Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 2 of 2
Full-Text Articles in Organisms
Theta-Burst Microstimulation In The Human Entorhinal Area Improves Memory Specificity, Ali S. Titiz, Michael R. H. Hill, Emily A. Mankin, Zahra M. Aghajan, Dawn Eliashiv, Natalia Tchemodanov, Uri Maoz, John Stern, Michelle E. Tran, Peter Schuette, Eric Behnke, Nanthia A. Suthana, Itzhak Fried
Theta-Burst Microstimulation In The Human Entorhinal Area Improves Memory Specificity, Ali S. Titiz, Michael R. H. Hill, Emily A. Mankin, Zahra M. Aghajan, Dawn Eliashiv, Natalia Tchemodanov, Uri Maoz, John Stern, Michelle E. Tran, Peter Schuette, Eric Behnke, Nanthia A. Suthana, Itzhak Fried
Psychology Faculty Articles and Research
The hippocampus is critical for episodic memory, and synaptic changes induced by long-term potentiation (LTP) are thought to underlie memory formation. In rodents, hippocampal LTP may be induced through electrical stimulation of the perforant path. To test whether similar techniques could improve episodic memory in humans, we implemented a microstimulation technique that allowed delivery of low-current electrical stimulation via 100 μm-diameter microelectrodes. As thirteen neurosurgical patients performed a person recognition task, microstimulation was applied in a theta-burst pattern, shown to optimally induce LTP. Microstimulation in the right entorhinal area during learning significantly improved subsequent memory specificity for novel portraits; participants …
Alcohol Consumption Impairs The Ependymal Cilia Motility In The Brain Ventricles, Alzahra J. Al Omran, Hannah C. Saternos, Yusuf S. Althobaiti, Alexander Wisner, Youssef Sari, Surya M. Nauli, Wissam A. Aboualaiwi
Alcohol Consumption Impairs The Ependymal Cilia Motility In The Brain Ventricles, Alzahra J. Al Omran, Hannah C. Saternos, Yusuf S. Althobaiti, Alexander Wisner, Youssef Sari, Surya M. Nauli, Wissam A. Aboualaiwi
Pharmacy Faculty Articles and Research
Ependymal cilia protrude into the central canal of the brain ventricles and spinal cord to circulate the cerebral spinal fluid (CSF). Ependymal cilia dysfunction can hinder the movement of CSF leading to an abnormal accumulation of CSF within the brain known as hydrocephalus. Although the etiology of hydrocephalus was studied before, the effects of ethanol ingestion on ependymal cilia function have not been investigated in vivo. Here, we report three distinct types of ependymal cilia, type-I, type-II and type-III classified based upon their beating frequency, their beating angle, and their distinct localization within the mouse brain-lateral ventricle. Our studies …