Ruxia Han scite author profile

Bone tumors, especially those in osteosarcoma, usually occur in adolescents. The standard clinical treatment includes chemotherapy, surgical therapy, and radiation therapy. Unfortunately, surgical resection often fails to completely remove the tumor, which is the main cause of postoperative recurrence and metastasis, resulting in a high mortality rate. Moreover, bone tumors often invade large areas of bone, which cannot repair itself, and causes a serious effect on the quality of life of patients. Thus, bone tumor therapy and bone regeneration are challenging in the clinic. Herein, this review presents the recent developments in bifunctional biomaterials to achieve a new strategy for bone tumor therapy. The selected bifunctional materials include 3D-printed scaffolds, nano/microparticle-containing scaffolds, hydrogels, and bone-targeting nanomaterials. Numerous related studies on bifunctional biomaterials combining tumor photothermal therapy with enhanced bone regeneration were reviewed. Finally, a perspective on the future development of biomaterials for tumor therapy and bone tissue engineering is discussed. This review will provide a useful reference for bone tumor-related disease and the field of complex diseases to combine tumor therapy and tissue engineering.

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Polymeric Nanoparticles with ROS‐Responsive Prodrug and Platinum Nanozyme for Enhanced Chemophotodynamic Therapy of Colon Cancer

Hao

et al. 2020

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The combination of chemotherapy and photodynamic therapy (PDT) has promising potential in the synergistic treatment of cancer. However, chemotherapy and photodynamic synergistic therapy are impeded by uncontrolled chemotherapeutics release behavior, targeting deficiencies, and hypoxia-associated poor PDT efficacy in solid tumors. Here, a platinum nanozyme (PtNP) loaded reactive oxygen species (ROS)-responsive prodrug nanoparticle (CPT-TK-HPPH/Pt NP) is created to overcome these limitations. The ROS-responsive prodrug consists of a thioketal bond linked with camptothecin (CPT) and photosensitizer-2-(1-hexyloxyethyl)-2-devinyl pyropheophorbide-a (HPPH). The PtNP in CPT-TK-HPPH/Pt NP can efficiently catalyze the decomposition of hydrogen peroxide (H 2 O 2) into oxygen to relieve hypoxia. The production of oxygen can satisfy the consumption of HPPH under 660 nm laser irradiation to attain the on-demand release of CPT and ensure enhanced photodynamic therapy. As a tumor diagnosis agent, the results of photoacoustic imaging and fluorescence imaging for CPT-TK-HPPH/Pt NP exhibit desirable long circulation and enhanced in vivo targeting. CPT-TK-HPPH/Pt NPs effectively inhibit tumor proliferation and growth in vitro and in vivo. CPT-TK-HPPH/Pt NP, with its excellent ROS-responsive drug release behavior and enhanced PDT efficiency can serve as a new cancer theranostic agent, and will further promote the research of chemophotodynamic synergistic cancer therapy.

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Perfluorocarbon‐Loaded and Redox‐Activatable Photosensitizing Agent with Oxygen Supply for Enhancement of Fluorescence/Photoacoustic Imaging Guided Tumor Photodynamic Therapy

Zhong

Wang

et al. 2019

Adv Funct Materials

148

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The wide clinical application of photodynamic therapy (PDT) is hampered by poor water solubility, low tumor selectivity, and nonspecific activation of photosensitizers, as well as tumor hypoxia which is common for most solid tumors. To overcome these limitations, tumor-targeting, redox-activatable, and oxygen self-enriched theranostic nanoparticles are developed by synthesizing chlorin e6 (Ce6) conjugated hyaluronic acid (HA) with reducible disulfide bonds (HSC) and encapsulating perfluorohexane (PFH) within the nanoparticles (PFH@HSC). The fluorescence and phototoxicity of PFH@HSC nanoparticles are greatly inhibited by a self-quenching effect in an aqueous environment. However, after accumulating in tumors through passive and active tumor-targeting, PFH@HSC appear to be activated from "OFF" to "ON" in photoactivity by the redox-responsive destruction of the vehicle's structure. In addition, PFH@HSC can load oxygen within lungs during blood circulation, and the oxygen dissolved in PFH is slowly released and diffuses over the entire tumor, finally resulting in remarkable tumor hypoxia relief and enhancement of PDT efficacy by generating more singlet oxygen. Taking advantage of the excellent imaging performance of Ce6, the tumor accumulation of PFH@HSC can be monitored by fluorescent and photoacoustic imaging after intravenous administration into tumor-bearing mice. This PFH@HSC nanoparticle might have good potential for dual imaging-guided PDT in hypoxic solid tumor treatment.

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Tumor Microenvironment Responsive Drug‐Dye‐Peptide Nanoassembly for Enhanced Tumor‐Targeting, Penetration, and Photo‐Chemo‐Immunotherapy

Peng

Yang

Xiao

et al. 2019

Adv Funct Materials

123

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Nanomedicine constructed by therapeutics has unique and irreplaceable advantages in biomedical applications, especially in drug delivery for cancer therapy. The strategy, however, used to construct the therapeutics-based nanomedicines with tumor microenvironmental factor responsiveness is still sophisticated. In this study, an easy-operating procedure is used to construct a therapeutics-based nanosystem with active tumor-targeting, enhanced penetration, and stimuli-responsive drug release behavior as well as programmed cell death-1/programmed cell death-ligand 1 (PD-1/PD-L1) blockading mediated immunomodulation to enhance tumor immunotherapy. The matrix metalloproteinase-2 responsive peptide with the existence of Lyp-1 sequence contributes to the success of active tumor-targeting and the enhancement of the penetration of the nanoparticles in tumor tissue. The obtained nanosystem strikingly inhibits the primary tumor growth in the first 24 h (more than 97.5% of tumor cells are inhibited), and total inhibition can be achieved with the combination of photothermal therapy. IR820, which is served as the carrier for the therapeutics, is used as a photosensitizer for photothermal therapy. The progress and aggression of distal tumor has further been alleviated by a d-peptide which is an antagonist for PD-1/PD-L1 blockage. Therefore, a therapeutics-constructed multifunctional nanosystem is provided to realize a combinational therapeutic strategy to enhance the therapeutic outcome.

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Near-infrared responsive 5-fluorouracil and indocyanine green loaded MPEG-PCL nanoparticle integrated with dissolvable microneedle for skin cancer therapy

Hao

Chen

et al. 2020

Bioactive Materials

134

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Ruxia Han

Review of a new bone tumor therapy strategy based on bifunctional biomaterials

Polymeric Nanoparticles with ROS‐Responsive Prodrug and Platinum Nanozyme for Enhanced Chemophotodynamic Therapy of Colon Cancer

Perfluorocarbon‐Loaded and Redox‐Activatable Photosensitizing Agent with Oxygen Supply for Enhancement of Fluorescence/Photoacoustic Imaging Guided Tumor Photodynamic Therapy

Tumor Microenvironment Responsive Drug‐Dye‐Peptide Nanoassembly for Enhanced Tumor‐Targeting, Penetration, and Photo‐Chemo‐Immunotherapy

Near-infrared responsive 5-fluorouracil and indocyanine green loaded MPEG-PCL nanoparticle integrated with dissolvable microneedle for skin cancer therapy

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