137
BONES AND SKELETAL TISSUES

BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Embed Size (px)

Citation preview

Page 1: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONESAND

SKELETAL TISSUES

Page 2: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

SKELETAL CARTILAGES

• Skeletal cartilages:– Made of some variety of cartilage– Consists primarily of water

• High water content accounts for its resilience– Ability to spring back to its original shape after being

compressed

– Contains no nerves or blood vessels– Surrounded by a layer of dense irregular connective

tissue called the perichondrium• Acts like a girdle to resist outward expansion when the

cartilage is compressed• Contains the blood vessels from which nutrients diffuse

through the matrix to reach the cartilage cells– This mode of nutrient delivery limits cartilage thickness

Page 3: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

SKELETAL CARTILAGES

• Three types:– Hyaline– Elastic– Fibrocartilage

• All three types have the same basic components:– Cells called chondrocytes

• Encased in small cavities (lacunae) within an extracellular matrix containing a jellylike ground substance and fibers

Page 4: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

HYALINE CARTILAGE

• Looks like a frosted glass when freshly exposed

• Provides support with flexibility and resilience

• Most abundant skeletal cartilage– Chondrocytes appear

spherical– Only fiber type in the

matrix is fine collagen fibers

Page 5: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

HYALINE CARTILAGE

Page 6: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

HYALINE CARTILAGE

• Includes:– Articular cartilages:

• Cover the ends of most bones at movable joints

– Costal cartilages:• Connect the ribs to the

sternum (breastbone)

– Respiratory cartilages:• Form the skeleton of the

larynx (voicebox)– Reinforces other

respiratory passageways

– Nasal cartilages:• Support the external nose

Page 7: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE CARTILAGE

Page 8: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

ELASTIC CARTILAGE

• Looks very much like hyaline cartilages, but they contain more stretchy elastic fibers and so are better able to stand up to repeated bending

Page 9: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

ELASTIC CARTILAGE

Page 10: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

ELASTIC CARTILAGE

• More flexible than hyaline

• Located only in the:– External ear– Epiglottis of the

larynx:• Flap that bends to

cover the opening of the larynx each time we swallow

Page 11: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE CARTILAGE

Page 12: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

FIBROCARTILAGE

• Highly compressible and have great tensile strength

• Perfect intermediate between hyaline and elastic cartilages

• Consist of roughly parallel rows of chondrocytes alternating with thick collagen fibers

Page 13: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

FIBROCARTILAGE

Page 14: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

FIBROCARTILAGE

• Occur in sites that are subjected to both heavy pressure and stretch:– Padlike cartilages

(menisci) of the knee– Discs between

vertebrae

Page 15: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE CARTILAGE

Page 16: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Growth of Cartilage

• Growth occurs in two ways:– Appositional growth (growth from the outside)

results in outward expansion due to the production of cartilage matrix on the outside of the tissue

• Cartilage-forming cells in the surrounding perichondrium secrete new matrix against the external face of the existing cartilage tissue

– Interstitial growth (growth from inside) results in expansion from within the cartilage matrix due to division of lacunae-bound chondrocytes and secretion of matrix

• Lacunae-bound chondrocytes divide and secrete new matrix, expanding the cartilage from within

Page 17: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Growth of Cartilage

• Typically, cartilage growth ends during adolescence when the skeleton stops growing

• Under certain conditions—during normal bone growth in youth and during old age—calcium salts may be deposited in the matrix and cause it to harden, a process called calcification– NOTE: calcified cartilage is NOT bone

Page 18: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

CLASSIFICATION OF BONES• 206 named bones of the human

skeleton are divided into two groups:

– Axial skeleton:• Forms the long axis of the body• Protect, support, or carry other

body parts • Includes:

– Skull– Vertebral column– Rib cage

– Appendicular skeleton:• Bones of the upper and lower

limbs, and the girdles (pectoral/shoulder and pelvic/hip) that attach them to the axial skeleton

• Help us to get from place to place (location)

Page 19: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE CARTILAGE

Page 20: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

CLASSIFICATION OF BONES

• Classified by shape:– Long– Short– Flat– Irregular

Page 21: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE SHAPE

Page 22: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Long Bones

• Longer than they are wide:– Have a definite shaft and

two ends– Consist of all limb bones

except patellas, the carpels (wrist), and tarsals (ankles)

• Named for their elongated shape, NOT their overall size

– Example: the three bones in your fingers (digits) are long bones, even though they are very small

Page 23: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE SHAPE

Page 24: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Short Bones

• Somewhat cube-shaped• Include:

– Carpals: wrist– Tarsals: ankle– Sesamoid bone:

• Shaped like a sesame seed

• Special type of bone that forms in a tendon

– Example: patella• Vary in size• Some clearly act to alter

direction of pull of a tendon

• Functions of others is not known

Page 25: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE SHAPE

Page 26: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Flat Bone

• Thin, flattened and often curved

• Include:– Most skull bones– Sternum

(breastbone)– Scapulae (shoulder

blades)– Ribs

Page 27: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE SHAPE

Page 28: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Irregular Bones

• Complicated shapes that do not fit in any of the previous classes

– Example:

• Vertebrae

• Coxae (hip bone)

Page 29: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE SHAPE

Page 30: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

FUNCTIONS OF BONES

• Besides contributing to body shape and form, our bones perform several important functions:– 1. Support– 2. Protection– 3. Movement– 4. Mineral storage– 5. Blood cell formation

Page 31: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Support

• Bones provide a framework that supports the body and cradles its soft organs

• Examples:– Bones of the lower limbs act as pillars to

support the body trunk– Rib cage supports the thoracic wall

Page 32: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Protection

• Fused bones at the skull protect the brain

• Vertebrae surround the spinal cord

• Rib cage helps protect the vital organs of the thorax

Page 33: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Movement

• Skeletal muscles, which attach to bones by tendons, use bones as levers to move the body and its parts– As a result, we can walk, grasp objects, and

breathe

Page 34: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Mineral Storage

• Bone is a reservoir for minerals– Most important are calcium and

phosphates– Stored minerals are released into the

bloodstream as needed for distribution to all parts of the body:

• Deposits and withdrawals of minerals to and from the bones go on almost continuously

Page 35: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Blood Cell Formation

• Most blood cell formation (hematopoiesis) occurs in the marrow cavities of certain bones

Page 36: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Structure

• Because bones contain various types of tissue, bones are organs:– Bone (osseous) tissue– Nervous tissue in their nerves– Cartilage tissue in their articular cartilages– Fibrous connective tissue lining their

cavities– Muscle and epithelial tissues in their blood

vessels

Page 37: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Gross Anatomy

• Bone markings are projections, depressions, and openings found on the surface of bones that function as sites of muscle, ligament, and tendon attachment, as joint surfaces, and as openings for the passage of blood vessels and nerves

Page 38: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Names of Bone Markings• Projections (bulges): grow

outward from the bone surface– Projections that sites of muscle

and ligament attachment:• Tuberosity: elevated round

swelling– Large and rounded– May be roughened

• Crest: elongated prominence– Narrow ridge– Usually prominent

• Trochanter: to run– Very large– Blunt– Irregularly shaped– ONLY in the femur

• Line:– Narrow ridge– Less prominent than crest

• Tubercle: little swelling– Small and rounded

• Epicondyle: above a knuckle (condyle)

– Raised area on or above a condyle

• Spine:– Sharp, slender, often pointed

projection• Process:

– Any bone prominence

Page 39: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Names of Bone Markings

• Projections That Help to Form Joints: articulation– Head:

• Bony expansion carried on a narrow neck

– Facet: small face• Smooth, nearly flat articular surface

– Condyle: knuckle• Rounded articular projection

– Ramus: branch• Armlike bar of bone

Page 40: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Names of Bone Markings

• Depressions and openings:– Allow blood vessels and nerves to pass

• Meatus: passage/opening– Canal-like passageway

• Sinus: curve, hollow– Cavity within a bone, filled with air and lined with mucous membrane

• Fossa: furrow or shallow depression– Shallow, basinlike depression in a bone– Often serves as an articular surface

• Groove: ditch– Furrow

• Fissure: slender deep furrow– Narrow, slitlike opening

• Foramen: passage/opening– Round or oval opening through a bone

Page 41: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Textures

• Compact:– All bones have a dense

outer layer consisting of compact bone that appears smooth and solid

• Spongy Bone:– Internal to compact bone is

spongy bone, which consists of honeycomb, needle-like, or flat pieces, called trabeculae (little beam)

• In living bones the open spaces between trabeculae are filled with red or yellow bone marrow

Page 42: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Compact/Spongy Bone

Page 43: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Typical Long Bone Structure• All long bones have the same

general structure:– Diaphysis: dia (through) / physis

(growth)• Tubular shaft• Forms the long axis of the bone• Constructed of a relatively thick collar

of compact bone that surrounds a central medullary cavity or marrow cavity

– In adults, the medullary cavity contains fat (yellow marrow) and is called the yellow bone marrow

– Epiphyses: epi (upon) / epiphyses (singular)

• The ends of the bone• Consist of internal spongy bone

covered by an outer layer of compact bone

• Joint surfaces of each epiphysis is covered with a thin layer of articular (hyaline) cartilage, which cushions the opposing bone ends during joint movement and absorbs stress

Page 44: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

LONGBONE

Page 45: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Typical Long Bone Structure

• Epiphyseal line: sometimes called the metaphysis– Located between the

epiphyses and diaphysis in an adult

• Is the remnant of the epiphyseal plate, a disc of hyaline cartilage that grows during childhood to lengthen the bone

Page 46: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

LONGBONE

Page 47: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Typical Long Bone Structure

• Membranes: Periosteum– The external surface of the

entire bone except the joint surfaces is covered by a glistening white, double-layered membrane called the periosteum (peri=around / osteo=bone)

• Outer fibrous layer is dense irregular connective tissue

• Inner osteogenic layer abutting the bone surface consists primarily of:

– Bone-forming cells: osteoblasts

– Bone-destroying cells: osteoclasts

Page 48: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

LONGBONE

Page 49: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Typical Long Bone Structure

• Membranes: Periosteum– Richly supplied with nerve

fibers, lymphatic vessels, and blood vessels, which enter the diaphysis via a nutrient foramen

– Secured to the underlying bone by perforating (Sharpey’s) fibers

• Tufts of collagen fibers that extend from its fibrous layer into the bone matrix

– Provides anchoring points for tendons and ligaments

• At these points the perforating fibers are exceptionally dense

Page 50: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

LONGBONE

Page 51: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Typical Long Bone Structure

• Membranes: Endosteum (within bone)– The internal surface of the

bone is lined by a connective tissue membrane called the endosteum

• Covers the trabeculae of spongy bone and lines the canals that pass through the compact bone

• Like the periosteum, the endosteum contains both osteoblasts and osteoclasts

Page 52: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

LONGBONE

Page 53: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Structure of Short, Flat, and Irregular Bones

• Short, flat, and irregular bones consist of thin plates of periosteum-covered compact bone on the outside, and endosteum-covered spongy bone inside, which houses bone marrow between the trabeculae (no marrow cavity is present)

• Not cylindrical• No shaft or epiphyses• Called the diploe (folded)

– Arrangement resembles a sandwich

Page 54: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

FLATBONE

Page 55: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Location of Hematopoietic Tissue in Bones

• Hematopoietic tissue of bones, red bone marrow, is located within:

• The trabecular cavities of the spongy bone in flat bones• The trabecular cavities of the spongy bone of the epiphyses in the long

bones– Red bone marrow is found in:

• All flat bones• Epiphyses, and medullary cavities of infants• In adults, distribution is restricted to flat bones and the proximal

epiphyses of the humerus and femur– Hence, blood cell production in adult long bones routinely occurs only in

the head of the femur and humerus– Red marrow found in the diploe of flat bones (such as the sternum) and in

some irregular bones (such as the hip bones) is much more active in hematopoiesis

» These are the sites used for obtaining red marrow samples

– Yellow marrow in the medullary cavity can revert to red marrow if a person becomes very anemic and needs enhanced red blood cell production

Page 56: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Microscope Anatomy of Bone

• Although compact bone looks dense and solid, a microscope reveals that it is riddled with passageways that serve as conduits for nerves, blood vessels, and lymphatic vessels

Page 57: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

COMPACT BONE

Page 58: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Microscope Anatomy of BoneCompact Bone

• The structural unit of compact bone is the osteon, or Haversian system

– Each osteon is an elongated cylinder oriented parallel to the long axis of the bone

• Tiny weight –bearing pillars• Group of hollow tubes of bone

matrix, one placed outside the next like the growth rings of a tree trunk

– In diagram: osteon are drawn as if pulled out like a telescope to illustrate the individual lamellae

• Each matrix tube is a lamella (little plate), and for this reason compact bone is often called lamellar bone

– Although all of the collagen fibers in a particular lamella run in a single direction, the collagen fibers in adjacent lamella always run in opposite directions

• This alternating pattern is beautifully designed to withstand torsion (twisting) stresses—the adjacent lamella reinforce one another to resist twisting

Page 59: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

OSTEON

Page 60: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Microscope Anatomy of BoneCompact Bone

• Collagen fibers are not the only part of bone lamellae that are beautifully ordered

– Tiny crystals of bone salts align with the collagen fibers and thus also alternate their direction in adjacent lamellae

• Running through the core of each osteon is:

– The Central (Haversian) Canal that containing small blood vessels and nerve fibers that serve the needs of the osteon’s cells

• Perforating (Volkmann’s) Canals lie at right angles to the long axis of the bone, and connect the blood and nerve supply of the periosteum to that of the central canals and medullary cavity

• BOTH Haversian and Volkmann Canal are lined with endosteum

Page 61: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

COMPACT BONE

Page 62: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Microscope Anatomy of BoneCompact Bone

• (b):Osteocytes (spider-shaped mature bone cells) occupy lacunae (small space, cavity, or depression occupied by cells) at the junctions of the lamellae

– Hair-like canals called canaliculi connect the lacunae to each other and to the central canal

• Tie all the osteocytes in an osteon together, permitting nutrients and wastes to be relayed from one osteocyte to the next throughout the osteon

• Although bone matrix is hard and impermeable to nutrients, its canaliculi and cell-to-cell relays (via gap junctions) allow bone cells to be well nourished

– Function is to maintain the bone matrix:

• If they die, the surrounding matrix is resorbed (remove-assimilated)

Page 63: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

COMPACT BONE

Page 64: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Microscope Anatomy of BoneCompact Bone

• Not all the lamellae in compact bone are part of osteons– (c): Lying between intact

osteons are incomplete lamella called interstitial lamella

• These either fill the gaps between forming osteons or are remnants of osteons that have been cut through by bone remodeling

• (a): Circumferential lamellae are located just beneath the periosteum, extending around the entire circumference of the bone – Effectively resist twisting of the

long bone

Page 65: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

COMPACT BONE

Page 66: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Spongy Bone• Lacks osteons• Trabeculae (honeycomb

network) align along lines of stress and help the bone resist stress as much as possible

– These tiny bone struts are as carefully positioned as the flying buttresses of a Gothic cathedral

• Irregularly arranged lamella and osteocytes interconnected by canaliculi

• Nutrients reach the osteocytes by diffusing through the canaliculi from capillaries in the endosteum surrounding the trabeculae

Page 67: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

LONGBONE

Page 68: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

FLATBONE

Page 69: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

COMPACT BONE

Page 70: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Chemical Composition of Bone

• Organic components:– Cells (osteoblasts, osteocytes, and osteoclasts)– Osteoid: nonliving

• Composed of secretions from the osteoblasts which contribute to the flexibility and tensile strength of bone that allows the bone to resist stretch and twisting

– Ground substance: proteoglycans and glycoproteins

– Collagen fibers:

» Bonds in or between collagen molecules break easily on impact dissipating energy to prevent the force from rising to a fracture value

» In the absence of continued or additional trauma, most of the bonds reform

Page 71: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Chemical Composition of Bone

• Inorganic components:– Make up 65% of bone by mass

• Consist of hydroxyapatite (mineral salts) that is largely calcium phosphate, which accounts for the hardness and compression resistance of bone– Present in the form of tightly packed tiny crystals

surrounding the collagen fibers in the extracellular matrix

• Because of the salts they contain, bones last long after death and provide an enduring “monument”

• Healthy bone is half as strong as steel in resisting compression and fully as strong as steel in resisting tension (stretching)

Page 72: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE DEVELOPMENT

• Ossification and osteogenesis are synonyms meaning the process of bone formation (os=bone / genesis=beginning)– In embryos: leads to the formation of the

skeleton– Early adulthood: bones increase in length– Throughout life: bones are capable of

growing in thickness– Adults: ossification serves mainly for bone

remodeling and repair

Page 73: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Formation of the Bony Skeleton

• Before week 8, the skeleton of a human embryo is constructed entirely from fibrous membranes and hyaline cartilage– Bone tissue begins to develop at about this time

and eventually replaces most of the existing fibrous or cartilage structures

– When a bone develops from a fibrous membrane, the process is intramembranous ossification, and the bone is called a membrane bone

– Bone development by replacing hyaline cartilage is called endochondral ossification (endo=within / chondo=cartilage), and the resulting bone is called a cartilage (endochondral) bone

Page 74: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Intramembranous Ossification

• Results in the formation of cranial bones of the skull (frontal, parietal, occipital, and temporal bones) and the clavicles

• All bones formed by this process are flat bones

• Four Major Steps: 1, 2, 3, 4

Page 75: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Intramembranous Ossification

Page 76: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Intramembranous Ossification

Page 77: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

• Replaces hyaline cartilage, forming all bones below the skull except for the clavicles

• Begins in the second month of development

• Five Steps: 1,2,3,4,5

Page 78: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

• 1. Initially, osteoblasts secrete osteoid, creating a bone collar around the diaphysis of the hyaline cartilage model

Page 79: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

Page 80: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

• 2. Cartilage in the center of the diaphysis calcifies: – Because calcified cartilage matrix is impermeable

to diffusing nutrients, the chondrocytes die and deteriorate forming cavities

Page 81: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

Page 82: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

• 3. The periosteal bud (nutrient artery and vein, lymphatics, nerve fibers, red marrow elements, osteoblast, and osteoclasts) invades the internal cavities and spongy bone forms around the remaining fragments of hyaline cartilage

Page 83: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

Page 84: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

• 4. The diaphysis elongates as the cartilage in the epiphyses continue to lengthen and a medullary cavity forms through the action of osteoclasts within the center of the diaphysis

Page 85: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

Page 86: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

• 5. The epiphyses ossify shortly after birth through the development of secondary ossification centers– When complete, hyaline cartilage remains only at two places:

• On the epiphyseal surfaces (articular cartilages)

• Junction of the diaphysis and epiphysis, where it forms the epiphyseal plates

Page 87: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Endochondral Ossification

Page 88: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Postnatal Bone Growth

• During infancy and youth:– Long bones lengthen entirely by interstitial

growth of the epiphyseal plates– All bones grow in thickness by appositional

growth

Page 89: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Growth in Length of Long Bones

• Side of the epiphyseal plate cartilage facing the epiphysis, the cartilage is relatively quiescent and inactive

• Side of the epiphyseal plate cartilage abutting the diaphysis organizes into a pattern that allows fast, efficient growth (osteogenic zone)– As the cells divide the

epiphysis is pushed away from the diaphysis

• Long bone lengthens

Page 90: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

LENGTH GROWTH

Page 91: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Growth

Page 92: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Growth in Length of Long Bones

• During growth, the epiphyseal plate maintains a constant thickness because the rate of cartilage growth on its epiphyseal-facing side is balanced by its replacement with bony tissue on its diaphysis-facing side

Page 93: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Growth

Page 94: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Growth in Length of Long Bones

• As adolescence draws to an end, the chondroblasts of the epiphyseal plates divide less often and the plates become thinner and thinner until they are entirely replaced by bone tissue

• Longitudinal bone growth ends when the bone of the epiphysis and diaphysis fuses– This process, called epiphyseal plate closure,

happens at about 18 years of age in females and 21 years of age in males

– However, an adult bone can still increase in diameter or thickness by appositional growth if stressed by excessive activity or body weight

Page 95: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Growth in Width (Thickness)

• Growing bones widen as they lengthen• Increases in thickness by appositional

growth

Page 96: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

APPOSITIONAL GROWTH

Page 97: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Growth in Width (Thickness)

• Osteoblast beneath the periosteum secrete bone matrix on the external bone surface– Osteoclasts on the

endosteal surface of the diaphysis remove bone

• There is normally slightly less breaking down than building up– This unequal process

produces a thicker, stronger bone but prevents it from becoming too heavy

Page 98: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Appositional Growth

Page 99: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Hormonal Regulation of Bone Growth

• During infancy and childhood, the most important stimulus of epiphyseal plate activity is growth hormone from the anterior pituitary, whose effects are modulated by thyroid hormone, ensuring that the skeleton has proper proportions as it grows

• At puberty, male and female sex hormones (testosterone and estrogen) are released in increasing amounts

– Initially these sex hormones promote the growth spurt typical of adolescence, as well as the masculinization or feminization of specific parts of the skeleton

– Ultimately these hormones induct the closure of the epiphyseal plate ending longitudinal bone growth

Page 100: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE HOMEOSTASIS

• Every week we recycle 5 to 7% of our bone mass, and as much as half a gram of calcium may enter or leave the adult skeleton each day

• Spongy bone is replaced every 3-4 years• Compact bone, is replaced approximately every 10 years

– This is fortunate because when bone remains in place for long periods the calcium crystallizes and becomes very brittle—ripe conditions for fracture

• When we break bones (most common disorder of bones), they undergo a remarkable process of self-repair

Page 101: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Remodeling

• In the adult skeleton, bone deposit and bone resorption (removal) occur BOTH at the surface of the periosteum and the surface of the endosteum– These two processes constitute bone remodeling:

• They are coupled and coordinated by remodeling units (osteoblasts and osteoclasts)

– Osteoblast: bone forming cells– Osteoclast: large cells that resorb or break down bone matrix

– In adult skeletons, bone remodeling is balanced bone deposit and removal, bone deposit occurs at a greater rate when bone is injured, and bone resorption allows minerals of degraded bone matrix to move into the blood

Page 102: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Remodeling

• Bone deposit: involves osteoblasts– Occurs wherever bone is injured or added

bone strength is required– Optimal bone deposit requires:

• Healthy diet rich in proteins• Vitamin C• Vitamin D• Vitamin A• Minerals: calcium, phosphorus, magnesium, and

manganese

Page 103: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Remodeling

• Bone Resorption: accomplished by osteoclasts– Move along a bone surface, digging grooves called

resorption bays as they break down the bone matrix– Secretes:

• Lysosomal enzymes that digest the organic matrix• Hydrochloric acid that converts the calcium salts into

soluble forms that pass easily into solution

– May also phagocytize the demineralized matrix and dead osteocytes

Page 104: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Control of Remolding

• Regulated by two control loops:– A negative feedback hormonal mechanism that maintains

Ca2+ homeostasis in the blood• Calcium is important in many physiological processes:

– Nerve impulses– Muscle contraction– Blood coagulation– Secretion by glands, nerve cells– Cell division

– Responses to mechanical and gravitational forces acting on the skeleton

• Daily calcium requirement is:– 400-800 mg from birth until the age of 10– 1200-1500 mg from ages 11 to 24

Page 105: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Hormonal Mechanism

• Mostly used to maintain blood calcium homeostasis, and balances activity of parathyroid hormone (PTH) and calcitonin (thyroid)

Page 106: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Hormonal Mechanism

• Increased parathyroid hormone (PTH) level stimulates osteoclasts to resorb bone, releasing calcium to the blood– Osteoclasts are no respectors

of matrix age• They break down both old

and new matrix• ONLY osteoid

(unmineralized matrix), which lacks calcium salts, escapes digestion

• As blood concentrations of calcium rise, the stimulus for PTH release ends

Page 107: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

HORMONE CONTROL

Page 108: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Hormonal Mechanism

• Calcitonin (Thyroid):– Secreted when blood

calcium levels rise– Inhibits bone resorption– Encourages calcium salt

deposit in bone matrix, effectively reducing blood calcium levels

– As blood calcium levels fall, calcitonin release wanes

Page 109: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

HORMONE CONTROL

Page 110: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

REMODELING

Page 111: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Hormonal Mechanism

• These hormonal controls act not to preserve the skeleton’s strength or well-being but rather to maintain blood calcium homeostasis– In fact, if blood calcium levels are low for an

extended time, the bones become so demineralized that they develop large, punched-out-looking holes

• Thus, the bones serve as a storehouse from which ionic calcium is drawn as needed

Page 112: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Response to Mechanical Stress and Gravity

• Wolff’s Law: Response to mechanical stress (muscle pull) and gravity serves the needs of the skeleton by keeping the bones strong where stressors are acting

• A bone’s anatomy reflects the common stresses it encounters:

– Example: a bone is loaded (stressed) whenever weight bears down on it or muscles pull on it

• Tends to bend the bone• Compresses the bone on one

side and subjects it to tension (stretching) on the other side

– Both forces are minimal toward the center of the bone (cancel each other out)

Page 113: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE STRESS

Page 114: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Wolff’s Law

• 1. Long bones are thickest midway along the diaphysis, exactly where bending stresses are greatest (bend a stick and it will split near the middle

• 2. Curved bones are thickest where they are most likely to buckle

• 3. Trabeculae of spongy bone form trusses, or struts, along lines of compression

• 4. Large, bony projections occur where heavy, active muscles attach– Bones of weight lifters have enormous thickenings at the

attachment sites of the most used muscles• Also explains the featureless bones of the fetus and the

atrophied bones of bedridden people—situations in which bones are not stressed

Page 115: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Control of Remolding

• Skeleton is continuously subjected to both hormonal influences and mechanical forces

• The hormonal loop determines whether and when remodeling occurs in response to changing blood calcium levels

• Mechanical stress determines where it occurs• Example:

– When bone must be broken down to increase blood calcium levels, PTH is released and targets the osteoclasts

– Mechanical forces determine which osteoclasts are most sensitive to PTH stimulation, so that bone in the least stressed areas (temporarily dispensable) is broken down

Page 116: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Repair

• Fractures are breaks in bones:– Due to trauma to bones or thin, weaken bones

Page 117: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Classification of Fracture

• Position of the bone ends after fracture:– Nondisplaced: bone ends retain their normal position– Displaced: bone ends are out of normal alignment

• Completeness of break:– Complete: bone is broken through– Incomplete: bone is not broken through

• Greenstick: bone breaks incompletely (like green twig breaks)

– Only one side of the shaft breaks; the other side bends• Orientation of the break relative to the long axis of the bone:

– Linear: parallel fracture– Transverse: break is perpendicular to the bone’s long axis

Page 118: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Classification of Fracture

• Whether the bone ends penetrate the skin:– Open (compound): penetrates the skin– Closed (simple): does not penetrate the skin

• Location:– Arm, leg, etc.– Epiphyseal: epiphysis separates from the diaphysis

along the epiphyseal plate • Depressed: skull bones pushed in• External appearance• Nature of break:

– Comminuted: bone fractures into 3 or more pieces– Spiral: angular

Page 119: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Repair

• Repair of fractures involves four major stages:– 1. Hematoma formation: mass of clotted blood

• Because blood vessels are damaged

• Bone cells deprived of nutrients die at the site

• Tissue at the site become swollen, painful, and inflamed

Page 120: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE HEALING

Page 121: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Repair

• 2. Fibrocartilaginous callus formation:– Formation of soft granulation tissue (soft callus)– Capillaries grow into the hematoma– Phagocytes invade the area– Fibroblasts:

• Produce collagen fibers that span the break and connect the bone ends– Osteoblasts:

• Begin forming spongy bone

Page 122: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE HEALING

Page 123: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Repair

• 3. Bony callus formation:– New bone trabeculae begins to form and is gradually

converted to bony (hard) callus

Page 124: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE HEALING

Page 125: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone Repair

• 4. Remodeling of the bony callus:– Excess material on the diaphysis exterior and within

the medullary cavityis removed– Compact bone is laid down to reconstruct the shaft

walls

Page 126: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE HEALING

Page 127: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Bone RepairNew Methods

• 1. Electrical stimulation of fracture

• 2. Ultrasound treatments

• 3. Free Vascular fibular graft

• 4. VEGF: vascular endothelial growth factor

• 5. Nanobiotechnology

• 6. Bone Substitutes

Page 128: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

HOMEOSTATIC IMBALANCE

• Imbalances between bone deposit and bone resorption underline nearly every disease that affects the adult skeleton

Page 129: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Osteomalacia

• Soft bones• Includes a number of disorders in adults in which

the bone is inadequately mineralized• Osteoid is produced, but calcium salts are not

deposited, so bones are soft and weak• Main symptom is pain when weight is put on the affected

bones• Cause: insufficient calcium or by a vitamin D deficiency

(helps to absorb calcium)• Treatment: drink vitamin D-fortified milk and exposing

the skin to sunlight which stimulates production of vitamin D

Page 130: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Rickets

• Inadequate mineralization of bones in children caused by insufficient calcium or vitamin D deficiency

• Treatment: drink vitamin D-fortified milk and exposing the skin to sunlight which stimulates production of vitamin D

• Because young bones are still growing rapidly, rickets is much more severe than adult Osteomalacia– Bowed legs, deformities of the pelvis, skull, and rib

cage are common

Page 131: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Osteoporosis

• Refers to a group of disorders in which the rate of bone resorption exceeds the rate of formation

• Bones become so fragile that something as simple as a hearty sneeze or stepping off a curb can cause them to break

• Bones have normal bone matrix (intercellular material of a tissue), but bone mass is reduced and the bones become more porous and lighter increasing the likelihood of fractures– Spongy bone of the spine is most vulnerable, and compression

fractures of the vertebrae are common– Femur, particular the neck, is also very susceptible to fracture

(broken hip)

Page 132: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Osteoporosis

• Older women are especially vulnerable to osteoporosis, due to the decline in estrogen after menopause

• Other factors that contribute to osteoporosis include:– A petite body form– Insufficient exercise or immobility to stress the bones– A diet poor in calcium and vitamin D– Abnormal vitamin D receptors– Smoking:

• Reduces estrogen levels– Hormone-related conditions:

• Hyperthyroidism• Diabetes mellitus

Page 133: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

OSTEOPOROSIS(a): Normal Bone

(b): Osteoporotic Bones

Page 134: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

Paget’s disease

• Is characterized by excessive bone deposition and resorption, with the resulting bone abnormally high in spongy bone– High ratio of spongy bone to compact bones– It is a localized condition that results in

deformation of the affected bone• Weaken of a region of a bone

• Cause: unknown

Page 135: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

DEVELOPMENTAL ASPECTS OF BONES:TIMING OF EVENTS

• The skeleton derives from embryonic mesenchymal cells, with ossification occurring at precise times– Most long bones have obvious primary ossification

centers by 12 weeks• At birth, most bones are well ossified, except for

the epiphyses, which form secondary ossification centers

• Throughout childhood, bone growth exceeds bone resorption; in young adults, these processes are in balance; in old age, resorption exceeds formation

Page 136: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

FETAL OSSIFICATION

Page 137: BONES AND SKELETAL TISSUES. SKELETAL CARTILAGES Skeletal cartilages: –Made of some variety of cartilage –Consists primarily of water High water content

BONE REPAIR