive systems are integrated in the brain in complex ways to produce a final motor output to muscle groups for maintaining gaze, head and body posture, and controlling static and dynamic balance. The balance system is complex, which can make differential diagnosis of dizziness quite challenging. On the other hand, this complex system is organized anatomically in a variety of pathways and some of these pathways have been well studied.