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Essential Minerals for Bone Health01:31

Essential Minerals for Bone Health

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The minerals contained in all of the food we consume are essential for our organ systems. However, certain essential minerals, such as calcium, phosphorus, magnesium, manganese, and fluoride, largely affect bone health.
Calcium and Phosphorus
Calcium is a critical component of bones, especially in the form of calcium phosphate and calcium carbonate. Since the body cannot make calcium, it must be obtained from the diet. However, calcium cannot be absorbed from the small intestine without...
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Rapid Mix Preparation of Bioinspired Nanoscale Hydroxyapatite for Biomedical Applications
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Advanced Materials Based on Nanosized Hydroxyapatite.

Ramón Rial1, Michael González-Durruthy1, Zhen Liu2

  • 1Soft Matter and Molecular Biophysics Group, Department of Applied Physics, University of Santiago de Compostela, 15782 Santiago de Compostela, Spain.

Molecules (Basel, Switzerland)
|June 2, 2021
PubMed
Summary
This summary is machine-generated.

This review explores advancements in hydroxyapatite materials, covering processing methods, computational techniques (QSAR, DFT, Machine Learning), and innovative applications in medicine, catalysis, and energy. Future research directions are also discussed.

Keywords:
biomaterialsboneshydroxyapatiteporous materialsregenerative medicinetissue engineering

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Area of Science:

  • Materials Science
  • Biomaterials Engineering
  • Computational Chemistry

Background:

  • Hydroxyapatite (HAp) materials have evolved significantly due to technological and computational advancements.
  • There is a continuous drive to enhance the properties and applications of HAp-based materials.

Purpose of the Study:

  • To review various processing routes for improving hydroxyapatite-based materials.
  • To highlight the impact of computational techniques on HAp material development.
  • To explore innovative applications of HAp materials across diverse fields.

Main Methods:

  • Review of established and emerging processing techniques for HAp.
  • Analysis of computational methods including Quantitative Structure-Activity Relationship (QSAR), Density Functional Theory (DFT), Finite Elements, and Machine Learning.
  • Survey of recent literature on HAp applications.

Main Results:

  • Common and specialized processing routes for HAp are discussed, with their respective pros and cons.
  • Computational techniques are shown to significantly impact the design and development of new HAp systems.
  • HAp materials demonstrate versatile applications in medicine, catalysis, environmental remediation, filtration, and energy.

Conclusions:

  • Hydroxyapatite-based materials offer a promising platform for innovation across multiple scientific and industrial domains.
  • The integration of advanced processing and computational methods will continue to drive the development of novel HAp applications.
  • Future research should focus on exploring new frontiers for HAp materials, leveraging interdisciplinary approaches.