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The Bone Matrix01:18

The Bone Matrix

9.4K
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...
9.4K
Essential Minerals for Bone Health01:31

Essential Minerals for Bone Health

6.3K
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...
6.3K
Minerals01:26

Minerals

1.7K
Minerals are essential nutrients that the human body needs in small amounts to work properly. They play a vital role in many bodily functions, such as building strong bones and transmitting nerve impulses. Some minerals are needed for hormone production or to maintain a normal heartbeat. Major minerals include calcium, phosphorus, potassium, sulfur, sodium, chlorine, and magnesium, while trace minerals include iron, manganese, copper, iodine, zinc, cobalt, fluoride, and selenium.
 
Major...
1.7K
Bone Remodeling01:40

Bone Remodeling

34.4K
Bone remodeling is a continuous and balanced process of bone resorption by osteoclasts and bone formation by osteoblasts. In adults, it helps maintain bone mass and calcium homeostasis. While mechanical stress can stimulate turnover as part of the normal maintenance and reparative process, several hormones also regulate bone remodeling.
34.4K
Compact Bone01:27

Compact Bone

22.5K
Most bones contain compact and spongy osseous tissue, but their distribution and concentration vary based on the bone's overall function.
Compact bone, also called cortical bone, is the denser, stronger of the two types of bone tissue. It is found under the periosteum and in the diaphyses of long bones, where it provides support and protection. The microscopic structural unit of compact bone is called an osteon, or haversian system. Each osteon is composed of concentric rings of calcified...
22.5K
Bone as Supporting Connective Tissue01:23

Bone as Supporting Connective Tissue

7.3K
Bone tissue forms the internal skeleton of vertebrate animals, providing structure to the body.
Bone Matrix
Bone, or osseous tissue, is a connective tissue that has a large amount of two different types of matrix material. The organic matrix is similar to the matrix material found in other connective tissues, including some amount of collagen and elastic fibers. This gives strength and flexibility to the tissue. The inorganic matrix consists of mineral salts— mostly calcium salts—...
7.3K

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Related Experiment Video

Updated: May 5, 2026

Analysis of Minerals Produced by hFOB 1.19 and Saos-2 Cells Using Transmission Electron Microscopy with Energy Dispersive X-ray Microanalysis
14:55

Analysis of Minerals Produced by hFOB 1.19 and Saos-2 Cells Using Transmission Electron Microscopy with Energy Dispersive X-ray Microanalysis

Published on: June 24, 2018

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Biomineralization: Some complex crystallite-oriented skeletal structures.

Ashok Sahni1

  • 198 Mahatma Gandhi Marg, Lucknow 226 001, India, ashok.sahni@gmail.com.

Journal of Biosciences
|December 4, 2013
PubMed
Summary
This summary is machine-generated.

Biomineralization is the study of how organisms create mineralized tissues, crucial for structural support and diverse biological functions across life. This field offers insights into evolution, biomechanics, and nanometer-scale engineering applications.

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Calcium Carbonate Formation in the Presence of Biopolymeric Additives
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Calcium Carbonate Formation in the Presence of Biopolymeric Additives

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Characterization of Calcification Events Using Live Optical and Electron Microscopy Techniques in a Marine Tubeworm
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Characterization of Calcification Events Using Live Optical and Electron Microscopy Techniques in a Marine Tubeworm

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Related Experiment Videos

Last Updated: May 5, 2026

Analysis of Minerals Produced by hFOB 1.19 and Saos-2 Cells Using Transmission Electron Microscopy with Energy Dispersive X-ray Microanalysis
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Analysis of Minerals Produced by hFOB 1.19 and Saos-2 Cells Using Transmission Electron Microscopy with Energy Dispersive X-ray Microanalysis

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Calcium Carbonate Formation in the Presence of Biopolymeric Additives
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Calcium Carbonate Formation in the Presence of Biopolymeric Additives

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Characterization of Calcification Events Using Live Optical and Electron Microscopy Techniques in a Marine Tubeworm
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Characterization of Calcification Events Using Live Optical and Electron Microscopy Techniques in a Marine Tubeworm

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Area of Science:

  • Biomineralization research spans multiple scientific disciplines, including paleontology, materials science, and evolutionary biology.

Background:

  • Organisms across all domains of life form mineralized tissues for structural support against gravity and hydrostatic pressure.
  • Common biominerals include carbonates, phosphates, and silica, forming complex architectures from nanoscale crystallites.

Purpose of the Study:

  • This review examines biomineralization in the context of early visual systems in trilobites, molluscan shell development, dental enamel properties, and amniote egg structures.
  • It highlights the role of biomineralization in understanding evolutionary adaptations and biomechanical principles.

Main Methods:

  • The review synthesizes information on the formation, structure, and mechanical properties of various biomineralized tissues.
  • It discusses the influence of environmental factors like ocean chemistry and temperature on skeletonization.
  • Analysis of fossil and recent specimens, including isotopic analysis, provides insights into past environments and evolutionary pathways.

Main Results:

  • Biomineralization processes have evolved significantly, with calcium carbonate dominating early skeletonization.
  • The structural arrangement of crystallites in biominerals reflects stress distribution and optimization.
  • Isotope geochemistry from fossilized remains offers valuable data for paleotemperature reconstruction and ecological shift analysis.

Conclusions:

  • Biomineralization is fundamental to understanding skeletal frameworks and has significant implications for engineering, particularly at the nanoscale.
  • The study of biomineralization provides a model for developing advanced materials and understanding life's evolutionary history.