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Full-Text Articles in Medicine and Health Sciences
Characterization Of Calbindin Positive Interneurons Within The Ventral Horn Of The Mouse Spinal Cord, Taylor L. Floyd, David R. Ladle
Characterization Of Calbindin Positive Interneurons Within The Ventral Horn Of The Mouse Spinal Cord, Taylor L. Floyd, David R. Ladle
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Sensory-motor circuits in the spinal cord integrate sensory feedback from muscles and modulate locomotor behavior. Although we know how the sensory-motor system generally works, the main issue lies in identifying all neurons involved and understanding their interrelationships. Many interneurons contribute to sensory-motor circuits and have been well studied. For example, Renshaw cells (RC) are inhibitory interneurons that prevent motor neurons from over-activity. A distinguishing feature of RCs is that they are the only interneurons within the ventral-most region of the spinal cord expressing the calcium binding protein calbindin (CB). Recent studies have found other subpopulations of ventral horn interneurons outside …
Is Polyvinylidene Diflouride (Pvdf) Film Biocompatible In The Murine Cochlea?, Robert Maxwell Jaggers
Is Polyvinylidene Diflouride (Pvdf) Film Biocompatible In The Murine Cochlea?, Robert Maxwell Jaggers
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Polyvinylidene fluoride (PVDF) film, a biomaterial that is an integral part of a Totally Implantable Sustainable Hearing Aide (TISHA) device, was examined to determine its biocompatibility within the murine cochlea. The biofilm was implanted in the ear using a round window cochleostomy in 7-9 week old male C57BL/6 mice. Three test groups containing seven mice each were implanted with PVDF film. Each mouse received a sham surgery on the non-implanted cochlea. Three test groups were examined at 48 hours, 3 weeks, and 3 months. At the end of this time the mouse was euthanized, the tissue containing the cochlea was …
Maturation Of The Carotid Body Oxygen-Sensor During Rat Development, Julia Paulet
Maturation Of The Carotid Body Oxygen-Sensor During Rat Development, Julia Paulet
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Carotid bodies (CB) are paired, oxygen-sensing organs located in the bifurcation of the carotid artery that act as peripheral chemoreceptors in the detection of hypoxic, hypercapnic and acidotic levels in the arterial blood. CBs respond to these fluctuations in blood gases by initiating firing of the carotid sinus nerve. This ultimately results in the appropriate ventilatory change to restore blood gases to their physiological levels. Studies have shown that the hypoxic response of the carotid body in juvenile mammals is low, but as maturation occurs this response is strengthened and clearly exhibited in adults. One theory suggests mitochondria play a …