
Louis Vuitton Bags Handbags Monogram Canvas M46450
$158.00
Exclusive real shot of the top original replica 📷Version M46450, the Louis Vuitton x Yayoi Kusama collaboration series records the brand’s infinite enthusiasm for the art world, which is increasingly evident in the creative silhouette of the LV x YK Square handbag. Japanese artist Yayoi Kusama is obsessed with polka dot patterns and uses them as an eternal theme in paintings, sculptures and installations. This time, Monogram canvas is colorfully embellished and the eye-catching three-dimensional texture is revealed through silk screen printing technology. 16 x 16 x 16 cm
(length x height x width)
(length x height x width)
Gallery

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024

Louis Vuitton Bags Handbags Monogram Canvas M46450
May 6, 2024
Details
Brands: Louis Vuitton
Tags: cost of louis vuitton handbag, louis vuitton monogram canvas excentri cite handbag, louis vuitton rivoli business handbag, lv kensington handbag
Exclusive real shot of the top original replica 📷Version M46450, the Louis Vuitton x Yayoi Kusama collaboration series records the brand’s infinite enthusiasm for the art world, which is increasingly evident in the creative silhouette of the LV x YK Square handbag. Japanese artist Yayoi Kusama is obsessed with polka dot patterns and uses them as an eternal theme in paintings, sculptures and installations. This time, Monogram canvas is colorfully embellished and the eye-catching three-dimensional texture is revealed through silk screen printing technology. 16 x 16 x 16 cm
(length x height x width)
(length x height x width)