Application of additively manufactured bone scaffold: a systematic review

Shi, Qianyu; Chen, Jibing; Chen, Junsheng; Liu, Yanfeng; Wang, Hongze

doi:10.1088/1758-5090/ad35e8

Biofabrication

2024

DOI: 10.1088/1758-5090/ad35e8

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Application of additively manufactured bone scaffold: a systematic review

Qianyu Shi,

Jibing Chen,

Junsheng Chen

et al.

Abstract: The application of additive manufacturing (AM) technology plays a significant role in various fields, incorporating a wide range of cutting-edge technologies such as aerospace, medical treatment, electronic information, and materials. It is currently widely adopted for medical services, national defense, and industrial manufacturing. In recent years, AM has also been extensively employed to produce bone scaffolds and implant materials. Through AM, products can be manufactured without being constrained by compl… Show more

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2024

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Cited by 6 publications

References 145 publications

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Chirality‐Induced Hydroxyapatite Manipulates Enantioselective Bone‐Implant Interactions Toward Ameliorative Osteoporotic Osseointegration

Yang,

Du,

Jin

et al. 2024

Advanced Science

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Inspired by the fundamental attribute of chirality in nature, chiral‐engineered biomaterials now represent a groundbreaking frontier in biomedical fields. However, the integration of chirality within inorganic materials remains a critical challenge and developments of chirality‐induced bionic bone implants are still in infancy. In this view, novel chiral hydroxyapatite (CHA) coated Ti alloys are successfully synthesized by a sophisticated chiral molecule‐induced self‐assembly method for the first time. The obtained samples are characterized by stereospecific L‐/D‐/Rac‐chiral hierarchical morphology, nanotopography rough surfaces, improved hydrophilicity, and bioactivity. Following implantation into rat femoral condyle defects, the distinct stereospecific chiral hierarchical structures exhibit highly enantioselective bone‐implants interactions, wherein the left‐handed chirality of L‐CHA strongly promotes osteoporotic osseointegration and vice versa for right‐handed chirality of D‐CHA. Consistently, in vitro assays further validate the superior enantiomer‐dependent osteoporotic osseointegration ability of L‐CHA, mainly by manipulating desired immunomodulation coupled with enhanced neurogenesis, angiogenesis, and osteogenesis. Moreover, as analyzed by transcriptomic RNA‐seq, a new discovery of down‐regulated IL‐17 signaling pathway is considered predominately responsible for the desired immunomodulation ability of L‐CHA. These results provide new insights into biological multifunctionality and mechanism underlying L‐chirality's roles for bone healing, thus may inspiring developments of new generation of chiral biomaterials.

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Chirality‐Induced Hydroxyapatite Manipulates Enantioselective Bone‐Implant Interactions Toward Ameliorative Osteoporotic Osseointegration

Yang,

Du,

Jin

et al. 2024

Advanced Science

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show abstract

Restraint of intermetallic compound and improvement of mechanical performance of Ti/Al dissimilar alloy by rotary friction welding based on laser powder bed fusion

Hu,

Zhi,

Chen

et al. 2024

Journal of Manufacturing Processes

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Additively manufactured fine-grained Al–Fe–Cu-Sc-Zr alloy with resistance to brittleness under high temperature

Shi,

Chen,

Chen

et al. 2024

Journal of Materials Research and Technology

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Application of additively manufactured bone scaffold: a systematic review

Cited by 6 publications

References 145 publications

Chirality‐Induced Hydroxyapatite Manipulates Enantioselective Bone‐Implant Interactions Toward Ameliorative Osteoporotic Osseointegration

Chirality‐Induced Hydroxyapatite Manipulates Enantioselective Bone‐Implant Interactions Toward Ameliorative Osteoporotic Osseointegration

Restraint of intermetallic compound and improvement of mechanical performance of Ti/Al dissimilar alloy by rotary friction welding based on laser powder bed fusion

Additively manufactured fine-grained Al–Fe–Cu-Sc-Zr alloy with resistance to brittleness under high temperature

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