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Growth of Cartilage and Bone Tissue01:27

Growth of Cartilage and Bone Tissue

3.0K
Chondrocytes form a temporary cartilaginous model by dividing and secreting a thick gel-like extracellular matrix. Once the chondrocytes undergo programmed cell death, osteoblasts enter the site of the cartilaginous model. The process of replacing the temporary cartilaginous model with bone in an ordered manner is called endochondral ossification. In endochondral ossification, not all of the cartilage is replaced by bone tissue. Some cartilage that performs a protective and supportive function...
3.0K
Structural Joints: Cartilaginous Joints01:17

Structural Joints: Cartilaginous Joints

2.1K
As the name indicates, at a cartilaginous joint, the adjacent bones are united by cartilage, a tough but flexible type of connective tissue. Unlike synovial joints, these types of joints lack a joint cavity and involve bones joined together by either hyaline cartilage or fibrocartilage.
There are two types of cartilaginous joints:
Synchondrosis
A synchondrosis ("joined by cartilage") is a cartilaginous joint where bones are connected by hyaline cartilage. Synchondrosis may be temporary...
2.1K
Bone Formation by Endochondral Ossification01:24

Bone Formation by Endochondral Ossification

3.7K
Bone formation, or ossification, begins around the sixth to seventh week of embryonic development. Most bones develop from a cartilaginous template through the process of endochondral ossification. Cartilage formation begins when clusters of mesenchymal cells differentiate into chondrocytes. These chondrocytes proliferate rapidly and secrete an extracellular matrix that becomes encased in a membrane called the perichondrium. The resulting cartilage model provides a template that resembles the...
3.7K
The Thoracic Cage: Ribs01:20

The Thoracic Cage: Ribs

2.2K
Ribs are curved, flattened bones forming the thoracic cavity wall with the thoracic muscles. There are 12 pairs of thoracic ribs. The posterior ends of all the ribs articulate with the T1–T12 thoracic vertebrae. In contrast,the anterior ends of most ribs attach to the sternum via their costal cartilages.
Parts of a Typical Rib
A typical rib has a head, neck, and body. The posterior end of the rib is called the head, followed by a narrow neck. The head articulates primarily with the costal...
2.2K
The Thoracic Cage: Sternum01:17

The Thoracic Cage: Sternum

1.8K
The thoracic or rib cage forms the body's thorax (chest) portion. Its primary function in the body is to protect vital organs in the thoracic cavity, such as the heart and the lungs. It consists of 12 pairs of ribs with their costal cartilages and the sternum. The ribs are anchored posteriorly to the 12 thoracic vertebrae (T1-T12).
The sternum is the elongated bony structure on the anterior side of the thoracic cage. It consists of three parts: the manubrium, the body, and the xiphoid...
1.8K
Development of the Limb Synovial Joints01:07

Development of the Limb Synovial Joints

1.3K
Joints form during embryonic development in conjunction with the formation and growth of the associated bones. The embryonic tissue that gives rise to all bones, cartilage, and connective tissues of the body is called mesenchyme.
The mesenchymal stem cells differentiate into chondrocytes that form the hyaline cartilage, and later the cartilaginous model of the bone. This model further transforms into a bone. This process is known as endochondral ossification.
During development, the limbs...
1.3K

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Related Experiment Video

Updated: May 26, 2025

Development and Evaluation of a Rat Model of Full-Thickness Cartilage Defects
04:34

Development and Evaluation of a Rat Model of Full-Thickness Cartilage Defects

Published on: May 19, 2023

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Danger in the "Shadows": Rib Cartilage Histomechanics.

Mehmet E Yegin1, Mahmut Pekedis2, Gizem Ates3

  • 1Department of Plastic, Reconstructive and Aesthetic Surgery, Faculty of Medicine, Istinye University, Istanbul.

The Journal of Craniofacial Surgery
|February 24, 2025
PubMed
Summary
This summary is machine-generated.

Rib cartilage warping may stem from immature tissue structures. This study found significant histologic and biomechanical differences in specific rib cartilage areas, explaining previous warping observations.

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Area of Science:

  • Orthopedic Surgery
  • Biomedical Engineering
  • Histology

Background:

  • Rib cartilage warping is a known complication in reconstructive surgery.
  • Previous research suggested microanatomic transitions in cartilage may alter biomechanical properties.

Purpose of the Study:

  • To investigate the histologic and biomechanical characteristics of rib cartilage.
  • To identify potential causes for warping in rib cartilage grafts.

Main Methods:

  • Harvesting of fifth to eighth rib cartilages from 2 cadavers post-CT scan.
  • Biomechanical testing and histologic analysis of specific cartilage regions identified on CT scans.

Main Results:

  • Significantly different microstructures were observed in targeted rib cartilage areas.
  • Immature cartilage structures were identified within these areas.

Conclusions:

  • Immature microstructures in specific rib cartilage regions may contribute to warping.
  • Histologic and biomechanical variations explain observed warping phenomena in rib cartilage grafts.