Exercise 7 classification and structure of bones and cartilages
resting zone
Area of cartilage on epiphyseal side of epiphyseal plate that is relatively inactive
Ramus
Armlike bar of bone
foramen
Round or oval opening through a bone
fossa
Shallow, basinlike depression in a bone, often serving as an articular surface
tubercle
Small rounded projection or process
trochanter
Very large, blunt, irregularly shaped process (the only examples are on the femur)
osteon
a central canal and all the concentric lamellae surrounding it or haversian system
Groove
a furrow in the bone
primary ossification center
a region where bone tissue will replace most of the cartilage
Perichondrium
acts like a girdle to resist distortion of the cartilage when the cartilage is subjected to pressure. also plays a role in cartilage growth and repair.
spongy bone
aka cancellous bone composed of small trabeculae(columns) of bone and lots of open space.
anatomist
an expert in anatomy; a dissector
process
any bony prominence
in rickets the bones
are not properly calcified
sutural bones
are tiny bones between cranial bones except for the patellas, the sesamoid and sutural bones are not included in the bone count of 206 because they vary in number and location in different individuals
gross anatomy of the typical long bone
articular cartilage, epiphysis, metaphysis, diaphysis
skeletal cartilages
articular cartilages costal cartilages laryngeeal cartilages trachea and bronchial cartilages nasal cartilages intervertebral discs external ear cartilage
longitudinal bone growth
at epiphyseal plates(growth plates) follows a predictable sequence and provides a reliable indicator of the age of children exhibiting normal growth. if problems of long-bone growth are suspected. ex: pituitary dwarfism, Xray fils are taken to view the width of the growth plates. an abnormally thin epiphyseal plate indicates growth retardation.
skeleton subdivisions
axial and appendicular
periosteal bud
blood vessels, nerves, red marrow elements, osteoblasts, and osteoclasts
sinus
bone cavity, filled with air and lined with mucous membrane
bone markings
bones display projections, depressions, and openings that serve as sites of muscle, ligament, and tendon attachment, as joint surfaces, or as conduits for blood vessels they are not smooth but scrred withan array of bumpos, holes, and ridges.
Unclassified bones
bones that do not fall into one of the preceding categories are classified as irregular bones
axial skeleton
bones that lie around the body's center of gravity
head
bony expansion carried on a narrow neck
cartilage of external ear
elastic cartilage
external ear and epiglottis are made of
elastic cartilage
medullary cavity
essentially a storage region for adipose tissue
long bones
femur, bones of the fingers(phalanges) are much longer than they are wide, generally consisting of a shaft with heads at either end. composed mostly of compact bone.
growth of long bone
occurs at epiphyseal plate
hypertrophic zone
older cartilage cells enlarge
bones can further be classified by
on basis of their relative gross anatomy into four groups: long, short, flat, irregular bones.
red marrow
produces red blood cells, found in marrow cavities. in adults; confined to the interior of the epiphyses, where it occupies the spaces between the trabeculae of spongy bone.
bone marking categories
projections processes that grow out from the bone and serve as sites of muscle attachment or help form joints; and depressions or cavities, indentations, or openings in the bone that often serve as conduits for nerves and blood vessels.
tracheal and bronchial cartilages
reinforce other passageways of the respiratory system
interstitial lamellae
remains of old osteons that broke down as bone grew and remodeled itself because remodeling is going on all the time so you see interstitial lamellae
concentric lamellae (compact bone)
rings of bone tissue surrounding central canal
Condyle
rounded articular projection, often articulates with a corresponding fossa
perforating canals (Volkmann's canals)
run at right angles to the shaft and connect the blood and nerve supply of the medullary cavity to the central canals.
Central (Haversian) Canal
runs parallel to the long axis of the bone and carries blood vessels, nerves, and lymphatic vessels through the bony matrix
intervertebral discs
separate and cushion the vertebrae
Diaphysis
shaft of a long bone smooth surface composed of compact bone
spine
sharp, slender, often pointed projection
classification of cartilage
skeletal cartilages have representations from each of the three cartilage tissue types: hyaline, elastic, and fibrocartilage.
Lacunae
small spaces between the lamellae which contain osteocytes arranged in concentric circles call concentric lamellae
facet
smooth, nearly flat articular surface
bony spicules
sockets of extraction sites fill with cancellous bone & overfills sockets
yellow marrow
soft, fatty material found in the medullary cavity of long bones
trabeculae
spongy bone has a spiky, open-work appearance, resulting from the arrangement of the trabeculae that compose it where as compact bone appears to be dense and homogeneous however microscopic examination of compact bone reveals that it is riddled with passageways carrying blood vessels, nerves, and lymphatic vessels that provide the living bone cells with needed substances and a way to eliminate wastes.
nasal cartilages
support the external nose
articular cartilage
which covers the epiphyseal surface in place of the periosteum. the glassy hyaline cartilage provides a smooth surface to minimize friction at joints.
if animal is still young and growing
you will be able to see the epiphysieal plate, a thin area of hyaline cartilage that provides for longitudinal growth of th bone during youth. once the long bone has stopped growing, these areas are replaced with bone and appear as thin, barely descernible remnant--the epiphyseal lines.
line
Narrow ridge of bone; less prominent than a crest
crest
Narrow ridge of bone; usually prominent
fissure
Narrow, slitlike opening
epicondyle
Raised area on or above a condyle
endochondral ossification process
1. blood vessels invade the perichondrium covering the hyaline cartilage model and convert it to a periosteum. 2. osteoblasts at the inner surface of the periosteum secrete bone matrix around the hyaline cartilage model, forming a bone collar. 3. cartilage in the shaft center calcifies and then hollows out, forming an internal cavity. 4. a periosteal bud (blood vessels, nerves, red marrow elements, osteoblasts, and osteoclasts) invade the cavity and forms spongy bone, which is remived by osteoclasts, thus producing the medullary cavity. this process proceeds in both directions form the primary ossification center. as bones grow longer, the medullary cavity gets larger and longer.
Depressions and Openings for passage of vessels and nerves
Foramen, Groove, fissure, notch, others; fossa, meatus, sinus.
tuberosity
Large rounded projection; may be roughened
elastic cartilage
can be envisioned as " Hyaline cartilage with more elastic fibers" much more flexible than hyaline cartilage tolerates repeated bending better. only the cartilages of the external ear and the epiglottis(which flops over and covers the larynx when we swallow) are made of this cartilage
meatus
canal-like passageway
proliferation zone
cartilage cells undergo mitosis
lacunae
chambers
costal cartilage
connects ribs to sternum
fibrocartilage
consists of rows of chondrocytes alternating with rows of thich collagen fibers. looks like a cartilage-dense regular connective tissue hybrid! has great tensile strength and can withstand heavy compression. use to construct intervertebral discs and the cartilages within the knee joints
articular cartilage
cover the bone ends at movable joints
hardness of long bone
due to the inorganic calcium salts deposited in tis ground substance. its flexibility comes from the organic elements of the matrix, particularly the collagen fibers.
Periosteum
fibrous membrane covering made up of dense irregular connective tissue, to view the bone surface. notice that many fibers of the periosteum penetrate into the bone. These fibers are called perforating collagen fiber bundles (Sharpey's fibers). Blood vessels and nerves travel through the periosteum and invade the bone.
osteogenic cells
found on the inner, or osteogenic, layer of the periosteum.
flat bones
generally thin, with two waferlike layers of compact bone sandwiching a thicker layer of spongy bone between them. althought the name flat bone implies a structure that is level or horizontal, many flat bones are curved. ex: the bones of the skull.
cartilaginous regions of the skeleton
have fairly limited distribution in adults.
surfaces that form joints
head, facet, condyle, ramus
most skeletal cartialges are composed of
hyaline cartilage
in ebryos the skeleton is predominantly made up of
hyaline cartilage in the adult, most of the cartilage is replaced by more rigid bone.
notch
indentation at the edge of a structure
cartilage consists only in
isolated areas as the external ear, bridge of the nose, larynx, trachea, joints, and parts of the rib cage
what happens as the bone grows in diameter on its external surface
it is constantly being broken down on its inner surface. thus the thickness of the compact bone layer composing the shaft remains relatively constant.
bones are conected at
joints or articulations
laryngeal cartilages
largely construct the larynx (voice box)
chondroblasts
lay down new cartilage matrix on the epiphyseal face of the epiphyseal plate, and it is eroded away and replaced by bone spicules on the diaphyseal face. this process continues until late adolescence, when the entire epiphyseal plate is replaced by bone.
long bone cylinder
like a long bone is one of the strongest structures for its mass
classification of bones
long, short, flat, irregular, sesamoid, sutural
Hyaline cartilage
looks like frosted glass when viewed by the unaided eye. provides strudy support with some resilience or "give"
compact bone
looks smoth and homogeneous
calcification zone
matrix becomes calcified; cartilage cells die; matrix begins deteriorating
osteocytes
mature bone cells are in lacunae (chambers) which are arranged in concentric circles called concentric lamellae around the central canal.
endosteum
membranous lining of the hollow cavity of the bone/ lines the shaft also covers the trabeculae of spongy bone and lines the central and perforating canals of compact bone. like the periosteum, the endosteum contains osteogenic cells that differenciate into osteoblasts
ossification zone
new bone forms
the skeleton
the body's framework constructed of two of the most supportive tissues found in the human body : cartilage and bone. besides supporting and protecting the body as an internal framework, the skeleton provides a system of levers with which the skeletal muscles work to move the body. the bones store lipids and many mineral ( the most important of which is calcium) red marrow cavities of bones provide a site fro hematopoieses (blood cell formation)
appendicualr skeleton
the bones of the arms and legs and the structures associated with them
epihysis
the end of the long bone. notice that it is composed of a thin layer of compact bone that encloses spongy bone.
cartilage tissues distinguished by
the fact that they contain no nerves and very few blood vessels. each cartilage is surrounded by a covering of dense irregular connective tissue, called a perichondrium( rather than a periosteum)
canaliculi
tiny canals radiating outward from a central canal to the lacunae of the first lamella and then form lamella to lamella. form a dense transportation network through the hard bone matrix, connecting all the living cells of the osteon to the nutrient supply. may need a higher-power magnification to see the fine canaliculi.
Skeleton composed of:
two basic kinds of osseous tissue that differ in their texture: companct bone and spongy
short bones
typically cube shaped and contain more spongy bone than compact bone tarsals and carpals are examples.
endochondral ossification
uses hyaline cartilage "bones" as a model for bone formation. except for the collarbones(clavicles), al bones of the body inferior to the skull form in the embryo by this process of endochondral ossification
irregular bones
vertebrae