chapter 6 test 2 intro

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Weight-bearing portion of the vertebra

body

middle part of the sternum

body

Which of these types of joints exhibits the greatest amount of movement? A) cartilaginous joints B) gomphoses C) sutures D) syndesmoses E) synovial joints

e

Bone is formed in thin sheets of extracellular matrix called (1) , with bone cells, called (2) between the lamellae. The osteocytes are located within spaces called (3) . Cell processes extend from the osteocytes across the extracellular matrix of the lamellae within tiny canals called (4) 2

osteocytes

projection from a bone

process

First seven pairs of ribs that attach directly to the sternum

true ribs

lump on a bone

tubercle, tuberosity

All of the following are functions of the skeletal system EXCEPT: A) blood cell production B) protection C) storage D) heat production E) support

a

As a long bone increases in diameter, the medullary cavity a. increases in size. b. decreases in size. c. does not change in size.

a

The largest foramen in the skull is the A) foramen magnum. B) optic foramen. C) nasolacrimal canal. D) foramen ovale. E) foramen rotundum.

a

The weight-bearing portion of a vertebra is the a. vertebral arch. b. articular process. c. body. d. transverse process. e. spinous process.

a

Which of these is a tunnel-like passage through a bone? a. canal or meatus b. condyle c. foramen d. fossa e. process

a

Which of these parts of the upper limb is NOT correctly matched with the number of bones in that part? a. arm: 1 b. forearm: 2 c. wrist: 10 d. palm of hand: 5 e. fingers: 14

a

primary ossification centers of a long bone are found in the a. diaphysis. b. epiphysis. c. perichondrium. d. periosteum. e. articular cartilage

a

head of femur

acetabulum

Projection from the scapular spine that forms the point of the shoulder; point of attachment of the clavicle

acromion process

Cartilage that provides a smooth surface where bones meet

articular cartilage

Where vertebrae articulate with each other

articular process

First cervical vertebra; allows a "yes" motion of the head

atlas

The ____ skeleton is divided into the skull, vertebral column, and thoracic cage

axial

Endochondral ossification A) occurs primarily in the bones of the skull. B) involves calcification of the cartilage matrix. C) produces bone in connective tissue membranes. D) occurs when chondrocytes replace osteoblasts in the matrix

b

Intramembranous ossification a. occurs at the epiphyseal plate. b. gives rise to the flat bones of the skull. c. is responsible for increased diameter of bone. d. develops from a cartilage model.

b

The ends of long bones are called A) diaphyses. B) epiphyses. C) lamellae. D) trabeculae.

b

The prime function of osteoclasts is to a. prevent osteoblasts from forming. b. break down bone. c. produce calcium salts and collagen fibers. d. change spongy bone to cartilage

b

The wrist consists of eight ______ bones, whereas the ankle consists of seven ______ bones. A) tarsal, carpal. B) carpal, tarsal. C) metacarpal, metatarsal. D) metatarsal, metacarpal. E) metacarpal, phalanges.

b

When blood calcium levels are too high, __________ are activated by __________ which is a hormone from the __________ gland. A) osteoblasts; PTH; thyroid B) osteoblasts; calcitonin; thyroid C) osteoblasts; calcitonin; parathyroid D) osteoclasts; calcitonin; parathyroid E) osteoclasts; PTH; parathyroid

b

Which of these connective tissue types has proteoglycans in its extracellular matrix? A) bone B) cartilage C) ligaments D) tendons E) both c and d

b

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 8

blood forming

Cancellous (spongy) bone consists of delicate interconnecting rods or plates of bone called (1) . The spaces between the trabeculae are filled with (2) . Each trabecula consists of several lamellae, with (3) between the lamellae. Usually no (4) penetrate the trabeculae, and the trabeculae have no central canals. Nutrients pass by diffusion through the (5) to the osteocytes of the trabeculae 4

blood vessels

Most of the lamellae of compact bone are organized into sets of concentric rings with each set surrounding a (1) . Within the central canal are (2) that run parallel to the long axis of the bone. Each central canal with the lamellae and osteocytes surrounding it, is called a(n) (3) . The osteocytes are connected to each other by cell processes located in (4) . Blood vessels in the (5) supply blood to vessels in the central canal. 2

blood vessels

extracellular matrix is made up of collagen and minerals

bone

Extension of the synovial membrane that forms a pocket or sac; reduces friction where structures would rub together.

bursa

A break in the shaft of a bone is a break in the a. epiphysis. b. perichondrium. c. diaphysis. d. articular cartilage

c

Bone cells that are responsible for the formation of bone are A) osteoclasts. B) osteocytes. C) osteoblasts. D) chondroblasts. E) chondrocytes.

c

Bones of the skull, the sternum, and the scapula are all examples of _____ bones. A) long B) short C) flat D) irregular

c

Given these events: 1. cancellous bone is formed; 2. cancellous bone is remodeled to compact bone; 3. clot is formed; 4. fibrous network and cartilage form a callus. Arrange the events in the correct order that they occur during bone repair. A) 1,2,3,4 B) 2,3,4,1 C) 3,4,1,2 D) 4,3,1,2 E) 4,3,2,1

c

Process that forms the outer ankle? a. lateral condyle b. lateral epicondyle c. lateral tuberosity d. lateral malleolus e. none of the above

c

Regarding skeletal system function, A) bone often serves as a model for cartilage growth. B) tendons connect bone to bone. C) blood cells are produced in the marrow of many bones. D) cartilage serves as an important mineral storage area. E) all of these.

c

The passageway that carries tears from the eyes to the nasal cavity is a. the nasolacrimal canal. b. the optic foramen. c. the orbital fissure. d. the foramen magnum

c

The perpendicular plate of the ethmoid and the ______ form the nasal septum. a. zygomatic arch b. nasal bone c. nasal conchae d. vomer

c

The squamous suture joins the a. frontal and temporal bones. b. frontal and parietal bones. c. parietal and temporal bones. d. parietal and occipital bones.

c

The surface of the medullary cavity is lined with a connective tissue membrane called A) periosteum. B) epiphyseal plates. C) endosteum. D) perichondrium. E) lamellae

c

The term that means a depression in a bone is A) foramen. B) canal or meatus. C) fossa. D) sinus. E) fissure

c

Transverse foramina are found only in a. cervical vertebrae. b. thoracic vertebrae. c. lumbar vertebrae. d. the sacrum. e. the coccyx

c

Two bones that have prominent epicondyles are the A) radius and ulna. B) tibia and fibula. C) femur and humerus. D) femur and scapula. E) tibia and radius

c

Inferior to the talus; protrudes posteriorly to form the heel

calcaneus

As osteoblasts deposit new bone matrix on the surface of bones between the periosteum and the existing bone, the bone increases in (1) . Growth in the (2) of a bone, which is the major source of increased height in an individual, occurs in the (3) . Just as in endochondral ossification, (4) increase in number. Within the (5) zone, the chondrocytes line up in columns, hypertrophy, and die. The cartilage matrix is (6) , and (7) start forming bone matrix on the surface of the calcified cartilage. This process produces a zone of (8) on the diaphyseal side of the epiphyseal plate. 6

calcified

Intramembranous ossification occurs when osteoblasts begin to produce bone in ossification centers of (1) membranes. Endochondral ossification begins with a (2) , which has the general shape of the mature bone. The chondrocytes of the cartilage model increase in number, hypertrophy, and die and the cartilage matrix becomes (3) , forming an ossification center. When chondrocytes die, (4) invade spaces in the center of the bone and produce bone matrix; (5) remove bone and calcified cartilage to form the medullary cavity. The center part of the diaphysis where bone first begins to appear is called the (6) . Later, (7) form in the epiphyses 3

calcified

Bone remodeling involves the removal of old bone by (1) , and the deposition of new bone by (2) . Bone is the major storage site for (3) in the body. Calcium is removed from bones when blood calcium levels (4) , and it is deposited when dietary calcium is adequate. When a bone is broken, the bone bleeds, and a (5) is formed in the damaged area. Cells from surrounding tissue invade and form a fibrous network with islets of cartilage, which holds the bone fragments together. The zone of tissue repair between the two bone fragments is called a (6) . Osteoblasts enter the callus and begin forming (7) bone, which is later remodeled 3

calcium

Most of the mineral in bone is in the form of _____ ____ crystals called hydroxyapatite.

calcium phosphate

Bone remodeling involves the removal of old bone by (1) , and the deposition of new bone by (2) . Bone is the major storage site for (3) in the body. Calcium is removed from bones when blood calcium levels (4) , and it is deposited when dietary calcium is adequate. When a bone is broken, the bone bleeds, and a (5) is formed in the damaged area. Cells from surrounding tissue invade and form a fibrous network with islets of cartilage, which holds the bone fragments together. The zone of tissue repair between the two bone fragments is called a (6) . Osteoblasts enter the callus and begin forming (7) bone, which is later remodeled 6

callus

tunnel like passage through a bone

canal, meatus

Bone is formed in thin sheets of extracellular matrix called (1) , with bone cells, called (2) between the lamellae. The osteocytes are located within spaces called (3) . Cell processes extend from the osteocytes across the extracellular matrix of the lamellae within tiny canals called (4) 4

canaliculi

Cancellous (spongy) bone consists of delicate interconnecting rods or plates of bone called (1) . The spaces between the trabeculae are filled with (2) . Each trabecula consists of several lamellae, with (3) between the lamellae. Usually no (4) penetrate the trabeculae, and the trabeculae have no central canals. Nutrients pass by diffusion through the (5) to the osteocytes of the trabeculae 5

canaliculi

Most of the lamellae of compact bone are organized into sets of concentric rings with each set surrounding a (1) . Within the central canal are (2) that run parallel to the long axis of the bone. Each central canal with the lamellae and osteocytes surrounding it, is called a(n) (3) . The osteocytes are connected to each other by cell processes located in (4) . Blood vessels in the (5) supply blood to vessels in the central canal. 4

canaliculi

Bone remodeling involves the removal of old bone by (1) , and the deposition of new bone by (2) . Bone is the major storage site for (3) in the body. Calcium is removed from bones when blood calcium levels (4) , and it is deposited when dietary calcium is adequate. When a bone is broken, the bone bleeds, and a (5) is formed in the damaged area. Cells from surrounding tissue invade and form a fibrous network with islets of cartilage, which holds the bone fragments together. The zone of tissue repair between the two bone fragments is called a (6) . Osteoblasts enter the callus and begin forming (7) bone, which is later remodeled 7

cancellous

extracellular matrix is made up of collagen and proteoglycans

cartilage

Intramembranous ossification occurs when osteoblasts begin to produce bone in ossification centers of (1) membranes. Endochondral ossification begins with a (2) , which has the general shape of the mature bone. The chondrocytes of the cartilage model increase in number, hypertrophy, and die and the cartilage matrix becomes (3) , forming an ossification center. When chondrocytes die, (4) invade spaces in the center of the bone and produce bone matrix; (5) remove bone and calcified cartilage to form the medullary cavity. The center part of the diaphysis where bone first begins to appear is called the (6) . Later, (7) form in the epiphyses 2

cartilage model

two bones united by cartilage; only slight movement can occur at these joint

cartilaginous

Most of the lamellae of compact bone are organized into sets of concentric rings with each set surrounding a (1) . Within the central canal are (2) that run parallel to the long axis of the bone. Each central canal with the lamellae and osteocytes surrounding it, is called a(n) (3) . The osteocytes are connected to each other by cell processes located in (4) . Blood vessels in the (5) supply blood to vessels in the central canal. 1

central canal

Have transverse foramina and partly split spinous processes.

cervical

There are seven of these vertebrae in the vertebral column

cervical

As osteoblasts deposit new bone matrix on the surface of bones between the periosteum and the existing bone, the bone increases in (1) . Growth in the (2) of a bone, which is the major source of increased height in an individual, occurs in the (3) . Just as in endochondral ossification, (4) increase in number. Within the (5) zone, the chondrocytes line up in columns, hypertrophy, and die. The cartilage matrix is (6) , and (7) start forming bone matrix on the surface of the calcified cartilage. This process produces a zone of (8) on the diaphyseal side of the epiphyseal plate. 4

chondrocytes

Bone remodeling involves the removal of old bone by (1) , and the deposition of new bone by (2) . Bone is the major storage site for (3) in the body. Calcium is removed from bones when blood calcium levels (4) , and it is deposited when dietary calcium is adequate. When a bone is broken, the bone bleeds, and a (5) is formed in the damaged area. Cells from surrounding tissue invade and form a fibrous network with islets of cartilage, which holds the bone fragments together. The zone of tissue repair between the two bone fragments is called a (6) . Osteoblasts enter the callus and begin forming (7) bone, which is later remodeled 5

clot

Tailbone, usually consisting of four fused vertebrae.

coccyx

smooth, rounded end of a bone, where it forms a joint with another bone

condyle

proximal end of tibia

condyles of femur

Intramembranous ossification occurs when osteoblasts begin to produce bone in ossification centers of (1) membranes. Endochondral ossification begins with a (2) , which has the general shape of the mature bone. The chondrocytes of the cartilage model increase in number, hypertrophy, and die and the cartilage matrix becomes (3) , forming an ossification center. When chondrocytes die, (4) invade spaces in the center of the bone and produce bone matrix; (5) remove bone and calcified cartilage to form the medullary cavity. The center part of the diaphysis where bone first begins to appear is called the (6) . Later, (7) form in the epiphyses 1

connective tissue

Projection from the scapula that curves below the clavicle and provides attachment for arm and chest muscles.

coracoid process

Subdivision of the skull that protects the brain

cranial vault

Cancellous bone A) has no osteocytes. B) is mainly located in the diaphyses of long bones. C) is composed of delicate interconnecting rods or plates called epiphyses. D) has spaces filled with marrow. E) forms the outer surface of most bones other than long bones.

d

During bone growth at the epiphyseal plate, _____ increase in number, hypertrophy, and die. a. osteocytes. b. osteoblasts. c. osteoclasts. d. chondrocytes.

d

In compact bone, the osteocytes are connected to each other by tiny cell processes extending through tiny canals called a. lamellae. b. lacunae. c. central canals. d. canaliculi

d

Once a doorknob is grasped with the right hand, what movement of the forearm is necessary to unlatch the door (turn in a clockwise direction)? a. pronation b. rotation c. flexion d. supination e. extension

d

Which of these bones does NOT contain a paranasal sinus? a. ethmoid b. sphenoid c. temporal d. frontal e. maxilla

d

Which of these connective tissue structures cover the surface of mature bones? a. perichondrium b. periosteum c. hyaline cartilage d. b and c

d

Which of these pairs of bones or structures do NOT articulate with each other? a. mandible - temporal bone b. maxillary bone - palatine bone c. scapula - clavicle d. head of the ulna - humerus e. acetabulum of coxa - femur

d

Which of these types of joints contain fibrous connective tissue? a. syndesmosis b. suture c. gomphosis d. a and b e. all of the abov

d

Which vertebrae have long, thin spinous processes and possess articular facets on their lateral surfaces to articulate with ribs? A) cervical B) sacral. C) lumbar. D) thoracic. E) coccyx

d

Bone remodeling involves the removal of old bone by (1) , and the deposition of new bone by (2) . Bone is the major storage site for (3) in the body. Calcium is removed from bones when blood calcium levels (4) , and it is deposited when dietary calcium is adequate. When a bone is broken, the bone bleeds, and a (5) is formed in the damaged area. Cells from surrounding tissue invade and form a fibrous network with islets of cartilage, which holds the bone fragments together. The zone of tissue repair between the two bone fragments is called a (6) . Osteoblasts enter the callus and begin forming (7) bone, which is later remodeled 4

decrease

As osteoblasts deposit new bone matrix on the surface of bones between the periosteum and the existing bone, the bone increases in (1) . Growth in the (2) of a bone, which is the major source of increased height in an individual, occurs in the (3) . Just as in endochondral ossification, (4) increase in number. Within the (5) zone, the chondrocytes line up in columns, hypertrophy, and die. The cartilage matrix is (6) , and (7) start forming bone matrix on the surface of the calcified cartilage. This process produces a zone of (8) on the diaphyseal side of the epiphyseal plate. 1

diameter

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 1

diaphysis

semilunar notch

distal end of humerus

Bone matrix contains a. collagen. b. calcium and phosphate. c. proteoglycan. d. chondrocytes. e. both a and b

e

Each osteon contains A) lamellae. B) a central canal. C) osteocytes in lacunae. D) canaliculi. E) all of these

e

In the healing of bone fractures a. a blood clot forms around the break. b. a callus is formed. c. cancellous bone is formed in the callus. d. the callus may eventually disappear. e. all of the above

e

Raising your arm to point at something straight ahead of you involves A) abduction of the arm. B) adduction of the arm. C) circumduction of the arm. D) extension of the arm. E) flexion of the arm

e

Which of these is a function of bone? a. internal support and protection b. provide attachment for muscles c. mineral storage d. blood cell formation e. all of the above

e

Which of these is characteristic of a synovial joint? a. articular surfaces covered with cartilage b. joint capsule c. synovial membrane d. synovial fluid e. all of the above

e

Ossification process that produces most of the skeletal system

endochondral ossifcation

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 10

endosteum

Location where forearm muscles attach to the humerus.

epicondyles

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 4

epiphyseal line

As osteoblasts deposit new bone matrix on the surface of bones between the periosteum and the existing bone, the bone increases in (1) . Growth in the (2) of a bone, which is the major source of increased height in an individual, occurs in the (3) . Just as in endochondral ossification, (4) increase in number. Within the (5) zone, the chondrocytes line up in columns, hypertrophy, and die. The cartilage matrix is (6) , and (7) start forming bone matrix on the surface of the calcified cartilage. This process produces a zone of (8) on the diaphyseal side of the epiphyseal plate. 3

epiphyseal plate

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 2

epiphysis

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 3

epipyseal plate

Projections lateral to the condyles on the distal end of femur

epiycondyles

Temporal bone canal; allows sound to reach the eardrum

external auditory meatus

Connective tissue consists of cells separated from each other by an ____ ____

extracellular matrix

Bones that form the structure of the face, but do not contribute to the cranial vault

facial bone

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 7

fat

two bones united by fibrous tissue; exhibit little or no movement

fibrous

Bones such as the ribs, scapula, and sternum

flat

11th and 12th ribs which have no attachment to the sternum

floating ribs

hole in bone

foramen

Opening through which the spinal cord connects to the brain

foramen magnum

depression in a bone

fossa

Wide sutures (soft spots) present in newborns

frontanels

Depression where the head of the humerus articulates with the scapula

glenoid fossa

Fibrous joints consisting of pegs fitted into sockets.

gomphoses

Location for shoulder muscles to attach to the humerus

greater and lesser tubercles

glenoid fossa

head of humerus

humerus and ulna

head of radius

carpals

head of ulna

Two parts that form the hard palate.

horizontal plate of palatine and palatine process of maxilla

Bone that "floats" in the neck and is the attachment site for throat and tongue muscles

hyoid bone

Ossification process that occurs primarily in the flat bones of the skull

inframembranous ossifcation

Bone formation that occurs within connective tissue membranes.

inframembranous ossification

Dense fibrous connective tissue that separates vertebrae

intervertebral disk

Where the spinal nerves exit the vertebral column

intervertebral foramia

Bones such as the vertebrae and facial bones

irregular

Surrounds the joint cavity; portions may be thickened to form ligaments.

joint capsule

The space surrounding the ends of articulating bones

joint cavity

depression at the superior end of the sternum

jugular notch

Bone is formed in thin sheets of extracellular matrix called (1) , with bone cells, called (2) between the lamellae. The osteocytes are located within spaces called (3) . Cell processes extend from the osteocytes across the extracellular matrix of the lamellae within tiny canals called (4) 3

lacunae

Bone is formed in thin sheets of extracellular matrix called (1) , with bone cells, called (2) between the lamellae. The osteocytes are located within spaces called (3) . Cell processes extend from the osteocytes across the extracellular matrix of the lamellae within tiny canals called (4) 1

lamellae

Two parts that form the vertebral arch

lamina and pedicle

As osteoblasts deposit new bone matrix on the surface of bones between the periosteum and the existing bone, the bone increases in (1) . Growth in the (2) of a bone, which is the major source of increased height in an individual, occurs in the (3) . Just as in endochondral ossification, (4) increase in number. Within the (5) zone, the chondrocytes line up in columns, hypertrophy, and die. The cartilage matrix is (6) , and (7) start forming bone matrix on the surface of the calcified cartilage. This process produces a zone of (8) on the diaphyseal side of the epiphyseal plate. 2

length

extracellular matrix is made up primarily of collagen

ligaments, tendons

Bones longer than they are wide, e.g., limb bones

long

There are four types of bone, described by their shape as

long, short, flat, and irregular

Superior articular facets of these vertebrae face medially and "lock" with laterally facing inferior articular facets of the vertebra above it.

lumbar

There are five of these vertebrae in the vertebral column.

lumbar

Prominence on each side of the ankle that forms a partial socket for the talus bone

malleolus

Depression where mandible articulates with temporal bone

mandibular fossa

most superior part of the sternum

manubrium

Cancellous (spongy) bone consists of delicate interconnecting rods or plates of bone called (1) . The spaces between the trabeculae are filled with (2) . Each trabecula consists of several lamellae, with (3) between the lamellae. Usually no (4) penetrate the trabeculae, and the trabeculae have no central canals. Nutrients pass by diffusion through the (5) to the osteocytes of the trabeculae 2

marrow

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 6

marrow

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 5

medullary cavity

Three bony shelves of the nasal cavity that help to warm and moisten the air

nasal conchae

Perpendicular bone and cartilage that divide the nasal cavity into right and left halves

nasal septum

Opening that passes from the orbit into the nasal cavity

nasalocrimal canal

Opening through which the optic nerve passes into the skull

optic foramen

Cone-shaped fossa that surrounds the eye

orbit

Structure in the skull that surrounds and protects the eye

orbit

Large openings through which nerves or blood vessels communicate with the eye

orbital fissures

As osteoblasts deposit new bone matrix on the surface of bones between the periosteum and the existing bone, the bone increases in (1) . Growth in the (2) of a bone, which is the major source of increased height in an individual, occurs in the (3) . Just as in endochondral ossification, (4) increase in number. Within the (5) zone, the chondrocytes line up in columns, hypertrophy, and die. The cartilage matrix is (6) , and (7) start forming bone matrix on the surface of the calcified cartilage. This process produces a zone of (8) on the diaphyseal side of the epiphyseal plate. 8

ossifcation

As osteoblasts deposit new bone matrix on the surface of bones between the periosteum and the existing bone, the bone increases in (1) . Growth in the (2) of a bone, which is the major source of increased height in an individual, occurs in the (3) . Just as in endochondral ossification, (4) increase in number. Within the (5) zone, the chondrocytes line up in columns, hypertrophy, and die. The cartilage matrix is (6) , and (7) start forming bone matrix on the surface of the calcified cartilage. This process produces a zone of (8) on the diaphyseal side of the epiphyseal plate. 7

osteoblast

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 11

osteoblast

Intramembranous ossification occurs when osteoblasts begin to produce bone in ossification centers of (1) membranes. Endochondral ossification begins with a (2) , which has the general shape of the mature bone. The chondrocytes of the cartilage model increase in number, hypertrophy, and die and the cartilage matrix becomes (3) , forming an ossification center. When chondrocytes die, (4) invade spaces in the center of the bone and produce bone matrix; (5) remove bone and calcified cartilage to form the medullary cavity. The center part of the diaphysis where bone first begins to appear is called the (6) . Later, (7) form in the epiphyses 4

osteoblast

Bone remodeling involves the removal of old bone by (1) , and the deposition of new bone by (2) . Bone is the major storage site for (3) in the body. Calcium is removed from bones when blood calcium levels (4) , and it is deposited when dietary calcium is adequate. When a bone is broken, the bone bleeds, and a (5) is formed in the damaged area. Cells from surrounding tissue invade and form a fibrous network with islets of cartilage, which holds the bone fragments together. The zone of tissue repair between the two bone fragments is called a (6) . Osteoblasts enter the callus and begin forming (7) bone, which is later remodeled 2

osteoblasts

Ossification is the formation of bone by _____

osteoblasts

Intramembranous ossification occurs when osteoblasts begin to produce bone in ossification centers of (1) membranes. Endochondral ossification begins with a (2) , which has the general shape of the mature bone. The chondrocytes of the cartilage model increase in number, hypertrophy, and die and the cartilage matrix becomes (3) , forming an ossification center. When chondrocytes die, (4) invade spaces in the center of the bone and produce bone matrix; (5) remove bone and calcified cartilage to form the medullary cavity. The center part of the diaphysis where bone first begins to appear is called the (6) . Later, (7) form in the epiphyses 5

osteoclast

Bone remodeling involves the removal of old bone by (1) , and the deposition of new bone by (2) . Bone is the major storage site for (3) in the body. Calcium is removed from bones when blood calcium levels (4) , and it is deposited when dietary calcium is adequate. When a bone is broken, the bone bleeds, and a (5) is formed in the damaged area. Cells from surrounding tissue invade and form a fibrous network with islets of cartilage, which holds the bone fragments together. The zone of tissue repair between the two bone fragments is called a (6) . Osteoblasts enter the callus and begin forming (7) bone, which is later remodeled 1

osteoclasts

Cancellous (spongy) bone consists of delicate interconnecting rods or plates of bone called (1) . The spaces between the trabeculae are filled with (2) . Each trabecula consists of several lamellae, with (3) between the lamellae. Usually no (4) penetrate the trabeculae, and the trabeculae have no central canals. Nutrients pass by diffusion through the (5) to the osteocytes of the trabeculae 3

osteocytes

Most of the lamellae of compact bone are organized into sets of concentric rings with each set surrounding a (1) . Within the central canal are (2) that run parallel to the long axis of the bone. Each central canal with the lamellae and osteocytes surrounding it, is called a(n) (3) . The osteocytes are connected to each other by cell processes located in (4) . Blood vessels in the (5) supply blood to vessels in the central canal. 3

osteon

Air-filled cavities that open into the nasal cavit

paranasal sinuses

Located within the major tendon of the thigh muscles; enables the tendon to turn the corner over the knee.

patella

Each long bone consists of a shaft, called the (1) , and a(n) (2) at each end of the bone. A long bone that is still growing has a(n) (3) , composed of cartilage, between each epiphysis and the diaphysis. When bone growth stops, the epiphyseal plate is replaced by bone, and is called the (4) . The large cavity in the diaphysis is called the (5) . This space, and other spaces are filled with soft tissue called (6) . Yellow marrow consists mostly of (7) , whereas red marrow consists of (8) cells. Most of the outer surface of the bone is covered by a connective tissue layer called the (9) , which contains blood vessels and nerves. The medullary cavity is lined with a thinner connective tissue membrane, the (10) . The periosteum and endosteum contain (11) , which function in the formation, repair, and remodeling of bone. 9

periosteum

Most of the lamellae of compact bone are organized into sets of concentric rings with each set surrounding a (1) . Within the central canal are (2) that run parallel to the long axis of the bone. Each central canal with the lamellae and osteocytes surrounding it, is called a(n) (3) . The osteocytes are connected to each other by cell processes located in (4) . Blood vessels in the (5) supply blood to vessels in the central canal. 5

periosteum, endosteum

Two parts that form the nasal septum

perpendicular plate of ethmoid and vomer

Intramembranous ossification occurs when osteoblasts begin to produce bone in ossification centers of (1) membranes. Endochondral ossification begins with a (2) , which has the general shape of the mature bone. The chondrocytes of the cartilage model increase in number, hypertrophy, and die and the cartilage matrix becomes (3) , forming an ossification center. When chondrocytes die, (4) invade spaces in the center of the bone and produce bone matrix; (5) remove bone and calcified cartilage to form the medullary cavity. The center part of the diaphysis where bone first begins to appear is called the (6) . Later, (7) form in the epiphyses 6

primary ossifcation center

As osteoblasts deposit new bone matrix on the surface of bones between the periosteum and the existing bone, the bone increases in (1) . Growth in the (2) of a bone, which is the major source of increased height in an individual, occurs in the (3) . Just as in endochondral ossification, (4) increase in number. Within the (5) zone, the chondrocytes line up in columns, hypertrophy, and die. The cartilage matrix is (6) , and (7) start forming bone matrix on the surface of the calcified cartilage. This process produces a zone of (8) on the diaphyseal side of the epiphyseal plate. 5

proliferating

Location of attachment of the biceps brachii to the radius

radial tuberosity

Five fused vertebrae that have a median crest and a hiatus.

sacrum

Intramembranous ossification occurs when osteoblasts begin to produce bone in ossification centers of (1) membranes. Endochondral ossification begins with a (2) , which has the general shape of the mature bone. The chondrocytes of the cartilage model increase in number, hypertrophy, and die and the cartilage matrix becomes (3) , forming an ossification center. When chondrocytes die, (4) invade spaces in the center of the bone and produce bone matrix; (5) remove bone and calcified cartilage to form the medullary cavity. The center part of the diaphysis where bone first begins to appear is called the (6) . Later, (7) form in the epiphyses 7

secondary ossification centers

Structure resembling a saddle that is occupied by the pituitary gland

sella turcia

Bones as broad as they are long, e.g., ankle and wrist bones.

short

Ridge that runs across the posterior surface of the scapula

spine

Lumps that can be seen and felt down the midline of the back

spinous process

Slight elevation at the junction of the manubrium and body of the sternum; landmark for locating the second rib

sternal angle

Attachments for the ligaments of the wrists

styloid processes

Fibrous joints between the bones of the skull

sutures

Fibrous joints where bones are separated by some distance and are held together by ligaments

syndesmoses

Freely moving joints that contain fluid in a cavity surrounding the ends of bones.

synovial

Tissue that lines the joint capsule except over the articular cartilage; produces synovial fluid.

synovial membrane

distal end of tibia and fibula

talus

Two bones that form the zygomatic arch

temportal and zygomatic

attach muscles to bones

tendon

There are twelve of these vertebrae in the vertebral column

thoarcic

articular facets for ribs present

thoracic

Two sections of the vertebral column that curve posteriorly

thoracic and sacral

head of fibula

tibia

Location on the tibia where anterior thigh muscles attach

tibial tuberosity

Cancellous (spongy) bone consists of delicate interconnecting rods or plates of bone called (1) . The spaces between the trabeculae are filled with (2) . Each trabecula consists of several lamellae, with (3) between the lamellae. Usually no (4) penetrate the trabeculae, and the trabeculae have no central canals. Nutrients pass by diffusion through the (5) to the osteocytes of the trabeculae 1

trabeculae

Points of muscle attachment near the head of the femur

trochanters

Contains the spinal cord; all of them together form the vertebral canal

vertebral foramen


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