connective tissue

connective tissue,

supportive tissue widely distributed in the body, characterized by large amounts of intercellular substance and relatively few cells. The intercellular material, or matrix, is produced by the cells and gives the tissue its particular character. Connective tissue is diversified in function and may be divided into four categories according to the type of matrix. In connective tissue proper (which forms the framework for most organs) the matrix is soft. In cartilagecartilage
, flexible semiopaque connective tissue without blood vessels or nerve cells. It forms part of the skeletal system in humans and in other vertebrates, and is also known as gristle.
..... Click the link for more information. it is firm but flexible. The intercellular substance of bonebone,
hard tissue that forms the skeleton of the body in vertebrate animals. In the very young, the skeleton is composed largely of cartilage and is therefore pliable, reducing the incidence of bone fracture and breakage in childhood.
..... Click the link for more information. , which is high in mineral salts, is rigid. Bloodblood,
fluid pumped by the heart that circulates throughout the body via the arteries, veins, and capillaries (see circulatory system; heart). An adult male of average size normally has about 6 quarts (5.6 liters) of blood.
..... Click the link for more information. and lymph have a fluid matrix. Three kinds of fibers generally form the supportive material in connective tissue proper. White, or collagenous, fibers vary in size and are composed of fine, parallel fibrils; reticular fibers are small, branching fibers that take on a meshlike pattern; yellow, or elastic, fibers are highly flexible and are capable of branching and anastomosing (or opening) directly into one another. Loose, or areolar, connective tissue is composed of all three of the above fibers; it supports most of the organs in the body and is widely distributed under the skin. The type of connective tissue that forms tendonstendon,
tough cord composed of closely packed white fibers of connective tissue that serves to attach muscles to internal structures such as bones or other muscles. Sometimes when the muscle involved is thin and wide, the tendon is not a cord but a thin sheet known as an
..... Click the link for more information. , ligamentsligament
, strong band of white fibrous connective tissue that joins bones to other bones or to cartilage in the joint areas. The bundles of collagenous fibers that form ligaments tend to be pliable but not elastic.
..... Click the link for more information. , and fasciafascia
, fibrous tissue network located between the skin and the underlying structure of muscle and bone. Fascia is composed of two layers, a superficial layer and a deep layer.
..... Click the link for more information. is composed mainly of collagenous fibers. It is known as compact tissue. Reticular connective tissue forms the bone marrow and the framework for lymphoid tissue. Adipose, or fat, tissue serves as a cushion for various organs and as a fat reservoir. The colored area of the eye, or iris, is composed of pigmented connective tissue.

Connective tissue

One of the four primary tissues of the body. It differs from the other three tissues in that the extracellular components (fibers and intercellular substances) are abundant. It cannot be sharply delimited from the blood, whose cells may give rise to connective tissue cells, and whose plasma components continually interchange with and augment the ground substance of connective tissue. Bone and cartilage are special kinds of connective tissue.

The functions of connective tissues are varied. They are largely responsible for the cohesion of the body as an organism, of organs as functioning units, and of tissues as structural systems. The connective tissues are essential for the protection of the body both in the elaborate defense mechanisms against infection and in repair from chemical or physical injuries. Nutrition of nearly all cells of the body and the removal of their waste products are both mediated through the connective tissues. Connective tissues are important in the development and growth of many structures. Constituting the major environment of most cells, they are probably the major contributor to the homeostatic mechanisms of the body so far as salts and water are concerned. They act as the great storehouse for the body of salts and minerals, as well as of fat. The connective tissues determine in most cases the pigmentation of the body. Finally, the skeletal system (cartilage and bones) plus other kinds of connective tissue (tendons, ligaments, fasciae, and others) make motion possible.

The connective tissues consist of cells and extracellular or intercellular substance (see illustration). The cells include many varieties, of which the following are the most important: fibroblasts, macrophages (histiocytes), mast cells, plasma cells, melanocytes, and fat cells. Most of the cells of the connective tissue are developmentally related even in the adult; for example, fibroblasts may be developed from histiocytes or from undifferentiated mesenchymal cells.

Components of connective tissue

The extracellular components of connective tissues may be fibrillar or nonfibrillar. The fibrillar components are reticular fibers, collagenous fibers, and elastic fibers. The nonfibrillar component of connective tissues appears amorphous with the light microscope and is the matrix in which cells and fibers are embedded. It consists of two groups of substances: (1) those probably derived from secretory activity of connective tissue cells including mucoproteins, protein-polysaccharide complexes, tropocollagen, and antibodies; and (2) those probably derived from the blood plasma, including albumin, globulins, inorganic and organic anions and cations, and water. In addition, the ground substance contains metabolites derived from, or destined for, the blood.

All the manifold varieties of connective tissue may contain all the cells and fibers discussed above in addition to ground substance. They differ from each other in the relative occurrence of one or another cell type, in the relative proportions of cells and fibers, in the preponderance and arrangement of one or another fiber, and in the relative amount and chemical composition of ground substance. They are classified as:

1. Irregularly arranged connective tissue—which may be loose (subcutaneous connective tissue) or dense (dermis). The dominant fiber type is collagen.

2. Regularly arranged connective tissue—primarily collagenous—with the fibers arranged in certain patterns depending on whether they occur in tendons or as membranes (dura mater, capsules, fasciae, aponeuroses, or ligaments).

3. Mucous connective tissue—ground substance especially prominent (umbilical cord).

4. Elastic connective tissue—predominance of elastic fibers or bands (ligamentum nuchae) or lamellae (aorta).

5. Reticular connective tissue—fibers mostly reticular, moderately rich in ground substance, frequently numerous undifferentiated mesenchymal cells.

6. Adipose connective tissue—yellow or brown fat cells constituting chief cell type, reticular fibers most numerous.

7. Pigment tissue—melanocytes numerous.

8. Cartilage—cells exclusively of one type, derived from mesenchymal cells.

9. Bone—cells are predominantly osteocytes, but also include fibroblasts, mesenchymal cells, endothelial cells, and osteoclasts.

See Blood, Bone, Cartilage, Collagen, Histology, Ligament, Tendon

Connective Tissue

in animals, a tissue that develops from the mesenchyma and performs supportive, nutritive (trophic), and protective functions. A structural characteristic of connective tissue is the presence of well-developed intercellular structures (fibers and ground substance).

Connective tissue is classified as connective tissue proper, osseous tissue, and cartilaginous tissue, depending on the composition of the cells and the type, properties, and orientation of intercellular structures. Connective tissue proper may be irregularly or regularly arranged. Irregularly arranged connective tissue with fibers that are irregularly interwoven may be loose (areolar) or dense. An example of loose connective tissue is subcutaneous tissue, as well as connective tissue, which fills the spaces between organs and accompanies blood vessels. An example of dense connective tissue is the corium, or connective-tissue base of the skin. In regularly arranged connective tissue the fibers are arranged in certain patterns. This type of connective tissue occurs in tendons, fasciae, ligaments, and the sclera of the eye.

Reticular tissue and adipose tissue are two types of connective tissue having special properties. Another type of connective tissue is rich in pigment cells (for example, in the choroid of the eye). These tissues, together with blood and lymph, form the system of tissues within the body. Intercellular matter includes collagenous, elastic, and reticular fibers and the ground substance, which contains a large number of mucopolysaccharides. The fibers and ground substance are derived from fibroblasts—the principal cellular form of connective tissue.

Loose connective tissue also has macrophages, or histiocytes (cells that remove foreign particles and dead structures from tissue by phagocytosis), mast cells (cells that contain heparin, histamine, and other biologically active substances), fat, pigment, and plasma cells, and various types of blood leukocytes. Loose connective tissue, which fills the spaces between organs, vessels, nerves, muscles, and other body structures, forms the internal medium through which nutrients are delivered to cells and the products of metabolism are removed. Its extensive distribution and role in cell nutrition and protective processes make this tissue a participant in almost all of an animal’s physiological and pathological reactions, including inflammation, physiological and reparative regeneration, healing of wounds, and sclerotic processes.

Connective tissue with marked protective functions is characterized by a relatively large number and diversity of cells, including blood leukocytes. In predominantly supportive connective tissue, intercellular structures predominate and cells are represented only by fibroblasts or their analogues, including cartilage and bone cells.

REFERENCES

Eliseev, V. G. Soedinitel’naia tkan’. Moscow, 1961.
Khrushchov, N. G. Funktsional’naia tsitokhimiia rykhloi soedinitel’noi tkani. Moscow, 1969.
Khrushchov, N. G. Gislogenez soedinitel’noi tkani. Moscow, 1976.

N. G. KHRUSHCHOV

connective tissue

[kə′nek·tiv ′tish·ü] (histology) A primary tissue, distinguished by an abundance of fibrillar and nonfibrillar extracellular components.

connective tissue

an animal tissue developed from the embryonic mesoderm that consists of collagen or elastic fibres, fibroblasts, fatty cells, etc., within a jelly-like matrix. It supports organs, fills the spaces between them, and forms tendons and ligaments

connective tissue

[kō-nek´tiv] a fibrous type of body tissue with varied functions; it supports and connects internal organs, forms bones and the walls of blood vessels, attaches muscles to bones, and replaces tissues of other types following injury. Connective tissue consists mainly of long fibers embedded in noncellular matter, the ground substance. The density of these fibers and the presence or absence of certain chemicals make some connective tissues soft and rubbery and others hard and rigid. Compared with most other kinds of tissue, connective tissue has few cells. The fibers contain a protein called collagen" >collagen. Connective tissue can develop in any part of the body, and the body uses this ability to help repair or replace damaged areas. Scar tissue is the most common form of this substitute. See also collagen diseases.

con·nec·tive tis·sue

the physical or functional supporting tissue of the animal body, a major constituent of which (in addition to various kinds of cells) is an extracellular matrix of ground substance, protein fibers, and structural glycoproteins; it is derived from the mesenchyme, which in turn is derived mainly from mesoderm; the many kinds of connective tissue may be classified according to cell-matrix proportion (loose vs. dense), arrangement of fibers (regular dense vs. irregular dense), fiber type (collagenous, elastic), embedded cell type (adipose, lymphoid, hemopoietic), degree of differentiation (mesenchymal, mucous), location (subcutaneous, periosteal, perichondrial), appearance (areolar, granulation), or nature of matrix (cartilaginous, osseous, or, in the cases of blood and lymph, liquid). Synonym(s): interstitial tissue, supporting tissue, tela conjunctiva

connective tissue

n. Tissue arising chiefly from the embryonic mesoderm that is characterized by a highly vascular matrix and includes collagenous, elastic, and reticular fibers, adipose tissue, cartilage, and bone. It forms the supporting and connecting structures of the body.

con·nec·tive tis·sue

(kŏ-nek'tiv tish'ū) The supporting or framework tissue of the animal body, formed of fibers and ground substance with more or less numerous cells of various kinds. It is derived from the mesenchyme, and this in turn from the mesoderm. The varieties of connective tissue are: areolar or loose; adipose; dense, regular or irregular, white fibrous; elastic; mucous; lymphoid tissue; cartilage; and bone. Blood and lymph may be regarded as connective tissues, the ground substance of which is a liquid.
Synonym(s): interstitial tissue.

CONNECTIVE TISSUES

connective tissue

Tissue that supports and connects other tissues and parts of the body. Connective tissue has comparatively few cells. Its bulk consists of intercellular substance or matrix, whose nature gives each type of connective tissue its particular properties. The vascular supply varies: cartilage, none; fibrous, poor; adipose, good; and bone, abundant. Connective tissue includes the following types: areolar, adipose, fibrous, elastic, reticular, cartilage, and bone. Blood may also be considered a connective tissue. illustrationSee also: tissue

connective tissue

Loose or dense collections of COLLAGEN fibres and many cells, in a liquid, gelatinous or solid medium. Connective tissue participates in the structure of organs or body tissue or binds them together. It includes cartilage, bone, tooth dentine and lymphoid tissue.

connective tissue

an animal tissue in which the intercellular matrix forms the major part. Such tissues fall into three main groups:

‘true’ connective tissue (ADIPOSE TISSUE, AREOLAR TISSUE, yellow elastic tissue (LIGAMENTS) and white fibrous tissue (TENDONS);
skeletal tissue: BONE and CARTILAGE;
blood, the last differing from the others in containing no fibres in the matrix (BLOOD PLASMA).

Connective tissue

Tissue that supports and binds other tissue; much of it occurs outside of cells (extra-cellular) and consists of fibrous webs of the polymers, elastin and collagen. Cutis laxa is associated with defects in these fibers.Mentioned in: Bone Marrow Aspiration and Biopsy, Cutis Laxa, Ehlers-Danlos Syndrome, Fibromyalgia, Pseudoxanthoma Elasticum, Relapsing Polychondritis, Scleroderma

con·nec·tive tis·sue

(kŏ-nek'tiv tish'ū) Physical or functional supporting tissue of the animal body, a major constituent of which (in addition to various kinds of cells) is an extracellular matrix of ground substance, protein fibers, and structural glycoproteins; derived from the mesenchyme, which in turn is derived mainly from mesoderm.

Patient discussion about connective tissue

Q. My neighbor's kid had a lens dislocation due to Marfan's disease. Is this a contagious thing? My neighbor's have a sweet 8 year old boy. he had a lens dislocation due to a connective tissue disease named Marfan (I think that the name). It sounds like a very serious condition. My boy is playing with this kid several hour a week. should I take him to the GP to see that his is not infected with this marfan thing?A. As in love and war so is in medicine the is no always nor never. It is probably the marfan that caused your neighbor kid the lens dislocation but you can never know for sure.
If you want there is nothing wrong in taking your boy for an annual check of an ophthalmologist.

More discussions about connective tissue

connective tissue

connective tissue

connective tissue

connec′tive tis`sue

con·nec·tive tissue

connective tissue

connective tissue

connective tissue,

Connective tissue

Connective Tissue

REFERENCES

connective tissue

connective tissue

connective tissue

connective tissue

con·nec·tive tis·sue

connective tissue

con·nec·tive tis·sue

connective tissue

connective tissue

connective tissue

Connective tissue

con·nec·tive tis·sue

Patient discussion about connective tissue

connective tissue

Words related to connective tissue

noun tissue of mesodermal origin consisting of e.g. collagen fibroblasts and fatty cells

Related Words