The Reebok Princess Lite is a woman’s sneaker available in sizes 5 to 12. A wide version of the shoe is available. This style has a tendency to run small. Buyers are suggested to go a half size larger than their regular size to ensure a good fit. It allows a snug fit through its lace up closure.
If Cinderella’s glass shoe had a sneaker counterpart, it would be the Reebok Princess Lite. It is exceptionally lightweight and has excellent, cushiony comfort. Its sophisticated style stems from the perforations that provide breezy comfort. Reebok markets the shoe as “a shoe that fits like your own glass slipper.”
Comfort is the characteristic that’s most praised by many users when talking about the Reebok Princess Lite. The combination of the shock absorbing 3D Ultralite midsole and Memory Tech insole contributes to the shoes’ comfort.
The Reebok Princess Lite is a lighter version of the original 1980s silhouette, the Princess sneaker. The first version is a simplified sneaker which has similarities with the Reebok Freestyle.
During the 1980s, Reebok released smoothed out sneakers that look like the Freestyle. Before the Princess, the Rhapsody was released. The Empress and Duchess followed afterward. These shoes look like each other. The difference lies in the color trim.
The Princess was a shoe that was primarily available in black leather or white. There were also releases in pink, blue and other colorways. A wide version of the shoe was also produced. Presently, these sneakers are available in a lot of large department stores and shoe chains.
The old versions were made of the very thin and soft garment leather. The latest versions are made of the man-made synthetic leather which makes the iconic classic an ordinary one.
- The 3D Ultralite is a trademark foam that’s designed to be lightweight. It has improved responsiveness and durability.
- Footwear with this technology is 10 to 20% lighter than shoes that are manufactured using conventional methods.
- The patented combination of materials includes rubber, EVA and various compounds. The mix of the materials is varied based on the requirements of diverse activities. This injection-molding based innovation produces reliable sole units.