Block Copolymer-Stabilized Metal?Organic Framework Hybrids Loading Pd Nanoparticles Enable Tumor Remission Through Near-Infrared Photothermal Therapy

Shang-Wei Li; Ming-Feng Hsieh; Taehun Hong; Pengwen Chen; Osada Kensuke; Xueying Liu; Aoki Ichio; Jiashing Yu; Kevin C.-W. Wu

doi:https://doi.org/10.1002/anbr.202300107

WEKO3

lat lon distance

[[sub_check.contents]]

[[sub_radio.contents]]

Field does not validate

[[sub_attr.contents]]　

インデックスツリー

アイテム

Block Copolymer-Stabilized Metal?Organic Framework Hybrids Loading Pd Nanoparticles Enable Tumor Remission Through Near-Infrared Photothermal Therapy

https://repo.qst.go.jp/records/2001122

アイテムタイプ

学術雑誌論文 / Journal Article(1)

公開日

2024-03-12

タイトル

Block Copolymer-Stabilized Metal?Organic Framework Hybrids Loading Pd Nanoparticles Enable Tumor Remission Through Near-Infrared Photothermal Therapy

言語

eng

資源タイプ

資源タイプ識別子

http://purl.org/coar/resource_type/c_6501

資源タイプ

journal article

著者

Shang-Wei Li
Ming-Feng Hsieh
Taehun Hong
Pengwen Chen
Osada Kensuke
Xueying Liu
Aoki Ichio
Jiashing Yu
Kevin C.-W. Wu

抄録

内容記述タイプ

Abstract

内容記述

Metal?organic frameworks (MOFs), such as the magnetic resonance imaging-fit MIL-100 based on Fe, are gaining significant attention as versatile theranostics with high-loading capability. Moreover, as MOFs can be engineered to target tumors, there is much interest in applying them for precise pin-point treatment of cancer. Herein, Pd nanoparticles within MIL-100(Fe) are generated to create MOFs with remarkable photothermal conversion properties for cancer therapy. The Pd-loaded MIL-100(Fe) (Pd@MIL-100(Fe)) are stabilized with biocompatible block copolymers to generate MOFs with PEGylated surfaces. This is achieved by directly mixing poly(ethylene glycol)-poly(L-aspartic acid) (PEG-p(Asp)) or dopamine-modified PEG-p(Asp) (PEG-p(Asp-Dopa)) block copolymers with the MOFs in aqueous conditions. The resulting block copolymer-stabilized MOF hybrids are stable in physiological conditions. Particularly, the Pd@MIL-100(Fe)/PEG-p(Asp-Dopa) hybrids show enhanced blood circulation and increased accumulation in B16F10 melanoma. Furthermore, when irradiated with 808?nm light, the Pd@MIL-100(Fe)/PEG-p(Asp-Dopa) hybrids rapidly increase the temperature to 50?°C, enabling tumor remission. The surface-stabilized Pd@MIL-100(Fe)/polymer hybrids open viable opportunities for innovating MOF/polymer hybrid-based approaches for drug delivery.

書誌情報

Advanced NanoBiomed Research

巻 4, 号 1, 発行日 2023-12

出版者

Wiley

DOI

識別子タイプ

DOI

Versions

Ver.1

2025-08-15 04:44:08.027823

Show All versions

Cite as

Other

エクスポート

OAI-PMH

JPCOAR 2.0
JPCOAR 1.0
DublinCore
DDI

Other Formats

インデックスリンク

インデックスツリー

アイテム

Block Copolymer-Stabilized Metal?Organic Framework Hybrids Loading Pd Nanoparticles Enable Tumor Remission Through Near-Infrared Photothermal Therapy

× Shang-Wei Li

× Ming-Feng Hsieh

× Taehun Hong

× Pengwen Chen

× Osada Kensuke

× Xueying Liu

× Aoki Ichio

× Jiashing Yu

× Kevin C.-W. Wu

Versions

Share

Cite as

Other

エクスポート

コミュニティ

メニューを最小化

インデックスリンク

インデックスツリー

アイテム

Block Copolymer-Stabilized Metal?Organic Framework Hybrids Loading Pd Nanoparticles Enable Tumor Remission Through Near-Infrared Photothermal Therapy

× Shang-Wei Li

× Ming-Feng Hsieh

× Taehun Hong

× Pengwen Chen

× Osada Kensuke

× Xueying Liu

× Aoki Ichio

× Jiashing Yu

× Kevin C.-W. Wu

Versions

Share

Cite as

Other

エクスポート

コミュニティ