Cocrystal Strategy toward Multifunctional 3D‐Printing Scaffolds Enables NIR‐Activated Photonic Osteosarcoma Hyperthermia and Enhanced Bone Defect Regeneration

Xiang, Huijing; Yang, Qianhao; Gao, You-Shui; Zhu, Daoyu; Pan, Shanshan; Xu, Tianming; Chen, Yu

doi:10.1002/adfm.201909938

Cited by 81 publications

(76 citation statements)

References 49 publications

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“…A spread cell morphology with numerous filopodia is an important requirement for the osteogenic activity of MSCs. [ 48 ] Our results suggest that the improved cell adhesion and spreading are potential cues for Ga‐GaN/AlGaN to promote osteogenic differentiation of BMSCs and bone regeneration.…”

Section: Resultsmentioning

confidence: 91%

“…A spread cell morphology with numerous filopodia is an important requirement for the osteogenic activity of MSCs. [48] Our results suggest that Ideal biomaterials for bone regeneration should be osteoinductive, [1] which implies that they should be able to recruit MSCs and induce osteogenic differentiation. [49] Therefore, transwell migration assays (Figure 6g,h) and wound healing tests ( Figure S7, Supporting Information) were further performed to evaluate the recruitment ability of BMSCs implanted on the different films.…”

Section: (7 Of 12)mentioning

confidence: 90%

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A Novel Approach to Enhance Bone Regeneration by Controlling the Polarity of GaN/AlGaN Heterostructures

Zhang

Wang

Hao

et al. 2020

Adv Funct Materials

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Rapid and effective bone regeneration is still a major challenge in the clinical treatment of various bone diseases. Although recently developed electroactive materials have demonstrated high bone regeneration potential, the instability of the electrical stimulation and the unclear effects of the charge polarity on osteogenic differentiation hinder their clinical applications. In this work, GaN/AlGaN materials with well‐controlled polarity are used for the first time to induce endogenous electric stimulation and facilitate bone regeneration. By controlling the direction and magnitude of the piezoelectric and spontaneous polarization in the functional layer (GaN), charged GaN/AlGaN surfaces of opposite polarity, whose zeta potentials are within the range of the physiological potential, are obtained. Compared with N‐polarity GaN/AlGaN (with a positively charged surface), Ga‐polarity GaN/AlGaN (with a negatively charged surface) nanofilms show rapid and superior bone repair in vivo. In addition, the Ga‐polarity GaN/AlGaN hetero‐structures significantly promote the attachment, spreading, recruitment, and osteogenic differentiation of bone mesenchymal stem cells in vitro. Moreover, the bone morphogenetic protein‐6 (BMP6) expression profile in the early stages of osteogenic differentiation reveals that BMP6 may be an electrically sensitive osteogenic protein. This work sheds light on the application of III‐nitride materials in bone regeneration.

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Section: Resultsmentioning

confidence: 91%

Section: (7 Of 12)mentioning

confidence: 90%

A Novel Approach to Enhance Bone Regeneration by Controlling the Polarity of GaN/AlGaN Heterostructures

Zhang

Wang

Hao

et al. 2020

Adv Funct Materials

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“…Secondly, these NIR light-responsive nanomaterials can be integrated into scaffolds for combinatory bone cancer therapy and tissue regeneration. Considering that a few bone tumor cells inevitably remain around the bone defect after surgical intervention, the implanted bifunctional scaffolds could exhibit not only prominent photothermal and photodynamic performances, but also outstanding bone regeneration capabilities, which provide optimal alternatives for the treatment of large bone tumors and tumor-initiated bone defects 31 , 43 - 45 . Thirdly, these NIR light-responsive nanomaterials could also be integrated into NIR light-triggered drug release systems, exhibiting versatility via their precise and controlled release of anticancer drugs 12 .…”

Section: Discussionmentioning

confidence: 99%

“…Another kind of PTT agent, MoS 2 nanosheets, has also been introduced into BG scaffolds for anticancer treatment and bone tissue regeneration 66 . Besides these inorganic nanomaterials, a kind of NIR light-absorbing organic charge-transfer cocrystal with great photothermal conversion performance has also been integrated into BG scaffolds to fabricate bifunctional therapeutic implants 45 . Additionally, organic NIR light-responsive biomaterials modification, such as dopamine modification, would also provide scaffolds with an excellent NIR photothermal effect 67 .…”

Section: Discussionmentioning

confidence: 99%

NIR light-assisted phototherapies for bone-related diseases and bone tissue regeneration: A systematic review

Wan¹,

Zhang²,

Lv³

et al. 2020

Theranostics

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Recently, the rapid development of biomaterials has induced great interest in the precisely targeted treatment of bone-related diseases, including bone cancers, infections, and inflammation. Realizing noninvasive therapeutic effects, as well as improving bone tissue regeneration, is essential for the success of bone‑related disease therapies. In recent years, researchers have focused on the development of stimuli-responsive strategies to treat bone-related diseases and to realize bone regeneration. Among the various external stimuli for targeted therapy, near infrared (NIR) light has attracted considerable interests due to its high tissue penetration capacity, minimal damage toward normal tissues, and easy remote control properties. The main objective of this systematic review was to reveal the current applications of NIR light-assisted phototherapy for bone-related disease treatment and bone tissue regeneration. Database collection was completed by June 1, 2020, and a total of 81 relevant studies were finally included. We outlined the various therapeutic applications of photothermal, photodynamic and photobiomodulation effects under NIR light irradiation for bone‑related disease treatment and bone regeneration, based on the retrieved literatures. In addition, the advantages and promising applications of NIR light-responsive drug delivery systems for spatiotemporal-controlled therapy were summarized. These findings have revealed that NIR light-assisted phototherapy plays an important role in bone-related disease treatment and bone tissue regeneration, with significant promise for further biomedical and clinical applications.

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“…reported a facile method of fabricating co‐crystals (named as DTC) with DBTTF (dibenzotetrathiafulvalene, electrons donor) and TCB (tetracyanobenzene, electrons acceptor). [ 55 ] DTC co‐crystals have intense intermolecular π–π stacking and electron delocalization, resulting in almost 92% fluorescence quenching, absorption of red‐shift to NIR regions, and great photothermal activities, whereas the absorption of DBTTF and TCB molecules was located in UV region. And Figure 4B shows the molecular orbital diagrams, energy diagrams, IR thermal images, photothermal conversion curves, and cell viability after different treatments.…”

Section: Dual and Multicomponents Self‐assembled Nanoparticles (Dmanps)mentioning

confidence: 99%

Self‐Assembled Nanoparticles as Cancer Therapeutic Agents

Wang

Zhang

et al. 2020

Adv Materials Inter

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Most therapeutic agents for cancer are currently suffering from the shortcomings of poor solubility, severe side effects, and multidrug resistance. Supramolecular self‐assembly (SSA) in nanomedicines is a promising way to overcome these obstacles due to the distinguished properties of noncovalent self‐assembly such as functional diversity, easy stimulus‐response, high biocompatibility, and biodegradability. Moreover, it is more potential to transform them from lab to clinic. In this review, based on lots of state‐of‐the‐art studies, a summary is presented about the recent advances in SSA for cancer treatment, with the introduction of noncovalent driving forces, classifications, design, and applications of multifunctional self‐assembled nanoparticles (SANPs). Finally, the prospects of SANPs on both developing drugs and clinical transformation are discussed.

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Cocrystal Strategy toward Multifunctional 3D‐Printing Scaffolds Enables NIR‐Activated Photonic Osteosarcoma Hyperthermia and Enhanced Bone Defect Regeneration

Cited by 81 publications

References 49 publications

A Novel Approach to Enhance Bone Regeneration by Controlling the Polarity of GaN/AlGaN Heterostructures

A Novel Approach to Enhance Bone Regeneration by Controlling the Polarity of GaN/AlGaN Heterostructures

NIR light-assisted phototherapies for bone-related diseases and bone tissue regeneration: A systematic review

Self‐Assembled Nanoparticles as Cancer Therapeutic Agents

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