The GEL-KAYANO™ 28 shoe creates a stable stride that moves you towards a balanced mindset. Featuring a lower-profile external heel counter, this piece cradles your foot with improved rearfoot support.
To improve stability and responsiveness, we added FF BLAST™ cushioning to the midsole. It provides a smooth and supportive feel in each step. The trainer's new GEL™ technology shape delivers a smooth stride, allowing you to experience a softer landing without losing speed.
Width: D standard - STANDARD
Dynamic Duomax Support System
This evolution of DuoMax system enhances stability and support, with reduced weight and increased platform comfort.
A technical mesh material that stretches in multiple directions, creating a glove, snug like fit that provides a unique balance of comfort and fit.
External Heel Clutch
Improves fit between the shoe and the heel by restricting displacement. This “clutching” action enhances stability and performance.
Flytefoam Blast Midsole
Lightweight, midsole foam with energetic and highly responsive cushioning and bounce for an efficient ride.
Flytefoam Bottom Layer Midsole
Located on the bottom layer of the midsole, its organic fibres bounce back into its original shape in the space of each stride to provide perfect cushioning and cushioning from the start of your run to the finish.
Flytefoam Propel Top Layer
Combining a lightweight foam formulation with a high-energy return elastomer for increased bounce and unrivaled toe-off to give you a better performance out of every stride. Located closer to the foot to give that added comfort level.
Our lightest midsole ever. Its organic fibres bounce back into its original shape in the space of each stride to provide perfect cushioning from the start of your run to the finish.
Gender Specific Trusstic
Specifically designed trusstic system to cater to the differences in male and female biomechanics
3D Space Construction
This technology is implemented through a series of strategically planted pillars within the midsole, allowing runners to experience more compression in a specific area without reducing durability or stability. These pillar formations are tuned differently in the men's and women's models to address each gender's biomechanical data