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Related Concept Videos

The Bone Matrix01:18

The Bone Matrix

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Bone contains a relatively small number of cells entrenched in a matrix of collagen fibers that provide an adherent surface for inorganic salt crystals. Both components of the matrix, organic and inorganic, contribute to the unusual properties of bone. Without collagen, bones would be brittle and shatter easily. Without mineral crystals, bones would flex and provide little support. This can be observed by an experiment: when the minerals of a bone are dissolved by soaking the bone in...
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Related Experiment Video

Updated: Dec 14, 2025

Site-Directed Immobilization of Bone Morphogenetic Protein 2 to Solid Surfaces by Click Chemistry
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Black phosphorus-based 2D materials for bone therapy.

Liang Cheng1, Zhengwei Cai1,2, Jingwen Zhao1

  • 1Shanghai Key Laboratory for Prevention and Treatment of Bone and Joint Diseases, Shanghai Institute of Traumatology and Orthopaedics, Ruijin Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, 200025, PR China.

Bioactive Materials
|July 23, 2020
PubMed
Summary
This summary is machine-generated.

Black Phosphorus (BP) nanomaterials show promise for bone defect treatment due to their biocompatibility and similarity to bone components. This review covers BP properties, bone remodeling, and applications in various bone graft materials.

Keywords:
Black phosphorusBone therapyNanomaterialTissue engineering

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Area of Science:

  • Biomaterials Science
  • Nanotechnology
  • Orthopedic Research

Background:

  • Black Phosphorus (BP)-based nanomaterials possess unique properties and excellent biocompatibility.
  • BP's elemental composition shares homology with natural bone inorganic components, offering advantages for bone defect treatment.

Purpose of the Study:

  • To review the source, physicochemical properties, and degradation of BP.
  • To summarize the bone remodeling process.
  • To comprehensively analyze BP-based materials for bone therapy.

Main Methods:

  • Literature review of Black Phosphorus (BP) properties and applications.
  • Analysis of bone remodeling mechanisms.
  • Synthesis and characterization of BP-based hydrogels, polymer membranes, microspheres, and 3D printed scaffolds.

Main Results:

  • BP exhibits remarkable properties suitable for biomedical applications.
  • BP-based materials are being developed in various forms (hydrogels, membranes, microspheres, scaffolds) for bone regeneration.
  • The review consolidates current progress in BP for bone defect repair.

Conclusions:

  • Black Phosphorus (BP) holds significant potential as a biomaterial for treating bone defects.
  • Further research into BP's role in bone immune regulation is crucial for future clinical applications.
  • BP-based implants represent a promising frontier in orthopedic regenerative medicine.