Kyung Min Park scite author profile

Oxygen is vital for the existence of all multicellular organisms, acting as a signaling molecule regulating cellular activities. Specifically, hypoxia, which occurs when the partial pressure of oxygen falls below 5%, plays a pivotal role during development, regeneration, and cancer. Here we report a novel hypoxia-inducible (HI) hydrogel composed of gelatin and ferulic acid that can form hydrogel networks via oxygen consumption in a laccase-mediated reaction. Oxygen levels and gradients within the hydrogels can be accurately controlled and precisely predicted. We demonstrate that HI hydrogels guide vascular morphogenesis in vitro via hypoxia-inducible factors activation of matrix metalloproteinases and promote rapid neovascularization from the host tissue during subcutaneous wound healing. The HI hydrogel is a new class of biomaterials that may prove useful in many applications, ranging from fundamental studies of developmental, regenerative and disease processes through the engineering of healthy and diseased tissue models towards the treatment of hypoxia-regulated disorders.

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Thermosensitive chitosan–Pluronic hydrogel as an injectable cell delivery carrier for cartilage regeneration

Park¹,

Lee²,

Joung³

et al. 2009

Acta Biomaterialia

310

211

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Rapidly curable chitosan–PEG hydrogels as tissue adhesives for hemostasis and wound healing

et al. 2012

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A virtual reality application in role-plays of social skills training for schizophrenia: A randomized, controlled trial

Park

Choi

et al. 2011

Psychiatry Research

214

196

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Kyung Min Park

Hypoxia-inducible hydrogels

Thermosensitive chitosan–Pluronic hydrogel as an injectable cell delivery carrier for cartilage regeneration

Rapidly curable chitosan–PEG hydrogels as tissue adhesives for hemostasis and wound healing

A virtual reality application in role-plays of social skills training for schizophrenia: A randomized, controlled trial

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