Hyperice, a sports technology company specializing in cutting-edge recovery devices, has announced the launch of an all-new product line called Venom, which, to start, will include two products the 'Venom 2' and the 'Venom Go.' Both products utilize the brand's new HyperHeat technology, which has been designed to effectively distribute heat across a large surface area.
The Venom Go is a portable heat and vibration wearable that can be used on several body parts, including calves, forearms, and pecs. Meanwhile, the Venom 2 features an overall larger design and is intended for use on bigger muscles such as the back, shoulder, and legs.
"It's been six years since the debut of heat and vibration technology from Hyperice," said Hyperice CEO Jim Huether. "We've now significantly enhanced the Venom user experience and added our patented HyperHeat technology, all while staying true to the core elements of the original product that made people fall in love with it."
Two-in-One Muscle Recovery Tools
Hyperice Launches the 'Venom Go' For Advanced Recovery
Trend Themes
1. Advanced Recovery Devices - There is an opportunity to develop new advanced recovery devices that incorporate HyperHeat technology for more efficient muscle recovery
2. Portable Muscle Recovery Technology - There is an opportunity to create more portable muscle recovery devices that can be easily used on multiple body parts
3. Combination Muscle Recovery Tools - There is an opportunity to create combination muscle recovery tools that offer both heat and vibration therapy for optimal recovery results
Industry Implications
1. Sports Technology - Sports technology companies can incorporate HyperHeat technology into their existing products or develop new muscle recovery devices for the market
2. Fitness Equipment - Fitness equipment manufacturers can incorporate portable muscle recovery technology into their products such as foam rollers and massage balls
3. Physical Therapy - Physical therapy practices can adopt combination muscle recovery tools to help patients recover faster and more efficiently