Reach your true potential. Paradigm-changing pedal power and efficiency meets revolutionary biomechanical fit and function ––– each 3D printed pair is custom made, just for you.
Build Spots Closed
Reach your true potential. Paradigm-changing pedal power and efficiency meets revolutionary biomechanical fit and function ––– each 3D printed pair is custom made, just for you.
The LoreOne: The World’s Fastest Cycling Shoe
Reach your true potential. Paradigm-changing pedal power and efficiency meets revolutionary biomechanical fit and function ––– each 3D printed pair is custom made, just for you.
Build Spots Closed
The LoreOne makes you faster.
More power, more podiums. Radically efficient power delivery translates pedaling efforts to the drivetrain unlike any other piece of footwear.
Multiple patent-pending design breakthroughs equal more watts and higher pedaling efficiency scores – backed by a full 30-day guarantee.
4-9%
Increase in peak and sustained watts*
~30%
Increase in pedal efficiency scores*
30 Days
Backed by a full 30-day money-back guarantee
Results will vary based on the athlete, bike/bike fit, and riding conditions
100% custom made for you.
The LoreOne achieves its performance because the exoskeleton and padding are made precisely for your feet.
The shoe is designed to optimize power transfer in specific zones, but also to allow comfort and natural freedom of movement in areas where traditional footwear typically cause irritation – the best of all worlds.
Design and Technical Features
Multiple breakthroughs in design, biomechanics, and manufacturing reinvent what a cycling shoe is and will be. It’s no longer fashion with a stiff sole, but rather the critical transmission point between body and bicycle, man and machine.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
GroundControl Insoles
2mm TPU textured footbed for proprioceptive nervous system stimulation.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
Transmission Pads
Custom 3D printed Lattice Pads enable perfect fit and biomechanical force transfer.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
CCF Polystruts
Continuous Carbon Fiber Robotically Printed Struts. Custom placed continuous carbon for high performance stiffness and structural strength.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Atop Dials
Quick entry and exit, and in-ride adjustment.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
Interlocking Dorsal/Plantar Shells
Structurally interlocked dorsal and plantar shells capture and transfer natural biomechanical forces.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
CarbonAirFrame (CAF)
The first continuous carbon reinforced, 3D printed monocoque exoskeleton ever made–– in any application.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Anatomically Optimized Cleat Positions
Cleat hole positioning is determined by your unique metatarsal anatomy. You choose the pattern preference to suit your pedals: Look/Shimano or native Speedplay.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Cable System
Strategically placed within the CAF’s structural channels, cables facilitate perfect foot retention and connection to the exoskeleton.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
Power Strap
Fully adjustable power strap provides additional connection and power transfer between the calcaneus and the CAF.
You scan, we 3D print in continuous carbon fiber.
The LoreOne employs the digital Scan-to-Print Morphic process to build the footwear of the future.
The Morphic process is groundbreaking because it's moldless and robotic — the first moldless carbon monocoque ever built on Earth and a huge leap forward because it’s fully customizable yet produces all the stiffness and lightweighting benefits of continuous carbon fiber.
Scan
Built with Continuous Carbon Fiber robotic 3D printing.
Worth $2k? Absolutely, much better performance benefit than buying a new bike.
Tony Corke
IBFI level 4 bike fitter, bike fit educator, and IBFI Education Committee Member
"The transmission of power and pedaling efficiency is truly game changing"
James Piccoli
Professional Cyclist
“The LoreOne is the new standard in performance”
John Higgins
Bike Fitter
“The LoreOne is a sport changing piece of equipment…”
Timothy O'Donnell
World Champion Triathlete
“The Lore shoe will change the way you interact with your bike, forever.”
Colby Pearce
Olympian, world record holder, elite bike fitter/coach, host of Cycling in Alignment.
"I can now use my feet to not only propel the bike but very importantly to also steer and control the bike during descent"
James Piccoli
Professional Cyclist
Less footprint for your footprint.
The reinvention of the shoe begets a transformation in production model, supply chain, and materials.
We create only what you need
Carbon neutral shipping
Printed in California
FAQ
The LoreOne was our first shoe. It was an expedition to the outer universe of cycling performance via a full carbon airframe. The LoreTwo is a shoe that bridges the gap between the extremity of the LoreOne and the sport’s more traditional cues. We designed the LoreTwo to be much more forgiving in its fit and post purchase setup while still retaining the core custom and performance design structure that amplifies pedaling performance over traditional shoes.
Build spots for the LoreOne are closed for the moment. Sign up for our email newsletter to be the first to know when the World’s Fastest Cycling Shoe is available for purchase.
3D printing with ‘chopped’ carbon fiber has been in vogue recently, and these little chunks of carbon can provide improved part performance versus unreinforced polymer parts. In contrast, the LoreOne is groundbreaking because it combines a complex organic form factor with truly unbroken, continuous carbon fiber reinforcement. The carbon fiber is composed of unbroken strands to achieve the shangri-la of high performance composites; stiff, lightweight, and totally custom. The impact is huge and has never been done before in any product–– the result is revolutionary part performance.
The patent-pending CAF design features structurally interlocked dorsal and plantar shells that efficiently capture lateral and rotational forces produced by the foot through normal biomechanical movement. The structural relationship between these two parts provides the most direct energy transfer possible and is a first for any type of footwear, and is only enabled by true customization. Traditional shoes with soft uppers fail to effectively capture dorsal inputs; energy is bled off before it can be translated to the pedal. Superior power transfer has been obvious to testers and early pro users.
The LoreOne’s weight is comparable to other high-end road shoes, but the power transfer is superior due to the CAF. Weight of an individual shoe is ultimately dependent on the length, width, and volume of the user’s foot. A single shoe equivalent in width to a conventional size 43/US 10 should weigh approximately 315 grams.
The digital fit algorithm calculates a location that splits your first and fifth metatarsal bones longitudinally. This final cleat coordinate is mated with a lateral position that accounts for the geometry of your heel relative to your toes and the need for medial crank clearance.
The LoreOne’s carbon reinforcement is made without using molds in order to enable the elasticity of full custom production methods. Practically all consumer products in the world are made using molds that achieve superior surface finish quality, but are inherently constrained in terms of lack of customization. Carbon Customization is a science fiction dream realized, but it comes at the expense of surface finish quality.
The LoreOne is designed to be used without additional orthotics or footbeds. The sole of the LoreOne’s CAF is designed based on your unique anatomy and perfectly cups the perimeter of individual feet to provide unmatched lateral cupping and force transfer. Moreover the Dorsal Orthotic system provides ankle stabilization and corrective support that doesn’t exist in conventional footwear––effectively negating the need for under foot arch stabilization.
We expect Lore shoes to grace podiums in all disciplines over the coming years.
Yes.
Yes, we are excited to work with the finest bike fitters and retailers across the globe. To learn more about our retail program, contact dealers@lore.cc.