|
Loading product details ...
|
||
Description
Reviews (1)
Video
Need Help?
Product Description:Women's UNDER ARMOUR® SPEEDFORM™ APOLLO :: Satisfy your need for speed while enjoying an incredibly natural feeling, comfortable ride with the Women's Under Armour® Speedform™ Apollo minimalist running shoe. You'll get that totally connected-to-the-ground feel of a barefoot shoe while striding strong and long with enough support, stability and durability to go the distance. Your feet will get a secure, locked down fit plus plenty of airy comfort from the Perforated UA Speedform™ upper, and you'll have lickety-split reaction times thanks to the Speedform™ Apollo's responsive Micro G® midsole. 5.2 ounces ! Endangered Shoe [?]Features & Benefits:
Reviewed by 1 customer Displaying review 1 Pros
Cons Best Uses
Comments about Womens Under Armour Speedform Apollo Running Shoe: I wear my shoes all day long and they are ao cute and comfy. So lightweight it's awesome. When I'm running they do the job, usually light weight running shoes are a hit or miss with the comfyness factor, but these work well all around! Great choice, definitely a shoe I will suggest
Displaying review 1 Your Help Is HereShop with confidence knowing your team of Fit Experts is waiting to answer all your questions. You can always find your perfect product and your perfect fit. Your Road Runner Sports Fit Experts will make sure you get exactly what you want and have tons of fun in the process! Give us a call, chat, or email!
|
You're not done yet! Complete your fit!
Road Runner Sports QuickFit Insole
Price: $49.99
VIP: $44.99
- Deep heel cup: Features the widest and deepest heel cup that offers maximum support and positions the soft tissue to help with natural shock absorption
- Biomechanical shape
- High-density foam: Closed-cell foam supports and cushions the foot for long lasting comfort
- Odor-control coating: All natural coating that eliminates odor-causing bacteria
- Stabilizer cap: The base of the insole that supports the rear foot and provides structure and stability to the foam layer
