Fibrocartilage is distinguished from other types of cartilage by the following characteristic

Fibrocartilage is distinguished from other types of cartilage by the following characteristic

Cartilage | hyaline elastic fibrocartilage | histology anatomy

Brun, Paola supplementary details Interests at odds There are no conflicting interests declared by the writers. Contributions of the authors PB was in charge of the analytical strategy, data collection and interpretation, and report writing. The data was collected and analyzed by SCD. The data was collected and analyzed by BZ. RC was in charge of patient recruitment and classification requirements implementation. APH was in charge of patient recruitment, manuscript review, and supervision. GA was in charge of the protocol’s production, analytical method, manuscript review, and supervision. Initial image files submitted by authors The authors’ original image submission files are linked below. Figure 1: Authors’ initial file 1Authors’ original file for figure 2Authors’ original file for figure 3Authors’ original file for figure 4Authors’ original file for figure 5Authors’ original file for figure 6Authors’ original file for figure 7Authors’ original file for figure 8Authors’ original file for figure 9Authors’ original file for figure 10Authors’ original file for figure 11Authors’ original file for figure 12Authors’ original file for figure 13Authors’ 7 Permissions and rights
In relation to this article
This article can be cited.
P. Brun, S.C. Dickinson, B. Zavan, and others Fix tissue characteristics in second- and third-look biopsies from patients treated with engineered cartilage: correlations with symptomatology and time after implantation

Cartilage part1

Cartilage is a form of cartilage that is found

What is cartilage – functions of cartilage – types of cartilage

Light micrograph of chondrocytes and organelles, lacunae, and matrix in undecalcified hyaline cartilage.

What is cartilage?


Anatomy and physiology chapter 6 part a: bones and

Terminology used in anatomy

Cartilage science explained

[Wikidata] [Wikidata] [Wikidata] [Wikidata] [
Cartilage is a rubber-like tissue that covers and protects the ends of long bones at joints and nerves, as well as being a structural part of the rib cage, the ear, the nose, the bronchial tubes, the intervertebral discs, and many other body components. While it is not as strong and rigid as bone, it is stiffer and less flexible than muscle. Glycosaminoglycans, proteoglycans, collagen fibers, and sometimes elastin make up the matrix of cartilage.
Cartilage is made up of chondrocytes, specialized cells that contain a significant amount of collagenous extracellular matrix, a ground material rich in proteoglycan and elastin fibers. Elastic cartilage, hyaline cartilage, and fibrocartilage are the three forms of cartilage, with different quantities of collagen and proteoglycan.

Types of connective tissue – what is connective tissue

Connective tissue is a form of tissue found in animals that serves to connect other tissue systems (for example, muscle to skin) or organs. It is made up of three components: cells, fibers, and a ground material (or extracellular matrix).
Cartilage is a soft connective tissue that varies from bone in a number of respects. For one thing, chondrocytes, not osteocytes, are the main cell types. Chondrocytes are chondroblast cells that contain the collagen extracellular matrix (ECM) before being entrapped in it. They are found in lacunae, which contain up to eight chondrocytes each.
Chondrocytes rely on diffusion to acquire nutrients because cartilage is avascular, which means there are no blood vessels to bring blood to cartilage tissue, unlike bone. Because of the lack of blood supply, cartilage heals much more slowly than bone.
Chondroitin sulfate is the main component of cartilage, and its microarchitecture is much less ordered than that of bone. The perichondrium is the fibrous sheath that surrounds the cartilage. Since the division of cells in cartilage is very slow, cartilage development is typically not dependent on an increase in the size or mass of the cartilage.

A&p i lab | exercise 4: histology & tissues

Form II collagen fibers are used in all forms of cartilage, and they have a high resistance to compression (Type II: cartwolage.) Proteoglycan synthesis is reduced by chronic wear and tear, making articular cartilage less elastic and friable. Joint space narrowing and reactive subchondral bone sclerosis (thickening) occur when cartilage degeneration progresses in the early stages of osteoarthritis. Osteophyte formation is a symptom of mild to extreme osteoarthritis and is caused by an unsuccessful attempt at cartilage repair. [1] Bibliography [number four]
Growth, development, and regeneration
Chondrogenesis is the process of a person’s bones Chondrogenesis is the process of cartilage formation, growth, and regeneration. Mechanical and/or chemical stimuli (e.g., load and hydrostatic pressure changes) cause it (e.g., fibroblast growth factors, thyroid hormones, cytokines). During chondrogenesis, the steps listed below can occur.
Chondrocytes fail to proliferate in people with achondroplasia, particularly at the epiphyseal growth plates of long bones, resulting in impaired endochondral ossification and short limbs. The frontal and parietal bones’ intermembranous ossification is unaffected, resulting in a large head in comparison to the limbs.