SKELETAL

Question 1

What are the functions of skeletal system?

Answer 1

 Framework of the body  Support and attachment  Protection/enclosure  Movement and locomotion (tendons,ligaments)  Storage of minerals ◦ (ca, Phosporus)  Production of blood cells.

Question 2

How many bones do we have? (adult)

Answer 2

206 BONES

Question 3

T or F

Babies have 300 bones but fused when developed

Answer 3

T

Question 4

◦ Upper and lower extremities/appendages. ◦ For movement and locomotion

Answer 4

LONG BONES

Question 5

Study that deals/specialize with bones

Answer 5

Orthopedic medicine

Question 6

◦ Upper and lower extremities/appendages. ◦ For movement and locomotion

Answer 6

Long Bones

Question 7

Give examples for long bones

Answer 7

Radius, ulna, femur, tibia, fibula

Question 8

◦ Wrists and ankle. ◦ Helps transfers force between long bones

Answer 8

Short Bones

Question 9

Give examples for short bones

Answer 9

carpal, tarsal, metacarpal, metatarsal, phalanges

Question 10

◦ Provides enclosure and barrier around soft organs. ◦ Skull, sternum, ribs, scapulae

Answer 10

Flat Bones

Question 11

Give examples for flat bones

Answer 11

skull, breastbone/sternum, scapula

Question 12

How many pairs of ribs?

Answer 12

12

Question 13

How many pairs of ribs (TRUE)

Answer 13

Seven pairs

Question 14

How many pairs of ribs (FALSE)

Answer 14

five

Question 15

How many ribs (floating)

Answer 15

two pairs

Question 16

Protection ◦ Allows bending and flexing ◦ vertebrae

Answer 16

`Irregular Bones ◦

Question 17

=made up of cancellous

=pores

Answer 17

spongy bone

Question 18

bone forming cells

Answer 18

Osteoblast

Question 19

mature bone cells

Answer 19

Osteocytes –

Question 20

=beginning to develop
=within the connective tissue membrane
=ossification centers

Answer 20

Intramembranous

Question 21

Inside hyaline cartilage

Answer 21

Endochondral

Question 22

T or F

Endochondral starts 4th,5th, 6th week (embryonic stage until it is delivered

Answer 22

T

Question 23

formation of new bones from the embryonic hyaline cartilage.

Answer 23

OSSIFICATION

Question 24

=process in which bone develops from preexisting hyaline cartilage
=begins around the 6th week of development and continues till about the mid twenties
=includes vertebrae, ribs, sternum, scapula, pelvis, and bones of the limbs

Answer 24

Endochondral Ossification

Question 25

Laging may blood vessel to provide nourishment/development of blood vessels

Answer 25

Ossification Center

Question 26

Outermost, covers the bone

=calcium develops here

Answer 26

Periosteum

Question 27

T or F

Endochondral happens in medullary cavity

Answer 27

T

Question 28

 Dynamic structures  Removal of existing bones by osteoclasts  Deposition of new bones by osteoblasts  For changes of bone shape  Calcium ion regulation in body fluids  Occurs at the epiphyseal plate  To maintain normal blood calcium levels

Answer 28

Bone remodeling

Question 29

This ruptures the old bones

Answer 29

osteoclast

Question 30

T or F

Thyroid, endocrine gland also regulate Ca production

Answer 30

T

Question 31

This engulfs bone cells (phagocytosis) that has been ruptured

Answer 31

Macrophage (in reversal stage)

Question 32

= remodeling
=producing new bone cells
= minerilazation: Ca, Mg, P

Answer 32

Osteoblast

Question 33

Stages in the repair of a broken bone:

Answer 33

1) the formation of hematoma at the break ◦
2) the formation of a fibrocartilaginous callus, ◦
3) the formation of a bony callus ◦
4) remodeling and addition of compact bone.

Question 34

=mesh work of cotton-like fibers

=hardened connective tissue

Answer 34

Bony callus

Question 35

Also means blood clot

Answer 35

Hematoma

Question 36

T or F

Fibrocartilaginous is brought by protein fibrin

Answer 36

T

Question 37

Totally dislocated (type of bone fracture)

Answer 37

Oblique displaced

Question 38

twisted (type of bone fracture)

Answer 38

Spiral

Question 39

at the lateral portion (type of bone fracture)

Answer 39

Greenstick

Question 40

crushed (type of bone fracture)

Answer 40

Comminuted

Question 41

Bones do not protrude out (Classification of bone fracture)

Answer 41

Closed

Question 42

Bones are protruded out of the skin
=susceptible for infection
(Classification of bone fracture)

Answer 42

Open

Question 43

Either open or close(Classification of bone fracture)

Answer 43

Complicated

Question 44

mechanism by which the body maintains adequate blood calcium levels.

Answer 44

Calcium Homeostasis

Question 45

T or F.

Calcium deficiency cannot lead to bone softening

Answer 45

F

Question 46

It regulates calcium levels

Answer 46

Hormones

Question 47

Give examples of hormones that are important for calcium homeostasis

Answer 47

Parathyroid hormone (PTH) ◦ Vitamin D ◦ Calcitonin (reduces blood Ca level)

Question 48

Synthesized in the liver, absorbed from the kidney

Answer 48

Vitamin D

Question 49

Secreted by parathyroid gland

=Reduces blood Ca level

Answer 49

Calcitonin

Question 50

T or F

The lower the blood Ca, parathyroid will increase PTH

Answer 50

t

Question 51

What is the mechanism of Calcium Homeostasis

Answer 51

 PTH stimulates osteoclasts to break down bone
 PTH stimulates kidney to take up calcium from urine returning it to the blood.
 PTH stimulates VITAMIN D which increase calcium absorption from the intestine.

Question 52

This type of skeleton gives framework

Answer 52

Axial skeleton

Question 53

 bones of the head and trunk of a vertebrate.
 consists of 80 bones
 composed of six parts; skull bones, Auditory ossicles, Facial bones, rib cage, Sternum, vertebral column

Answer 53

Axial skeleton

Question 54

Fill in the blanks

◦ skull bones – \_\_ 
 Auditory ossicles - \_\_ Facial bones - \_\_
◦ rib cage – \_\_\_  
◦ Sternum – \_\_\_ 
◦ vertebral column – \_\_\_

Answer 54

◦ skull bones – 22 
◦ Auditory ossicles - 6 
◦ Facial bones - 22 
◦ rib cage – 24 bones 
◦ Sternum – 1 bone 
◦ vertebral column – 26

Question 55

=Neurocranium (braincase) =Facial/hyoid bones

Answer 55

Skull

Question 56

Fill in the blanks

 Neurocranium (braincase):__

 Facial/hyoid bones:__

Answer 56

 Neurocranium (braincase) – 8 bones  Facial/hyoid bones – 14 bones

Question 57

Give the parts of paranasal sinuses

Answer 57

Frontal sinus, Ethmoidal sinus, Sphenoidal sinus, Maxillary sinus

Question 58

Give the parts of Vertebral Column

Answer 58

Cervical, thoracic, lumbar, sacrum, Coccyx

Question 59

Fill in the blanks

Cervical:__, thoracic:___, lumbar:__, sacrum:___, Coccyx:___

Answer 59

Cervical:7, thoracic:12, lumbar:5, sacrum:5, Coccyx:4

Question 60

This means hole

Answer 60

Foramen

Question 61

a triangular bone in the lower back formed from fused vertebrae and situated between the two hipbones of the pelvis.

Answer 61

Sacrum

Question 62

 arrangement of ribs attached to the thoracic vertebrae and sternum  encloses and protects the heart and lungs  Prevents collapse of thorax during respiration

Answer 62

Rib cage

Question 63

Directly articulated to the vertebral column

Answer 63

True ribs (1-7)

Question 64

Articulated to the cartilage

Answer 64

False ribs (8-12)

Question 65

Just floating, not articulated

Answer 65

Floating ribs (11-12)

Question 66

Making movement and locomotion

=shoulder girdle, arm and forearm, bones in the hands, pelvis bones bones in the legs

Answer 66

Appendicular skeleton

Question 67

 _ bones in the shoulder girdle ◦ clavicle ◦ scapula
 _ bones in the arm and forearm
◦ (humerus, ulna, and radius)
 _ bones in the hands ◦
(carpals _, metacarpals , phalanges _ and sesamoid)
 _ pelvis bones.
 _ bones in the legs ◦ (femur, tibia, patella, and fibula)

Answer 67

 4 bones in the shoulder girdle ◦ clavicle ◦ scapula
 6 bones in the arm and forearm
◦ (humerus, ulna, and radius)
 58 bones in the hands ◦
(carpals 16, metacarpals 10, phalanges 28 and sesamoid 4)
 2 pelvis bones.
 8 bones in the legs ◦ (femur, tibia, patella, and fibula)

Question 68

This connects the upper extrimities

Answer 68

Pectoral girdle

Question 69

▪ subdivided into the pelvic girdle and the pelvic spine.
▪ composed of the appendicular hip bones (ilium, ischium, and pubis)
▪ oriented in a ring
▪ connects the pelvic region of the spine to the lower limbs.
▪ pelvic spine consists of the sacrum and coccyx.

Answer 69

Pelvic girdle & lower limb

Question 70

It connects the pelvic girdle to the lower extremities

Answer 70

Acetabulum

Question 71

 areas where 2 or more bones meet  Most joints are mobile, allowing the bones to move.  consist of the following: Cartilage

Answer 71

Joints or aticulation

Question 72

Give examples for fibrous little or no movement (Classification of joints)

Answer 72

sutures, syndesmoses, gomphoses

Question 73

Give examples for cartilaginous slight movement (Classification of joints)

Answer 73

synchondroses, symphses

Question 74

Give examples for synovial free movable joints (Classification of joints)

Answer 74

plane, saddle, hinge, pivot, ball and socket, ellipsoid

Question 75

▪ connection between two bones consisting of a cartilage lined cavity filled with fluid ▪ most flexible type of joint between bones ▪ bones are not physically connected and can move more freely in relation to each other.

Answer 75

Structure of synovial joint

Question 76

What are the effects of aging on skeletal and joints?

Answer 76

 Decrease in bone matrix, collagen resulting to brittleness
 Increase bone fracture
 Decrease in calcium absorption
 Bone loss causes deformity, loss of height, pain, stiffness
◦ Stoop posture
◦ Loss of teeth

Question 77

➢Low bone mass & deterioration of bone tissue resulting to bone resorption, fragility and fractures. ➢Hormonal influence.

Answer 77

OSTEOPOROSIS

Question 78

cylindrical bones that are longer than they are wide

Answer 78

Long bones –

Question 79

are as long as they are wide

Answer 79

Short bones –

Question 80

usually curved rather than flat. They arise when bone tissue invades and hardens the fibrous membrane.

Answer 80

Flat bones –

Question 81

shapes are complex

Answer 81

Irregular bones-

Question 82

a small independent bone or bony nodule developed in a tendon where it passes over an angular structure, typically in the hands and feet.

Answer 82

Sesamoid

Question 83

band of dense regular connective tissue bundles made of collagenous fibers, with packets protected by dense irregular connective tissue sheaths. Ligaments connect bones to other bones to form joints.

Answer 83

Ligament

Question 84

a dense layer of vascular connective tissue enveloping the bones except at the surfaces of the joints.

Answer 84

Periosteum

Question 85

smooth, white tissue that covers the ends of bones where they come together to form joints

Answer 85

Articular cartilage

Question 86

the shaft or central part of a long bone

Answer 86

Diaphysis -

Question 87

the end part of a long bone, initially growing separately from the shaft.

Answer 87

Epiphysis -

Question 88

the central cavity of bone shafts where red bone marrow and yellow bone marrow (adipose tissue) is stored; hence, the medullary cavity is also known marrow cavity

Answer 88

Medullary Cavity

Question 89

the thin vascular membrane of connective tissue that lines the inner surface of the bony tissue that forms the medullary cavity of long bones.

Answer 89

Endosteum

Question 90

is made up of spongy, porous, bone tissue that is filled with red bone marrow. It is found in the ends of long bones and the bones of the pelvis, ribs, vertebrae, and skull

Answer 90

Cancellous Bone

Question 91

are air-filled extensions of the nasal cavity. There are four paired sinuses – named according to the bone in which they are located – maxillary, frontal, sphenoid, and ethmoid. Each sinus is lined by ciliated pseudostratified epithelium, interspersed with mucus-secreting goblet cells.

Answer 91

The paranasal sinuses

Question 92

is a series of approximately 33 bones called vertebrae, which are separated by intervertebral discs. The column can be divided into five different regions, with each region characterized by a different vertebral structure.

Answer 92

The vertebral column

Question 93

is the set of bones in the appendicular skeleton which connects to the arm on each side.
= responsible for providing structural support to your shoulder region on the left and right sides of your body
=They also allow for a broad range of motion, connecting muscles necessary for shoulder and arm movement.

Answer 93

The shoulder girdle or pectoral girdle

Question 94

is formed by a single bone, the hip bone, or coxal bone (coxal = “hip”), which serves as the attachment point for each lower limb.
Each

Answer 94

The pelvic girdle (hip girdle)

Question 95

=also known as a plane joint or planar joint, is a common type of synovial joint formed between bones that meet at flat or nearly flat articular surfaces.
= allow the bones to glide past one another in any direction along the plane of the joint — up and down, left and right, and diagonally.

Answer 95

Gliding joint

Question 96

is a typical class of synovial joint that includes the ankle, elbow, and knee joints. Hinge joints are formed between two or more bones where the bones can only move along one axis to flex or extend.

Answer 96

Hinge Joint

Question 97

A condyloid joint (also called condylar, ellipsoidal, or bicondylar) is an ovoid articular surface or condyle that is received into an elliptical cavity. Which permits movement in two planes, allowing flexion, extension, adduction, abduction, and circumduction.

Answer 97

Ellipsoid

Question 98

a freely moveable joint (diarthrosis) that allows only rotary movement around a single axis. The moving bone rotates within a ring that is formed from a second bone and adjoining ligament.

Answer 98

Pivot

Question 99

The saddle joint gets its name because the bone-forming one part of the joint is concave (turned inward) at one end and looks like a saddle. The other bone’s end is convex (turned outward), and looks like a rider in a saddle

Answer 99

Saddle

Question 100

a natural or manufactured joint or couplings, such as the hip joint, in which a partially spherical end lies in a socket, allowing multidirectional movement and rotation.

Answer 100

Ball and Socket