tIssUes, orGans, and orGan systeMs 71
What is connective tissue?
- Connective tissue binds together and supports other body
tissues and organs. - The differing types of fibrous connective tissues have different
amounts and arrangements of collagen and elastin fibers in their
matrix. - Cartilage, bone, blood, and adipose tissue are specialized
connective tissues. Cartilage and bone are structural materials.
Blood transports substances. Adipose tissue stores energy.
taKe-hoMe Message
adipose tissue Tissue that
stores fat in adipose (fat)
cells.
bone tissue Hard tissue
in bones, mineralized with
calcium salts.
cartilage Pliable tissue with
a matrix of collagen and
elastin fibers in a rubbery
ground substance.
connective tissue Tissue
that connects and supports
body parts; consists of cells
and fibers in a matrix.
fibrous connective
tissue Connective tissue
having a matrix that makes
it strong and stretchy;
varying characteristics of
the matrix result in loose,
dense, and elastic forms.
matrix Blend of cells,
fibers, and ground sub-
stance that gives each type
of connective tissue its spe-
cialized properties.
such as in the flaps of your ears.
Sturdy fibrocartilage is packed with
thick bundles of collagen fibers. It
can withstand a lot of pressure, and
it forms the cartilage “cushions” in
joints such as the knee and in the
disks between the vertebrae in the
spinal column.
Bone tissue is the main tissue in
bones. It is hard because its matrix
includes not only collagen fibers and
ground substance but also calcium
salts (Figure 4.3E). Bones serve the
body in ways described in Chapter 5.
Adipose tissue stores fat—the
way the body deals with carbohy-
drates and proteins that are not
immediately used for metabolism.
It is mostly cells packed with fat
droplets, with just a little matrix
between them (Figure 4.3F). Most
of our adipose tissue is located just
beneath the skin, where it provides
insulation and cushioning.
Blood is classified as connective tissue even though it
does not “connect” or bind other body parts. Instead blood’s
role is transport. Its matrix is the fluid plasma, which
contains proteins (blood’s “fibers”) as well as a variety of
blood cells and cell fragments called platelets (Figure 4.4).
Chapter 8 discusses this complex tissue.
Figure 4.4 Blood is an unusual connective tissue that
transports substances. Here you see some components of
human blood. This tissue’s liquid matrix (plasma) is mostly
water in which various substances are dissolved.
Type Bone tissue
Description Collagen
fibers, matrix
hardened with calcium
Common Locations Bones
of skeleton
Function Movement,
support, protection
E
Type Adipose tissue
Description Large, tightly
packed fat cells occupying
most of matrix
Common Locations Under
skin, around heart, kidneys
Function Energy reserves,
insulation, padding
F
bone cell
(osteocyte)
compact
bone tissue
cell bulging
with fat
droplet
nucleus
blood vessel
platelet
white blood cell
red blood cell
Science Source
Another version of this tissue has bundles of collagen
fibers aligned in the same plane (Figure 4.3C). It is found
in tendons, which attach many skeletal muscles to bones,
and in ligaments, which attach bones to one another. The
tissue’s structure allows a tendon to resist being torn, and
in ligaments the tissue’s elastic fibers allow the ligament to
stretch so bones can move at joints such as the knee.
Elastic connective tissue is a form of dense connective tis-
sue in which most of the fibers are the protein elastin. As a
result, this tissue is elastic and is found in organs that must
stretch, such as the lungs, which expand and recoil as air
moves in and out.
special connective tissues include cartilage,
bone, adipose tissue, and blood
Like rubber, cartilage is solid, pliable, and not easily com-
pressed. Its matrix is a blend of collagen and elastin fibers
in a rubbery ground substance. The result is a tissue that
can withstand considerable physical stress. The collagen-
producing cells are trapped inside small cavities in the
matrix (Figure 4.3D). If you have ever torn a cartilage, you
know that injured cartilage heals slowly. This is because
cartilage lacks blood vessels.
Most cartilage in the body is whitish, glistening hyaline
cartilage (hyalin = “glassy”). Hyaline cartilage at the ends of
bones reduces friction in movable joints. It also makes up
parts of your nose, wind pipe (trachea), and ribs. An early
embryo’s skeleton consists of hyaline cartilage.
Elastic cartilage has both collagen and elastin fibers. It
occurs where a flexible yet rigid structure is required,
E: Ed Reschke; F: © University of Cincinnati, Raymond Walters College, Biology
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