Vibrotactile stimulation activates fingertip neurons to increase dopamine levels
Emerging research at MIT and Harvard confirm benefits of vibrotactile stimulation
Breakthrough technology makes the iPhone resonate like a musical instrument
Increasing dopamine levels helps the hippocampus reinforce memories
Features a full library of original multisensory experiences
Breathtaking visuals are synchronized with music for an immersive experience
Emerging research shows that stimulating fingertip neurons with specific vibrational frequencies can increase dopamine levels in the brain - reinforcing learning abilities and enhancing synaptic plasticity. NeoRecall creates a multisensory experience with vibrotactile music that can help strengthen memory and improve cognitive function.
Maintaining healthy levels of molecular messengers in the brain
is critical for improving memory and synaptic plasticity.
Dopamine
Acetylcholine
Glutamate
GABA
Catecholamines
Endorphins
Original multisensory soundtracks create an immersive experience
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Scientists around the world have recently published research papers showing that
stimulating fingertip neurons can have a substantial impact on cognitive function.
Myelinated Tactile Corpuscles
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Responsible for transmitting the sensations of low-frequency vibrations between 10 to 50 Hz
Tactile Mechanoreceptors
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Responsible for the neural encoding of light touch stimuli from frequencies of between 5 to 15 Hz
Myelinated Mechanoreceptors
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Able to discriminate between fine touch and sensory vibrations from 100 to 400 Hz
Afferent Nerve Fibers
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Transmits signals to sensory neurons to detect pain and temperature
Stimulating fingertip neurons with vibrotactile music can help improve
cognitive function by increasing dopamine levels in the brain.
Used to remember familiar faces or objects, and the meanings of words during conversations.
Used for recalling emotions, and remembering personal experiences that elicit strong feelings.
Used to remember appointments, dates or events that are due to happen in the future.
Used to store information for short periods, such as numbers or where your car is parked.
Sensory neurons in every fingertip
Speed in MPH for neuron transmission
Different types of neurotransmitters
Average frequency of tactile neurons in Hz
NeoRecall is based on emerging research in neuroscience and biophysics.
Contact us for a complete list of published papers on memory therapy.
Clinical trials show sensory stimulation is effective for Alzheimer’s
Vibrotactile stimulation improves memory and cognitive function
Memory function is significantly improved by vibrotactile stimulation
Dopamine regulates learning and memory in the hippocampus
Tactile skin stimulation increases dopamine in the nucleus accumbens
Dopamine depletion is linked with cognitive impairment in Alzheimer’s
Musical and photographic stimulation improves Alzheimer’s symptoms
