available over 1 year ago
Low stock
Colour Shown | Flash/Argon Blue/Flash/White |
Country/Region of Origin | Vietnam |
Colour Shown | Flash/Argon Blue/Flash/White |
Country/Region of Origin | Vietnam |
The 2022 edition of the Nike Dunk Low Retro QS TD ‘Argon’ revives a classic CO.JP colorway that launched exclusively in Japan in 2001. Made for little feet, this pair features a tonal blue leather upper secured with no-tie elastic laces. Crisp white accents make their way to the signature Swoosh and heel tab, marked with Nike branding in embroidered block lettering. Underfoot, a bright blue rubber outsole provides optimal grip via a concentric-circle traction pattern.
The 2022 edition of the Nike Dunk Low Retro QS TD ‘Argon’ revives a classic CO.JP colorway that launched exclusively in Japan in 2001. Made for little feet, this pair features a tonal blue leather upper secured with no-tie elastic laces. Crisp white accents make their way to the signature Swoosh and heel tab, marked with Nike branding in embroidered block lettering. Underfoot, a bright blue rubber outsole provides optimal grip via a concentric-circle traction pattern.
The 2022 edition of the Nike Dunk Low Retro QS TD ‘Argon’ revives a classic CO.JP colorway that launched exclusively in Japan in 2001. Made for little feet, this pair features a tonal blue leather upper secured with no-tie elastic laces. Crisp white accents make their way to the signature Swoosh and heel tab, marked with Nike branding in embroidered block lettering. Underfoot, a bright blue rubber outsole provides optimal grip via a concentric-circle traction pattern.
The 2022 edition of the Nike Dunk Low Retro QS TD ‘Argon’ revives a classic CO.JP colorway that launched exclusively in Japan in 2001. Made for little feet, this pair features a tonal blue leather upper secured with no-tie elastic laces. Crisp white accents make their way to the signature Swoosh and heel tab, marked with Nike branding in embroidered block lettering. Underfoot, a bright blue rubber outsole provides optimal grip via a concentric-circle traction pattern.
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