In Situ Reprogrammings of Splenic CD11b⁺ Cells by Nano‐Hypoxia to Promote Inflamed Damage Site‐Specific Angiogenesis (Adv. Funct. Mater. 32/2023)

Su Yun Chung,Si Yeong Kim,Kyubae Lee,Seung Wook Baek,Hojin Ha,Dae‐Hyun Kim,Suji Park,Chan Hee Lee,Hye‐Seon Kim,Young Min Shin,Seung Eun Yu, Hak Joon Sung

Advanced Functional Materials（2023）

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摘要

Splenic Filtering of Nanoparticles In article number 2302817, Hak-Joon Sung, Seung Eun Yu, and co-workers show that the inevitable splenic filtering of nanoparticles can be turned into an advantage. By loading a hypoxia-mimetic agent onto liposomes, splenic CD11b+ cells undergo vasculogenic reprogramming, making them home inflamed sites and rescue damaged tissues under ischemia or resection.

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splenic cd11b<sup>+</sup>,angiogenesis,nano‐hypoxia,cells

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In Situ Reprogrammings of Splenic CD11b+ Cells by Nano‐Hypoxia to Promote Inflamed Damage Site‐Specific Angiogenesis (Adv. Funct. Mater. 32/2023)

In Situ Reprogrammings of Splenic CD11b⁺ Cells by Nano‐Hypoxia to Promote Inflamed Damage Site‐Specific Angiogenesis (Adv. Funct. Mater. 32/2023)