Bioprinted Scaffold Remodels the Neuromodulatory Microenvironment for Enhancing Bone Regeneration

Guo, Shuting; He, Chuanglong

doi:10.1002/adfm.202304172

Cited by 18 publications

(9 citation statements)

References 49 publications

(33 reference statements)

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“…The cranial bone defect model was created in healthy 5-week old SD rats ( Wang et al, 2022 ; Guo and He, 2023 ). All protocols and procedures are compliant with the guidelines prescribed by the Association for Assessment and Accreditation of Laboratory Animal Care, approved by the Peking University Health Centre Institutional Animal Care and Use Committee and Peking University Health Centre Ethics Committee (LA2019320).…”

Section: Methodsmentioning

confidence: 99%

Chirality-biased protein expression profile during early stages of bone regeneration

Zeng

Zheng

Heng

et al. 2023

Front. Bioeng. Biotechnol.

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Introduction: Chirality is a crucial mechanical cue within the extracellular matrix during tissue repair and regeneration. Despite its key roles in cell behavior and regeneration efficacy, our understanding of chirality-biased protein profile in vivo remains unclear.Methods: In this study, we characterized the proteomic profile of proteins extracted from bone defect areas implanted with left-handed and right-handed scaffold matrices during the early healing stage. We identified differentially-expressed proteins between the two groups and detected heterogenic characteristic signatures on day 3 and day 7 time points.Results: Proteomic analysis showed that left-handed chirality could upregulate cell adhesion-related and GTPase-related proteins on day 3 and day 7. Besides, interaction analysis and in vitro verification results indicated that the left-handed chiral scaffold material activated Rho GTPase and Akt1, ultimately leading to M2 polarization of macrophages.Discussion: In summary, our study thus improved understanding of the regenerative processes facilitated by chiral materials by characterizing the protein atlas in the context of bone defect repair and exploring the underlying molecular mechanisms of chirality-mediated polarization differences in macrophages.

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Section: Methodsmentioning

confidence: 99%

Chirality-biased protein expression profile during early stages of bone regeneration

Zeng

Zheng

Heng

et al. 2023

Front. Bioeng. Biotechnol.

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“…As a result, the controlled release of CGRP and PRN collaboratively enhances MSC differentiation via neuromodulation. 208 Notably, a functionalized 3D-printed silk-hydroxyapatite (HAP) scaffold loaded with NGF has been validated to enhance neurite extension, coupled with the release of BMP2 and VEGF to amplify the expressions of osteogenic differentiation genes. 209 NGF has also been loaded into a GelMA/alginate methacrylate (AlgMA) hydrogel bioprinted system containing laponite (Lap), designed for engineered bone regeneration, promoting CGRP expression, and creating a conducive microenvironment for osteogenesis.…”

Section: Drug Delivery Systems With Neurotransmittersmentioning

confidence: 99%

Emerging roles of nerve‐bone axis in modulating skeletal system

Li,

Zhang,

Tang

et al. 2024

Medicinal Research Reviews

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Over the past decades, emerging evidence in the literature has demonstrated that the innervation of bone is a crucial modulator for skeletal physiology and pathophysiology. The nerve‐bone axis sparked extensive preclinical and clinical investigations aimed at elucidating the contribution of nerve‐bone crosstalks to skeleton metabolism, homeostasis, and injury repair through the perspective of skeletal neurobiology. To date, peripheral nerves have been widely reported to mediate bone growth and development and fracture healing via the secretion of neurotransmitters, neuropeptides, axon guidance factors, and neurotrophins. Relevant studies have further identified several critical neural pathways that stimulate profound alterations in bone cell biology, revealing a complex interplay between the skeleton and nerve systems. In addition, inspired by nerve‐bone crosstalk, novel drug delivery systems and bioactive materials have been developed to emulate and facilitate the process of natural bone repair through neuromodulation, eventually boosting osteogenesis for ideal skeletal tissue regeneration. Overall, this work aims to review the novel research findings that contribute to deepening the current understanding of the nerve‐bone axis, bringing forth some schemas that can be translated into the clinical scenario to highlight the critical roles of neuromodulation in the skeletal system.

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“…He's group conducted a series of studies on the construction of MSN-incorporated bone scaffolds, including hydrogels, 515–517 electrospinning membranes, 518,519 phase-separation porous scaffolds, 520 and 3D-printing scaffolds. 521–524 In their design, MSNs were adopted as nanocarriers of diverse biological agents, ranging from small molecule drugs (osteogenic/angiogenic/immunosuppressive/anti-inflammation effects), bone-forming peptides, and small RNA. Due to the sustained and controlled release of these agents, together with the bioactivity of the degraded silicate ions from MSNs, the composite scaffolds exhibited both high osteogenic activity and synergistic functionalities for advanced bone tissue engineering.…”

Section: Multi-dimensional Design and Materials Science Of Silicon-co...mentioning

confidence: 99%

Silicon-containing nanomedicine and biomaterials: materials chemistry, multi-dimensional design, and biomedical application

Chen,

Zhang,

Duan

et al. 2024

Chem. Soc. Rev.

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Bioprinted Scaffold Remodels the Neuromodulatory Microenvironment for Enhancing Bone Regeneration

Cited by 18 publications

References 49 publications

Chirality-biased protein expression profile during early stages of bone regeneration

Chirality-biased protein expression profile during early stages of bone regeneration

Emerging roles of nerve‐bone axis in modulating skeletal system

Silicon-containing nanomedicine and biomaterials: materials chemistry, multi-dimensional design, and biomedical application

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