The Saucony Triumph IS0 women’s trainer is the Runner’s World Editor’s Choice and is a pinnacle trainer that’s truly engineered to make you want to run.A revolution in upper construction, these Saucony Triumph ISO women's running shoes feature intelligent engineering, designed to work with the mechanics of the foot throughout the gait cycle to create one of the most dynamic and adaptable fits on the market.A specially designed ISOFIT upper morphs to your foot for a sock-like feel allowing the shoe to move in harmony with the foot to provide superior comfort for every mile of your run. Complementing the design and technology of ISOFIT, an open toe box construction enhances the already plush feel and delivers superior comfort. Creating a truly unique feel and experience, Saucony have re-engineered their PowerGrid technology, creating PWRGRID+ to provide 20% more cushioning by adding a Powerfoam material and integrating it with GRID technology to help absorb impact and distribute pressure whilst running.Designed and engineered to provide a ride unlike any other shoe, the Saucony Triumph ISO offers premium running, redefinedBinding the midfoot together and providing structural integrity, the floating support cage cradles the midfoot adapting to the foot’s size, shape and movement, allowing the shoe to respond to the individual runner’s gait throughout each stride.Working in harmony with the re-engineered PWRGRID+ technology, an SRC impact zone is present which provides durable shock absorption at impact, creating a smoother transition from heel to toe. The traditional shank has been removed to save weight, replaced with foam for a cleaner transition. With an 8mm offset, the Saucony Triumph ensures that your body stays in a more balanced and comfortable position with every foot strike.These Saucony Triumph ISO premium women’s trainers are finished with a highly durable XT-900 outsole, offering exceptional traction capabilities and high wear properties whilst reflective detailing appears throughout the upper for visibility in low-light conditions.