Unlock True Performance
Smart copper alloy matrices that improve microcirculation, lymph flow, and proprioception without restricting movement. Scientifically engineered to enhance elite athletic output.
Micro-circulation & Oxygenation
The copper alloy elements act as mechanical resonators, capturing kinetic energy and body heat and reflecting them deep into soft tissues. This triggers reflexive vasodilation and lymphatic drainage, accelerating the clearance of metabolic byproducts like lactate. Internal testing demonstrates a 10-15% localized increase in SpO2, reduced cardiovascular strain (an 11.5% decrease in heart rate at identical power output), and a 34.8% reduction in recovery time.
Unlike traditional compression gear that squeezes tissue and blocks blood flow, Neurodots act dynamically. Our dynamic dots, crafted from an advanced copper metal alloy, actively improve tissue nutrition and prevent injuries.
NEURODOTS TECHNOLOGY
Gate Control Theory
The analgesic effects of Neurodots are deeply rooted in neurophysiology. Strategically placed flat spring elements exert continuous, pronounced tactile pressure on specific mechanoreceptors. Because tactile sensory nerve fibers are thicker and conduct impulses faster than pain fibers, this continuous input effectively "closes the gate" at the spinal cord, significantly decreasing the perception of acute and chronic pain without pharmacological intervention.
Myofascial System & Proprioception
Neurodots interface directly with the CNS and fascial network. The patented matrices amplify afferent impulses from cutaneous proprioceptors to the brain, providing a highly accurate map of joint positioning. This stabilizes joints under fatigue, minimizing micro-traumas. Simultaneously, the continuous mechanical pressure mimics manual myofascial release, relieving hypertonicity and delivering a measured 1.5x (150%) increase in muscle and ligament elasticity.
Frequently Asked Questions
Yes. Our proprietary copper-alloy matrices are embedded utilizing advanced bonding techniques, making the entire garment fully machine washable at cold temperatures without losing signal fidelity.