ASICS Gel-Lethal Field Women's Hockey Shoes
The GEL-LETHAL FIELD shoe is designed to keep your feet supported, so you can centre your attention on making big plays throughout the match. This shoe offers good grip and improved flexibility when performing agile movements on the field.
Synthetic Leather Upper
The upper of the Gel-Lethal Field features durable, supportive synthetic leather overlays that strengthen the shoe for long-lasting performance and protect the foot from knocks and abrasions from the ball. These synthetic leather overlays swathe the midfoot and heel to improve durability plus stability; they unite with the lacing system to promote complete lockdown, anchoring you to the midsole and reducing in-shoe slippage so that you can enjoy smooth, distraction-free strides. Protective material wraps the medial forefoot for enhanced durability and protection against drag. Textile panels will encase each foot in breathable yet durable comfort. Perforations in the fabric increase airflow to create a better, healthier environment for your feet to thrive in. Lastly, the traditional lacing system locks down the midfoot to reduce in-shoe slippage and offer a stable ride.
GEL Cushioning Midsole
Gel Cushioning technology in the midsole provides comfortable cushioning, sparing your joints during sudden, propulsive movements. It works hard to absorb shock for a reduced risk of injury and allows you to keep going stronger for longer. The cushioning supplies resilient underfoot comfort across the court; it spares your joints as you strike down onto hard, unforgiving surfaces. The silicone-like material works to absorb shock upon impact, protecting your ankles and knees whilst promoting a smooth transition.
Aggressive Outsole
A durable and aggressive outsole completes the Gel-Lethal Field. The outsole pattern is structured to increase traction while making it easier to pivot. This helps you move side-to-side and switch directions more easily. Meanwhile, the outsole's flex grooves are designed to promote smoother transitions and provide greater flexibility.