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Spongy Bone01:09

Spongy Bone

All bones comprise an outer layer of compact bone, and an interior made up of spongy bone tissue, also called cancellous or trabecular bone. In long bones, spongy bone tissue is mainly found in the interior of the epiphyses (broad ends of the bone).
Spongy bone is more porous, and less dense compared to compact bone. It is composed of concentric lamellae that are arranged irregularly to form the trabecular network. In some bones, the spaces between trabeculae contain red marrow, where...
Compact Bone01:27

Compact Bone

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...
Bone as Supporting Connective Tissue01:23

Bone as Supporting Connective Tissue

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— that give the...
Bone Structure01:55

Bone Structure

Within the skeletal system, the structure of a bone, or osseous tissue, can be exemplified in a long bone, like the femur, where there are two types of osseous tissue: cortical and cancellous.
The Bone Matrix01:18

The Bone Matrix

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 acid or...
The Functions of the Skeletal System01:22

The Functions of the Skeletal System

The most apparent functions of the skeletal system are support, protection, and movement. However, bone tissue also performs several other critical metabolic functions. For one, the bone matrix acts as a reservoir for a number of minerals important to the functioning of the body, especially calcium and phosphorus. These minerals, present in the bone tissue, can be released back into the bloodstream when required. Calcium ions, for example, are essential for muscle contractions and controlling...

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Related Experiment Video

Updated: Jun 10, 2026

Processing Embryo, Eggshell, and Fungal Culture for Scanning Electron Microscopy
09:15

Processing Embryo, Eggshell, and Fungal Culture for Scanning Electron Microscopy

Published on: August 16, 2019

The eggshell: strength, structure and function.

S E Solomon1

  • 1Vigonac, Brantome, France. tippett.sarah@neuf.fr

British Poultry Science
|August 17, 2010
PubMed
Summary
This summary is machine-generated.

Scientific understanding of eggshell structure and function has evolved over 50 years. Technological advances have driven progress, enriching our knowledge through diverse research pathways.

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Mechanical Separation and Protein Solubilization of the Outer and Inner Perivitelline Sublayers from Hen's Eggs
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Mechanical Separation and Protein Solubilization of the Outer and Inner Perivitelline Sublayers from Hen's Eggs

Published on: January 27, 2021

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Last Updated: Jun 10, 2026

Processing Embryo, Eggshell, and Fungal Culture for Scanning Electron Microscopy
09:15

Processing Embryo, Eggshell, and Fungal Culture for Scanning Electron Microscopy

Published on: August 16, 2019

Mechanical Separation and Protein Solubilization of the Outer and Inner Perivitelline Sublayers from Hen's Eggs
06:12

Mechanical Separation and Protein Solubilization of the Outer and Inner Perivitelline Sublayers from Hen's Eggs

Published on: January 27, 2021

Area of Science:

  • * Zoology
  • * Materials Science
  • * Biomineralization

Background:

  • * Eggshell structure and function research spans five decades.
  • * Understanding has progressed through numerous studies and technological innovations.
  • * The field has seen significant enrichment from various research detours.

Purpose of the Study:

  • * To review the historical progression of eggshell research.
  • * To highlight the impact of technological advancements on the field.
  • * To emphasize the value of diverse research approaches in understanding eggshell structure and function.

Main Methods:

  • * Literature review of seminal works over the past 50 years.
  • * Analysis of scientific journeys and technological contributions.
  • * Synthesis of findings from various research diversions and detours.

Main Results:

  • * Eggshell research has followed a non-linear but enriching path.
  • * Technological progress has been a key enabler of scientific discovery.
  • * Diverse research avenues have collectively deepened understanding.

Conclusions:

  • * A comprehensive understanding of eggshell structure and function requires acknowledging the contributions of all research pathways.
  • * Technological advancements continue to be crucial for future discoveries in this field.
  • * The historical trajectory of eggshell research underscores the importance of interdisciplinary approaches.