Wilson Women's Rush Pro ACE Pickler Pickleball Shoes (White/Black/Living Coral)
Wilson Women's Rush Pro ACE Pickler Pickleball Shoes (White/Black/Living Coral)
Wilson Women's Rush Pro ACE Pickler Pickleball Shoes (White/Black/Living Coral) (Model #WRS330600U)
The Wilson Women’s Rush Pro ACE Pickler Pickleball Shoe offer yhe most generous fit in the popular Rush Pro line. The Rush Pro Ace Pickler earns high grades for pickleball players with a strong preference for comfort on the court. Highlighted by its 2E fit to accommodate wider feet, this shoe also helps stabilize the foot through its 4D Support Chassis. Layered with Sensifeel on the upper for additional breathability, the Rush Pro Ace delivers an appealing blend of comfort, stability and aesthetic for supreme confidence with every step.
Features:
4D Support Chassis limits supination and torsion to help control pivot movements while loading up for powerful strokes, creating superior stability
Sensifeel features a minimally layered upper to upgrade comfort while maintaining superior support
DF2 provides cushioned court feel, yielding compromise between comfort and quick performance
Rubber Medial Drag Pad supplies added durability and protection when dragging the foot
R-DST+ offers the best combination of cushioning and rebound for more dynamic performance
Duralast consists of a high-density, consummately durable rubber compound that provides abrasion resistance and maximum traction on all surfaces
Wide Fit 2E construction accommodates wider foot for more comfortable fit
Technology:
4D Support Chassis Technology - Asymmetrical heel-to-toe chassis delivers enhanced stability, limits supination for more controlled pivot movements
Sensifeel - Minimally layered upper construction upgrades comfort while maintaining superior support
Duralast - High-density, consummately durable rubber compound provides abrasion resistance and maximum traction on all surfaces
The Wilson Women’s Rush Pro ACE Pickler Pickleball Shoes are designed for best performance on pickleball court surfaces.