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This collection beautifully captures the MYKITA design ethos, reinventing the traditional acetate category according to our principles of responsible design.
From the classic and reduced to more avant-garde designs, the supremely light and flexible metal frames are all meticulously handcrafted from stainless steel sheets less than 0.5 millimetres thick.
From the classic and reduced to more avant-garde designs, the supremely light and flexible metal frames are all meticulously handcrafted from stainless steel sheets less than 0.5 millimetres thick. The openly displayed hinge is a hallmark of MYKITA design.
From the classic and reduced to more avant-garde designs, the supremely light and flexible metal frames are all meticulously handcrafted from stainless steel sheets less than 0.5 millimetres thick. The openly displayed hinge is a hallmark of MYKITA design.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.
Bridging the gap between fashion and sports, MYLON is made using a 3D printing technique called Selective Laser Sintering.