Giro Regime W Womens Adult Cycling Shoe
TAKE CHARGE OF THE ROAD WITH FULL-FEATURED PERFORMANCE AND COMFORT.
THE WOMEN'S REGIME GIVES YOU THE POWER AND CONTROLS TO REACH YOUR GOALS.
To make a full-featured shoe that can handle extended miles and hard roads, we started with an ultralight monofilament mesh Synchwireª upper that fits and feels like a second skin, then added thermal-welded TPU for structural support and resistance to grit and grime. Fast, intuitive fit adjustment is guaranteed with dual BOA¨ L6 buckles, steel laces and soft lace guides that allow you to get a precise fit with even pressure distribution to ensure comfort with every turn of the pedals. And finally, the advanced carbon composite plate ensures efficient power transfer and responsive feel at the pedals, while allowing 5mm of adjustment for optimal cleat positioning.
SYNCWIRE. Syncwire construction is a stitch-less upper thatÕs vented and reinforced to create a lightweight cycling shoe with incredible airflow and structural integrity. Synchwire is an advanced composite of thermo-bonded film that provides overall durability, a non-woven internal sheet for distributing the force from the BOA Fit System to the upper for direct power transfer, and mono-filament mesh for ventilation.
BOA L6 DIALS. The BOA L6 Fit System provides fast, effortless, precision fit with the turn of the dial. The combination of the dial, lace, and guides reduces weight and provides effortless adjustment (1mm increments) compared to traditional buckles, and it offers an incremental release function too. BOA Fit System dials and laces are guaranteed for the lifetime of the product.
CARBON COMPOSITE OUTSOLE. Our proprietary, advanced carbon composite outsole plate ensures efficient power transfer and responsive feel at the pedals, while allowing 5mm of adjustment for optimal cleat positioning. ItÕs the ideal balance of stiffness and durability with light weight.
REFLECTIVE DETAILS. Reflective details enhance visibility at nighttime or in low-light conditions when illuminated by a light source, such as headlights, by returning the light back toward the original source and reaching the automobile driverÕs eye.