Dynafit Feline Vertical Pro

Images

Dynafit Feline Vertical Pro

The Feline Vertical Pro model is designed for short and mid-range races, and shows its best on steep terrain. The Vibram® TIGER CAT outlined sole with MEGAGRIP compound has been specifically designed for this model. The sole design is very aggressive and studied to offer an excellent traction. The orientation of the lugs is bidirectional. The disposition in the shank is specifically designed to optimize the traction, meanwhile the opposite directions around the heel helps the downhill stop.

The Vibram® MEGAGRIP compound, together with the special outline of the sole, emphasize the grip characteristics on wet surfaces and steep terrains, offering an optimal cohesion to the rock, stone chippings and wet grounds thanks to the 4mm drop of the midsole in EVA. The fitting of the forefoot and of the heel is extremely accurate thanks to the “minimal fit” technology, which enhances the transmission of forces and the control on difficult crossings and unsure terrains. Moreover, thanks to the Quicklacing fastening system it is possible to quickly adjust the shoe to the foot, even while moving.

Visit Partner Site

Sole

Megagrip Sole

The Vibram® TIGER CAT sole is exclusively developed for Dynafit Feline Vertical Pro shoes. Outlined sole with MEGAGRIP compound has been specifically designed for this model. The sole design is very aggressive and studied to offer an excellent traction. The orientation of the lugs is bidirectional. The disposition in the shank is specifically designed to optimize the traction, meanwhile the opposite directions around the heel helps the downhill stop. The Vibram® MEGAGRIP compound, together with the special outline of the sole, emphasize the grip characteristics on wet surfaces and steep terrains, offering an optimal cohesion to the rock, stone chippings and wet grounds thanks to the 4mm drop of the midsole in EVA.

Compound

Megagrip

  • Unparalleled grip on wet and dry surfaces
  • Superior grip with rugged longevity
  • Optimal balance of stability and flexibility for ground adaptation