METASPEED EDGE PARIS
The METASPEED™ EDGE racing shoes are designed for competitive runners looking for high energy return and lightness to start fast and finish faster.
The energy is directed in a vertical and forward direction to fit the running style of the cadence runner.
The upper uses a lightweight MOTION WRAP 2.0 upper material offering improved breathability and comfort.
The Full length carbon plate is designed to maximise propulsion in the forefoot during the toe off phase.
Together with FF TURBO PLUS cushioning, this will enable runners to conserve more energy while maintaining their pace at the later stages of the race.
Recommended by
Designed For Neutral Underpronation

Neutral
-
Foot Type
Normal to high arches -
Push Off
There is even distribution from the front of the foot. -
How your foot contacts the ground
The foot lands on the outside of the heel, then rolls inward to absorb shock and support body weight, or pressure remains on outside of the foot through to toe-off. -
For those who appreciate cushioning and don’t require additional support.

Underpronation
-
Foot Type
High arches -
Push Off
The pressure is on smaller toes on outside of foot. -
How your foot contacts the ground
The outer side of the heel hits the ground at an increased angle with little or no normal pronation, causing a large transmission of shock through the lower leg. -
- MOTION WRAP™ 2.0 upper is designed to improve breathability and comfort
- FF TURBO™ PLUS cushioning improves compression and helps provide more energy savings
- Curved sole design helps runners conserve more energy in each step
- Carbon plate guides your foot throughout your step and propels your foot forward
- ASICSGRIP™ outsole rubber provides advanced grip for various terrains.
- At least 50% of the shoe's main upper material is made with recycled content to reduce waste and carbon emissions
- The sockliner is produced with the solution dyeing process that reduces water usage by approximately 33% and carbon emissions by approximately 45% compared to the conventional dyeing technology