Brainpaths LLC

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BRAINPATHS IS PRESENTING: Long-Term Care & Senior Living CXO Summit: 7-8 February 2019, Omni Orlando Resort at Championsgate, Orlando, FL

Brainpaths Fingertip Tracing Devices -Strengthen Synapse Connections: Repeated and Persistent Brain Stimulation: IMPROVES MEMORY. Memory loss results when Amyloid plaque builds up in the brain and impairs synaptic neuron connections. Shankar GM, Li S, Lemere CA, et al. 2008. To improve memory, synapse connections must be strengthened. Brainpaths patented medical devices use repeated and persistent stimulation of the sensory cortex and Hippocampus of the brain, by repeatedly tracing injected plastic textures in Brainpaths devices, tracing with one or more fingertips, to increase and strengthen synapse connections. Brainpaths USPTO Utility patent (# 9,132,059) incorporates the Hebbian theory: “neurons that fire together wire together”. A synapse between two neurons is strengthened when the neurons on either side of the synapse (input and output) have highly correlated outputs. When activities wire repeatedly, the connections between those neurons strengthen, describing synaptic plasticity where an increase in synaptic efficacy arises from repeated and persistent stimulation of synapse connections between neurons. Repeated and Persistent Stimulation of the brain is what leads to the formation of memory. Eric Richard Kandel (born 11/7/29), an Austrian-American neuroscientist at Columbia University, is the recipient of the 2000 Nobel Prize for his research on the physiological basis of memory storage in neurons, including the Hebbian theory. Hebbian theory in neuroscience is an explanation for the adaptation of neurons in the brain during the learning process, describing a basic mechanism for synaptic plasticity: an increase in synaptic efficacy arises when the neurons on either side of the synapse (input and output) have highly correlated outputs. Brainpaths finger movement provides repetitive and persistent brain stimulation resulting in improved memory, improved cognitive abilities and a decrease in anxiety, depression and stress. , Brainpaths Fingertip tracing devices provide repetitive fingertip tracing exercises that provide a superhighway to the brain to fire and wire neurons, discovered in 1997 John Hopkins Krieger Brain Institute. Brainpaths Fingertip tracing devices strengthen synapse connections, using repetitive fingertip tracing exercises, was discovered in 1997 John Hopkins Krieger Brain Institute. Through sensory stimulation and repetitious mind exercises resulting from repetitive finger movement, memory is increased, cognitive abilities improved, and anxiety, depression and stress released (Brainpaths.com). Neuroplasticity shows that many aspects of the brain can be altered (or are "plastic") even into adulthood. This notion is in contrast with the previous scientific consensus that the brain develops during a critical period in early childhood and then remains relatively unchanged (or "static"). Brainpaths provides a methodology to use the brain’s ability to improve, namely “brain plasticity”., and Tracing Brainpaths textured devices strengthens synapse connections: fingertips indent into 3000 mechanoreceptors in each fingertip, providing an immediate superhighway to the sensory cortex of the brain, firing neurons and improving synapse connections just like Braille (Leah Ariniello, Society for Neuroscience, Wash D.C.). The result: improved memory and ongoing brain stimulating exercises for healthy seniors and seniors having memory issues.