ASICS Glideride Max Women's Running Shoes
Lock in for those long miles in the Glideride Max running shoes, these shoes deliver cloud-like softness underfoot so you can rack up the miles with ease.
Engineered Mesh Upper
Keep your feet cool and comfortable thanks to the engineered mesh upper. With micro-perforations throughout, fresh air is encouraged to flow into the shoe whilst hot air and vapour can escape with ease. This keeps your feet fresh and thriving, allowing you to put all your effort into your workout. A traditional lacing system locks in the fit, securing it to your foot for confident strides.
FF Blast Max and FF Blast Plus Eco Midsole
The Glideride Max features ASICS most responsive foam ever, FF Blast Max. This foam is cloud-like and bouncy, providing excellent cushioning and energy return to help spare your joints and help you get that flying feeling. This energy rebound allows you to go further faster with less effort, and the large stack height means you get the full effect. This is only further enhanced by GUIDESOLE technology. The curved midsole improves running efficiency by decreasing the load placed on your foot. This technology helps you to conserve energy on the road by reducing ankle flexion for a more comfortable stride. The FF Blast Max is reinforced with FF Blast Plus Eco, an ultra-lightweight foam made with at least 20% bio-based materials for an eco-conscious choice. An OrthoLite X-55 sockliner provides further cushioning comfort underfoot for a plush, pleasant feeling.
AHARPLUS and Hybrid ASICSGRIP Outsole
Supreme grip and traction are guaranteed with the AHARPLUS outsole. ASICS' high abrasion rubber is a tough rubber compound used in heavy-contact or high-wear areas which helps to cut down on excessive wear. As well as this it can create a strong bond with any ground beneath it, helping you stay in full control. This is combined with ASICSGRIP. The world-beating ASICSGRIP technology uses a combination of rubber and specially engineered outsole patterns to provide the perfect grip on any surface.