Skeletal System: Articular System, Skull and Cranial Fossae

Question 1

Functions of Bones

Answer 1

Support, protection, body movement

Question 2

Forms a rigid framework to which the muscles of the body are attached; provides structural support

Answer 2

Skeletal system

Question 3

encloses the brain

Answer 3

Skull

Question 4

encloses the spinal cord

Answer 4

Vertebral column

Question 5

(made of ribs and sternum: manubrium, sternal body and xiphoid process) – protects the heart, lungs (largest), great vessels, liver and spleen

Answer 5

Rib cage

Question 6

T or F: Sites where blood cells are produced are protected within the spongy bone tissue of certain bones

Answer 6

T

Question 7

2 attachments of muscles

Answer 7

origin and insertion

Question 8

T or F: Skeletal muscles use bones as levers (with joints acting as pivots) to move the body

Answer 8

T

Question 9

Process of blood cell formation

Answer 9

Hemopoiesis

Question 10

T or F: All blood cells are made in the marrow (specifically white bone marrow) of certain bones

Answer 10

F, red bone marrow

Question 11

Blood cell production is influenced by ________ which is produced by the kidneys which induces erythropoiesis

Answer 11

Erythropoietin

Question 12

Lipid is stored in the adipose tissue within the _________ of certain bones

Answer 12

medullary cavity

Question 13

Adipose tissues and lipid contents are known as ________ .

Answer 13

yellow bone marrow

Question 14

Mineral which gives bones firmness and strength

Answer 14

Calcium and Phosphorous

Question 15

Percentage of body’s calcium stored in bones

Answer 15

99%

Question 16

Percentage of body’s phosphorous stored in bones

Answer 16

85%

Question 17

Occurs throughout life (embryo -> adulthood)

Answer 17

Bone formation

Question 18

Begins at about 4th week of embryonic development

Answer 18

Ossification/Bone formation

Question 19

Bone tissues are derived from specialized migratory cells of mesoderm known as
_________

Answer 19

Mesenchyme

Question 20

T or F: Before week 8, bones are made of fibrous membrane cartilage.

Answer 20

T

Question 21

T or F: X-ray readings of children appear lighter due to incomplete ossification.

Answer 21

F, darker.

Question 22

2 routes of ossification

Answer 22

Endochondral and Intramembranous

Question 23

Stages of Endochondral Ossification

Answer 23

1. Formation of bone collar around hyaline cartilage
2. Cavitation of HC within the cartilage model
3. Invasion of internal cavities by the periosteal bud and spongy bone formation
4. Formation of medullary cavity as ossi continues
5. Ossification of epiphyses; completed = HC remains only in the epiphyseal plates and articular cartilages

Question 24

T or F: Hyaline cartilage remains only in the epiphyseal plates and articular cartilages when ossification is completed

Answer 24

T

Question 25

Embryonic Mesenchymal Cells -> bone

Answer 25

Intramembranous Ossification

Question 26

Embryonic mesenchymal cells -> chondroblasts -> cartilage matrix -> bone

Answer 26

Endochondral ossification

Question 27

Ossification: Direct Mineralization from mesenchyme

Answer 27

Intramembranous Ossification

Question 28

Intramembranous Ossification: example of bones

Answer 28

skull cap (calvaria), some facial bones, clavicle, scapula, pelvis, and part of mandible

Question 29

Avascular organ; part of the fibrous layer of the eyes with no blood supply

Answer 29

Cornea

Question 30

Cornea: Necessary nutrients are received with the help of fluid from _________

Answer 30

Ciliary humor

Question 31

Due to the absence of direct blood supply, rejection after cornea transplant is controlled by _______ instead of immunosuppressant drugs.

Answer 31

Steroids

Question 32

Bone classification accrdg to origin

Answer 32

Intramembranous and Endochondral

Question 33

Bone classification accrdg to structure

Answer 33

Compact bone and spongy/cancellous bone

Question 34

Commonly seen as a superficial layer of bone that is very hard and dense solid

Answer 34

Compact Bone

Question 35

Consists of precise arrangements of microscopic cylindrical structures oriented parallel to the long ax

Answer 35

Compact Bone

Question 36

Column-like structures that run parallel to the long axis of the bone; Matrix is laid down in concentric rings (lamellae)

Answer 36

Haversian System

Question 37

Parts of Haversian System

Answer 37

Lamellae, Central Canal, Lacunae, Canaliculi, Perforationg (Volkmann’s) Canal

Question 38

Parts of Haversian System: concentric layers that surround the central canals

Answer 38

Lamellae

Question 39

Parts of Haversian System: contains minute nutrient vessels and nerves

Answer 39

Central canal

Question 40

Parts of Haversian System: spaces that contain osteocytes connected to one another by tiny channels called canaliculi

Answer 40

Lacunae

Question 41

Parts of Haversian System: tiny channels that process osteocytes and connect lacunae

Answer 41

Canaliculi

Question 42

Parts of Haversian System: connect osteons with blood vessels and nerves

Answer 42

Perforating (Volkmann’s) Canal

Question 43

Located deep to the compact bone tissue

Answer 43

Spongy/Cancellous Bone

Question 44

Porous; with inner layer of honey-comb, flat, minute, needle-like projections called Trabeculae

Answer 44

Spongy/Cancellous Bone

Question 45

inner layer of honey-comb, flat, minute, needle-like projections in Spongy/Cancellous Bone

Answer 45

Trabeculae

Question 46

Bone classification accrdg to location

Answer 46

Axial and Appendicular

Question 47

Found at the “axis” or the central line of the body

Answer 47

Axial

Question 48

Bone classification accrdg to location: 80 bones

Answer 48

Axial

Question 49

Found within the “appendages”; 126 bones

Answer 49

Appendicular

Question 50

Netter’s number of appendicular bones

Answer 50

134 bones (8 sesamoid bones on both hands and feet)

Question 51

Bone classification accrdg to shape

Answer 51

Long, short, flat, irregular, sesamoid bones

Question 52

Much longer than they are wider; Bones of the limbs (usually has a shaft and 2 expanded ends)

Answer 52

Long bones

Question 53

Cuboidal in shape

Answer 53

Short bones

Question 54

Example of Short bone:

Answer 54

Carpal Bones: Scaphoid, Lunate, Triquetral, Pisiform, Trapezium, Trapezoid, Capitate, Hamate
Tarsal Bones: Talus, Calcaneus, Navicular bone, cuboid, 3 cuneiform

Question 55

Thin, flattened and slightly curved type of bone

Answer 55

Flat bone

Question 56

Other bones which cannot be classified as long, short or flat

Answer 56

Irregular bone

Question 57

Ex. of flat bones

Answer 57

Scapulae, sternum, ribs, most boned of skull, facial bones except sphenoid and ethmoid

Question 58

Ex. of irregular bones

Answer 58

Sphenoid and ethmoid, vertebrae, pelvic bone

Question 59

Small nodules of bone; Found in certain tendons where they rub over bony surfaces; Protects tendon from excessive wear and tear by altering the direction of pull of a tendon

Answer 59

Sesamoid bones

Question 60

Ex. of sesamoid bone

Answer 60

Patella

Question 61

Point of articulation between bones; May or may not permit movement

Answer 61

Joint

Question 62

Functions of joint:

Answer 62

o Weight bearing (knee and hip joints)
o Movement
o Stability (Hip joint)
o Lubrication

Question 63

Joints accrdg to structure

Answer 63

Synovial, fibrous, cartilaginous

Question 64

Bones are separated by joint cavity lubricated by synovial fluid; Enclosed in a fibrous joint capsule

Answer 64

Synovial joint

Question 65

Type of joint: Shoulder, hip, elbow, knee, carpal, interphalangeal

Answer 65

Synovial joint

Question 66

Held together by collagenous fibers; From the matrix of one bone into the matrix of the next; No joint cavity

Answer 66

Fibrous joint

Question 67

Type of joint: Skull sutures, teeth joints (Gomphoses), radio-ulnar joints, tibio-fibular joints

Answer 67

Fibrous joint

Question 68

Bones held togethers by cartilage; No joint cavity

Answer 68

Cartilaginous joint

Question 69

Type of joint: Epiphyseal plate of long bones (where bone growth occurs), costosternal joints, pubic symphysis, intervertebral discs

Answer 69

Cartilaginous joint

Question 70

Pubic symphysis accommodate pregnancy through the production of _____ hormone

Answer 70

Relaxin

Question 71

Joints according to articulation surfaces:

Answer 71

Plane, Hinge, Pivot, Condyloid, Saddle, Ball and Socket

Question 72

Type of joint: Flat and allows short slipping/gliding movements

Answer 72

Plane

Question 73

Type of joint: Cylindrical projection of one bone fits into a trough-shaped process; For flexion and extension

Answer 73

Hinge

Question 74

Type of joint: Rounded end of one bone protrudes into a ring; For rotation

Answer 74

Pivot

Question 75

Type of joint: Oval articular surface of one bone fits into complementary depression
 For flexion, extension, abduction, adduction, circumduction

Answer 75

Condyloid

Question 76

Type of joint: Concave and convex areas fit one another

Answer 76

Saddle

Question 77

Type of joint: Spherical or semi-spherical articulates with cup-like socket
 Allows freedom of motion (combines condyloid + medial & lateral rotation)

Answer 77

Ball and socket

Question 78

Type of joint: Elbow joint, interphalangeal joints

Answer 78

Hinge

Question 79

Type of joint: Atlantoaxial, radio-ulnar joint

Answer 79

Pivot

Question 80

Type of joint: Radiocarpal, metacarpophalangeal joints

Answer 80

Condyloid

Question 81

Type of joint: Carpo-metacarpal joints of thumb

Answer 81

Saddle

Question 82

Type of joint: Shoulders

Answer 82

Ball and socket

Question 83

Type of joint: Intercarpal, intertarsal

Answer 83

Plane

Question 84

Joints according to degree of movement

Answer 84

Diarthroses, amphiarthroses, synarthroses

Question 85

Freely movable joint

Answer 85

Diarthroses

Question 86

Slightly movable joint

Answer 86

Amphiarthroses

Question 87

Non-movable joint

Answer 87

Synarthroses

Question 88

Joints accrdg to joint movement

Answer 88

Uniaxial, Biaxial, Multiaxial

Question 89

Type of joint: Move in 1 plane

Answer 89

Uniaxial

Question 90

Type of joint: Move in 2 plane

Answer 90

Biaxial

Question 91

Type of joint: Move in 3 plane

Answer 91

Multiaxial

Question 92

Articulating surfaces of shoulder joint

Answer 92

round head of humerus & glenoid fossa

Question 93

Articulating surfaces of elbow joint

Answer 93

trochlea and capitulum of humerus & trochlear notch of the ulna and head of radius

Question 94

Articulating surfaces of wrist joint

Answer 94

distal end of radius and articular disc above & scaphoid, lunate and triquetral bones

Question 95

Articulating surfaces of hip joint

Answer 95

Head of femur & acetabulum (commonly fractured bones, esp in girls)

Question 96

Articulating surfaces of knee joint

Answer 96

2 articulation system - Lower end of femur & femur; round condyles of femur & condyles of tibia

Question 97

Articulating surfaces of ankle joint

Answer 97

Lower end of tibia and 2 malleoli & body of talus

Question 98

T or F: Fibula is connected to patella and can therefore be used as graft (along with floating ribs)

Answer 98

F, not connected

Question 99

Disadvantage of freely movable joints

Answer 99

maiipit blood vessels

Question 100

How many bones are there in the skull?

Answer 100

22 bones

Question 101

Bones of the skull are attached to each other by _____, are immobile, and form the cranium.

Answer 101

Sutures

Question 102

Divisions of the skull

Answer 102

Cranium, Viscerocranium, Auditory ossicles

Question 103

2 division of cranium

Answer 103

Calvaria and Base

Question 104

How many bones are there in the cranium?

Answer 104

8 bones

Question 105

Paired bones of the cranium

Answer 105

Parietal and Temporal bones

Question 106

Unpaired bones of the cranium

Answer 106

Frontal, Occipital, Sphenoid, Ethmoid bones

Question 107

Floor of the cranial cavity

Answer 107

Base

Question 108

upper domed part, covers the cranial cavity containing the brain

Answer 108

Calvaria/Vault

Question 109

 Facial skeleton; composed of 8 bones
 Lower anterior part
 Make up the contour of the face

Answer 109

Viscerocranium

Question 110

Paired bones of the viscerocranium

Answer 110

Maxillary, Lacrimal (near the orbit), Nasal, Zygomatic (forms the cheeks), Inferior nasal conchae (lateral projections of the nasal cavity), Palatine

Question 111

Unpaired bones of the viscerocranium

Answer 111

Vomer

Question 112

Found in the middle ear and functions to transmit vibrations of tympanic membranes; First bones to be fully ossified during development and are essentially mature at birth

Answer 112

Auditory ossicles

Question 113

Unlike other bones, they lack a surrounding layer of osteogenic periosteum.

Answer 113

Auditory ossicles

Question 114

Type of joint: auditory ossicles

Answer 114

synovial

Question 115

T or F: Smallest joint is found between incus and stapes (synovial, movable)

Answer 115

T

Question 116

3 interconnected bones of auditory ossicles

Answer 116

Malleus, Incus, Stapes

Question 117

Largest ossicle and possesses a head, a neck, a long process or handle, and anterior process, and a lateral process. It is connected to the tympanic membrane

Answer 117

Malleus

Question 118

Possesses a large body and two processes. It is connected to the malleus.

Answer 118

Incus

Question 119

Has a head, a neck, two limbs, and a base. It is connected to the incus and the lateral wall of the internal ear at the oval window; Smallest ossicle

Answer 119

Stapes

Question 120

T or F: Mandible is part of the cranium nor part of the facial skeleton. It is united to the skull by the mobile temporomandibular joint.

Answer 120

F, not part

Question 121

immovable joints which unite the bones of the skull

Answer 121

Suture

Question 122

connective tissue between the bones of the skull; consists of the periosteum covering the outer surface become continuous with the endosteum covering the surface of the bone.

Answer 122

Suture ligament

Question 123

Major Sutures of the Skull

Answer 123

Coronal suture, Sagittal suture, Lambdoid suture

Question 124

Suture between the frontal and parietal bones

Answer 124

Coronal suture

Question 125

Suture between the paired parietal bone

Answer 125

Sagittal suture

Question 126

Suture between the parietal and occipital bones

Answer 126

Lambdoid suture

Question 127

Landmarks of the skull

Answer 127

Bregma, Lambda, Pterion

Question 128

junction where the coronal and the sagittal sutures meet

Answer 128

Bregma

Question 129

junction where the sagittal and lambdoid sutures meet

Answer 129

Lambda

Question 130

area where the sutures between the parietal, sphenoid, frontal, and temporal squama converge or meet; Weakest part

Answer 130

Pterion

Question 131

premature closure of skull suture

Answer 131

Craniosyntosis

Question 132

separates the bones of the vault that are not closely knit at the sutures. At these sites, the sutures form wide areas of fibrous tissue.

Answer 132

Fontanelles

Question 133

2 types of fontanelle

Answer 133

anterior and posterior fontanelle

Question 134

Most prominent fontanelle; “soft spot”
 Lies between the frontal bone and the two parietal bones behind
 Diamond-shaped

Answer 134

Anterior fontanelle

Question 135

Bounded by the parietal bones anteriorly and the occipital bone posteriorly
 Triangular shape

Answer 135

Posterior fontanelle

Question 136

Palpation of the fontanelles during infancy, especially the anterior and posterior ones, enables physicians to determine the:

Answer 136

1. Progress of growth
2. Degree of hydration
3. Intracranial pressure
4. Pulse of cerebral arteries

Question 137

Regions in the cranial fossa

Answer 137

Anterior, Middle and Posterior

Question 138

any of three large depressions in the anterior, middle, and posterior aspects of the floor of the cranial cavity.

Answer 138

cranial fossa

Question 139

Lodges the frontal lobes of the cerebral hemispheres

 Bones forming the anterior cranial fossa: frontal, ethmoid, sphenoid bones

Answer 139

Anterior cranial fossa

Question 140

Anterior cranial fossa: crest for attachment in the midline

Answer 140

Falx cerebri

Question 141

Lodge the temporal lobes of the cerebral hemispheres.

 Bones forming the cranial fossa: sphenoid, temporal, and parietal bones

Answer 141

Middle cranial fossa

Question 142

Weakest cranial fossa because it has more holes/ foramina

 fracture in this area causes otorrhea

Answer 142

Middle cranial fossa

Question 143

Lodges the parts of the hindbrain, namely, the cerebellum, pons, and medulla oblongata
 Bones forming the cranial fossa: Temporal and occipital bones

Answer 143

Posterior cranial fossa

Question 144

Openings in the anterior cranial fossa

Answer 144

Foramen cecum
Anterior ehtmoidal foramen
Foramina in the cribriform plate
Posterior ethmoidal foramen

Question 145

Structure transmitted in: Foramen cecum

Answer 145

Emissary vein

Question 146

Structure transmitted in: Anterior ethmoidal foramen

Answer 146

Anterior ethmoidal artery, vein, and nerve

Question 147

Structure transmitted in: Foramina in the cribriform plate

Answer 147

Olfactory nerves

Question 148

Structure transmitted in: Posterior ethmoidal foramen

Answer 148

Posterior ethmoidal artery, vein, and nerve

Question 149

Middle cranial fossa openings

Answer 149

Optic canal
Superior orbital fissure
Foramen Rotundum
Foramen Ovale
Foramen Spinosum
Foramen Lacerum
Carotid Canal

Question 150

Structure transmitted in: optic canal

Answer 150

Optic nerve (II);
Opthalmic artery

Question 151

Structure transmitted in: Superior orbital fissure

Answer 151

Oculomotor nerve (III); Trochlear nerve (IV); Lacrimal, frontal, and nasociliary nerves (V1); Abducent nerve (VI); Superior ophthalmic vein

Question 152

Structure transmitted in: Foramen rotundum

Answer 152

Maxillary nerve (V2)

Question 153

Structure transmitted in: Foramen Ovale

Answer 153

Mandibular nerve (V3);
Lesser petrosal nerve

Question 154

Structure transmitted in: Foramen spinosum

Answer 154

Middle meningeal artery

Question 155

Structure transmitted in: Foramen lacerum

Answer 155

Filled by cartilage and fibrous tissue (in the inferior opening);
Greater petrosal nerve

Question 156

Structure transmitted in: carotid canal

Answer 156

Internal carotid artery

Question 157

Posterior cranial fossa: openings

Answer 157

Foramen magnum
Hypoglossal canal
Jugular foramen
Internal acoustic meatus

Question 158

Structure transmitted in: Foramen magnum

Answer 158

Medulla oblongata, spinal part of accessory nerve, and vertebral arteries

Question 159

Structure transmitted in: hypoglossal canal

Answer 159

Hypoglossal nerve (XII)

Question 160

Structure transmitted in: Jugular foramen

Answer 160

Glossopharyngeal nerve (IX); Vagus nerve (X); Accessory nerves (XI); Sigmoid sinus becomes internal jugular vein

Question 161

Structure transmitted in: internal acoustic meatus

Answer 161

Facial nerves (VII); Vestibulocochlear nerve (VIII);

Question 162

Type of joint: temporomandibular joint

Answer 162

Synovial

Question 163

Articulation of temporomandibular joint

Answer 163

Articulation: occurs between the articular tubercle and the anterior portion of the mandibular fossa of the temporal bone above and the head (condyloid process) of the mandible

Question 164

Function of Temperomandibular joint

Answer 164

Depression, Elevation, Protrusion, Retraction, Lateral chewing movements