Quiz 2

Question 1

cranial sutures

Answer 1

• fibrous joints between skull bones
• coronal suture
• sagittal suture
• lambdoid suture
• squamous suture
• metopic suture

Question 2

craniosynostrosis

Answer 2

• premature fusion of suture leads to craniofacial dysmorphology
• categorized by which suture is fused
• brain keeps growing
• high intercranial pressure
• shunt needed
• if sagittal suture -> skull expands more than usually anteriorly and posteriorly

Question 3

cranial base

Answer 3

• vomer
• sphenoid
• temporal (petrous)
• occipital
• ethmoid
• bony features that connect the skull to the spine and provide structural support for the brain and face
• endochondral ossified
• support the weight
• foramen magnum

Question 4

facial bones

Answer 4

• temporal (zygomatic process)
• zygomatic
• maxilla
• maxilla
• mandible
• sphenoid
• lacrimal
• nasal
• frontal
• palatine

Question 5

le fort fractures

Answer 5

• face fractures
• 3 types
• stereotypical locations
  1. when people fall, car accident, physical accident- fracture across the upper jaw
  2. goes through the orbit
  3. facial skeleton is separating from the cranial base -> fracture line across the eyes

Question 6

which portions of the skull are found adjacent to the brain

Answer 6

• cranial vault

- cranial base

Question 7

transverse and spinous processes

Answer 7

muscle attachment

Question 8

body

Answer 8

supporting weight

Question 9

vertebral column

Answer 9

• cervical - neck
• thoracic - ribs attach
• lumbar - lower back
• sacrum - pelvis
• coccyx - tail bone

Question 10

hyper-kyphosis

Answer 10

• exaggerated posterior curvature of thoracic spine
• convex portion of the curve is curving posteriorly
• hunchback

Question 11

scoliosis

Answer 11

• lateral curvature
• usually thoracic
• pathological

Question 12

hyper-lordosis

Answer 12

• exaggerated curvature of the lower back
• concave portion of lower back is curing anteriorly
• common during pregnancy bc of extra weight
• lumbar region

Question 13

ribs

Answer 13

12 ribs

• 1-7- true ribs: during development each of these ribs has its own costal cartilage that attaches to the sternum
• 8-12- false: if they have costal cartilage it will connect to another costal cartilage before connecting to the sternum
• 11-12- floating ribs: no costal cartilage or attachment

Question 14

costal cartilage

Answer 14

-attaches the medial ends of the ribs to the sternum

Question 15

articulation of ribs

Answer 15

• tubercle/neck of rib articulates with transverse process of the lower vertebrae
• connects at what looks like in between two vertebrae

Question 16

sternum

Answer 16

• manubrium: articulates with clavicle (only articulating between axial and appendicular)
• sternal body
• xiphoid process

Question 17

upper limbs

Answer 17

• pectoral girdle
• arm
• forearm
• manus

Question 18

lower limbs

Answer 18

• pelvic girdle
• thigh
• leg
• pes

Question 19

forearm

Answer 19

homologous to leg

Question 20

manus

Answer 20

homologous to pes

Question 21

arm

Answer 21

homologous to thigh

Question 22

pectoral girdle

Answer 22

• mobile -> range of motion for upper arms
• clavicle
• scapula

Question 23

clavicle

Answer 23

• sternoclavicular joint - sternum and clavicle

- acromioclavicular joint - acromion process of the scapula and clavicle

Question 24

sternoclavicular joint

Answer 24

• ligaments of the joint:
• costoclavicular- between clavicle and first rib
• sternoclavicular - surrounds the joint; between clavicle and sternum
• interclavicular- between two sternoclavicular joints
• synovial joint*
• synovial fluid
• two areas with a cartilaginous disc in between with synovial fluid

Question 25

acromioclavicular joint

Answer 25

• ligaments of the joints
• acromioclavicular- between the clavicle and the acromion process
• coracoclavicular- holds the clavicle down; between clavicle and coracoid process
• coracoid process
• acromion process

Question 26

shoulder separation

Answer 26

• occurs at acromioclavicular joint
• clavicle overrides acromion
• nothing is holding down the clavicle due to tear in acromioclavicular ligament

Question 27

scapula

Answer 27

• glenoid fossa- lateral- head of humerus articulates here
• acromion
• axillary border
• coracoid process- major site of muscle and ligament attachment (anterior)
• spine- shoulder blade
• floating within layer of muscle -> allows for more range of movement
• no attachment

Question 28

movement of scapulae

Answer 28

• sliding- abduction -> protraction
• sliding- adduction -> retraction
• rotation- when you move you arm up the scapula rotates laterally (superior); when you move your arm behind you the scapula is rotating medially
• sliding- elevation and depression -> shrugging shoulders

Question 29

arm

Answer 29

• between elbow and shoulder
• mobility
• humerus

Question 30

humerus

Answer 30

• lesser tubercle
• head articulates with glenoid fossa of scapula
• greater tubercle
• medial epicondyl
• trochlea
• capitulum
• articulates with ulna at elbow posteriorly

Question 31

glenohumeral joint

Answer 31

• articulation of humerus and glenoid fossa of scapula

- glenohumeral ligament

Question 32

elbow joint

Answer 32

• radius (lateral side)
• ulna (medial side)
• both articulate with humerus
• olecranon process (part of the ulna) goes into the olecranon fossa posteriorly
• olecranon process is the pointy part of your elbow
• ulna articulates strongly - locked in place - flexion & extension
• radius is circular -> rotation

Question 33

radius and ulna

Answer 33

• radius is lateral
• ulna medial
• ulna is responsible for flexion and extension
• radius is responsible for rotation
• connected by interosseous membrane

Question 34

supination and pronation

Answer 34

• rotation thanks to circular radial head moving at the radiohumeral and radioulnar joint surfaces
• radius rotates over the ulna
• ulna stays in place

Question 35

radiolulnar joint

Answer 35

-between radius and ulna

Question 36

interosseous membrane

Answer 36

• connects the radius and ulna
• tissue
• helpful for rotation

Question 37

manus

Answer 37

• hand and wrist
• mobility
• carpal bones
• metacarpals
• phalanges
• pollex
• fingers

Question 38

carpal bones

Answer 38

• 8 bones
• irregular shape
• wrist bones
• some articulate with metacarpals or ulna/radius
• 4 of the them flexor retinaculum (ligament) -> medial and lateral sides
• scaphoid
• trapezium
• pisiform
• hamate

Question 39

carpal tunnel

Answer 39

• flexor retinaculum forms the carpel tunnel space that tendons of the hand flexors pass through
• formed by the cupping of the carpals and flexor retinaculum that goes between 4 of the carpals
• tendons that attach the hand flexor muscles to the muscle bodies of the forearm are being affected -> numbness, weakness
• presents as numbness, pain, and/or muscle weakness in hands
• in severe cases, cutting the flexor retinaculum may be necessary to prevent muscular atrophy caused by compression of median nerve
• pressure on median nerve

Question 40

which bones does the radius share a joint with

Answer 40

• ulna
• humerus
• carpels

Question 41

pelvic girdle

Answer 41

• stability
• sacrum coccyx
• os coxae

Question 42

os coxae

Answer 42

• 2 (left and right)
• articulates with femur
• acetabulum surface articulates
• oracular surface
• 3 portions that develop independently (primary ossification centers are separate):
• ilium crest
• ischium
• pubis- pubic area
• each of these meet at the acetabulum

Question 43

ischial tuberosity

Answer 43

-what we sit on

Question 44

pubis

Answer 44

• pubic symphysis joint -> two pubic bones join
• anterior medially
• one of the three parts of the os coxae

Question 45

thigh

Answer 45

• stability
• mobility
• femur
• patella

Question 46

femur

Answer 46

• curved -> lateral to medial
• bicondylar angle
• adaptation to keep a center of gravity

Question 47

patella

Answer 47

• knee joint
• in ligaments of quadriceps femoris
• slides over to allow muscle use
• sesamoid

Question 48

leg

Answer 48

• stability
• mobility
• tibia
• fibula
• below knee

Question 49

tibia and fibia

Answer 49

• no rotation

- interosseous membrane

Question 50

pes

Answer 50

• stability
• mobility
• foot and ankle
• tarsal bones
• metatarsals
• phalanges
• hallux (big toe)
• toes

Question 51

tarsal articulation

Answer 51

• talus articulates mostly with tibia joint (also fibia)
• dorsiflexion
• plantar flexion

Question 52

longitudinal arch

Answer 52

• arch from posterior to anterior

- as you walk -> heel strike and toe off

Question 53

transverse arch

Answer 53

medial to lateral

• lateral side is in more contact with ground
• heel strike -> stance phase -> toe off

Question 54

dipedality

Answer 54

supported by

• foramen magnum
• foot morphology
• bicondylar angle

Question 55

axial skeleton

Answer 55

• function:
• framework and protection of viscera
• special sense organs
• central nervous system
• hemopoietic tissue
• attachment for muscles

Question 56

skull

Answer 56

• cranium - cranial nerves
• mandible
• teeth

Question 57

thoracic cage

Answer 57

• ribs
• costal cartilages
• sternum

Question 58

cranial bones

Answer 58

• parietal
• frontal
• temporal
• occipital
• ethmoid
• sphenoid

Question 59

cranial vault bones

Answer 59

• encloses the brain
• protects brain
• parietal (left & right)
• frontal
• temporal (squamous)
• sphenoid
• occipital

Question 60

fontanelle

Answer 60

• wide fibrous
• at suture intersection
• allows for further brain/skull growth
• soft spots
• sphenoid fontanelle
• anterior fontanelle
• posterior fontanelle
• mastoid fontanelle

Question 61

anterior fontanelle

Answer 61

• found at the intersection of the coronal suture and sagittal suture
• right in the top middle

Question 62

skull and vertebrae attachment

Answer 62

• atlas articulates with occipital condyles

- foramen magnum- spinal cord passes through

Question 63

articulation at the elbow

Answer 63

• radius head x capitulum
• olecranon process in the olecranon fossa x trochlea
• radius head x ulna

Question 64

calcaneus

Answer 64

heel bone

Question 65

joints

Answer 65

• articulations
• points of connection
• movement between different skeleton elements
• teeth
• sutures
• interosseous membrane
• synovial joints
• costal cartilage
• bone to bone
• bone to cartilage
• bone to teeth

Question 66

joint classification: structure

Answer 66

• fibrous- dense fibrous connective tissue (can be regular or irregular)
• cartilaginous- cartilage between two bone (hyaline or fibrocartilage)
• synovial- fluid-filled joint cavity (surrounded by dense fibrous tissue)

Question 67

joint classification: function

Answer 67

• synarthrotic- immobile
• amphiarthrotic- slightly mobile (bend, compression, twist)
• diarthrotic- freely mobile

Question 68

mobility/stability

Answer 68

• synarthrotic tend to be fibrous
• amphiarthrotic tend to be cartilaginous
• diarthrotic tend to by synovial
• not definite!!!
• less movement means more stability (general coorelation)

Question 69

what function classification is the pubic symphysis

Answer 69

• amphiarthrotic
• slight movement -> giving birth
• cartilaginous joint

Question 70

synarthrotic: fibrous

Answer 70

• no movement
• interlaced bone fronts
• sutures
• gomphosis (teeth)
• fibrous connective tissues

Question 71

amphiarthotic: fibrous

Answer 71

• interosseous membrane
• between radius and ulna
• allows rotation and connects radius and ulna

Question 72

synarthrotic: cartilaginous

Answer 72

• costochondral joints
• joint between first rib and sternum -> costal cartilage
• epiphyseal plate -> hyaline cartilage
• synchondroses (hyaline)

Question 73

amphiarthrotic: cartilaginous

Answer 73

• symphyses
• fibrocartilage
• pubic symphysis
• intervertebral discs/joint

Question 74

intervertebral discs

Answer 74

• amphiarthrotic
• cartilaginous (fibrocartilage)
• annulus fibrosis- outer fibrous ring -> transmits forces
• nucleus pulposus- inner protein gel -> shock absorption
• prolapsed disk can impinge the spinal nerve (break or tear in annulus fibrosis and nucleus pulposus leaks out)

Question 75

vertebral discs: aging

Answer 75

• anklosing spondylitis- type of progressive arthritis -> can lead to fusion
• age related degeneration
• dehydration of the disc
• space between discs will shrink -> we get shorter overtime

Question 76

diarthrotic: synovial

Answer 76

• full range of motion
• wrist
• jaw
• knee
• fingers
• hyaline cartilage

Question 77

types of synovial joints

Answer 77

• uniaxial: hinge joint (humerus x ulna)
• biaxial: saddle joint (thumb joint)
• multiaxial: ball and socket (femur x pelvis)
• (going from least to most mobile ^)

Question 78

common features of synovial joints

Answer 78

• articular capsule- layer of dense fibrous tissue over synovial membrane
• articulate cartilage (almost always hyaline) -> there isnt bone to bone contact -> its articular cartilage to articular cartilage
• synovial fluid
• ligaments- dense fibrous tissue external to articular capsule

Question 79

what is the synovial membrane composed of

Answer 79

-areolar connective tissue

Question 80

bursae

Answer 80

• commonly associated with synovial joints
• fibrous sac of synovial fluid
• when found surrounding ligaments and tendon can be called sheaths
• rounded areas around the joint
• can be separate or included in articular capsule
• subdeltoid bursae
• digital tendon sheath

Question 81

bursitis

Answer 81

• irritation/inflammation of bursae
• irritation/inflammation can lead to accumulation of fluid -> pressure
• olecranon bursa irritation can lead to bursitis when banged

Question 82

tendinitis

Answer 82

• tennis elbow
• tendons- dense connective tissue that connects muscle body to bone
• damage to tendon due to repetitive use
• flexor pronator
• wrist extensor
• triceps tendon

Question 83

articular discs

Answer 83

• synovial joints are commonly associated
• thin fibrocartilage separating the synovial cavity space
• separates 2 synovial space cavities
• hyaline can rotate on this disc
• present in the temporal mandibular joint

Question 84

shoulder

Answer 84

• ball and socket
• glenohumeral joint
• extremely mobile
• very shallow articulation
• stability from ligaments and muscles
• glenoid fossa deepened by fibrocartilaginous labrum that extends beyond bony edge

Question 85

hip

Answer 85

-ball and socket

Question 86

knee

Answer 86

-hinge

Question 87

ligaments of shoulder

Answer 87

• supported by extracapsular ligaments
• coracohumeral ligaments- coracoid process x humerus
• glenohumeral ligaments- glenoid fossa x humerus
• ligaments are external to synovial joint

Question 88

rotator cuff

Answer 88

• shoulder muscles
• subscapularis- deep to scapula
• supraspinatus- lateral posterior of scapula
• infraspinatus- lateral posterior of scapula
• teres minor- inferior posterior

Question 89

subscapularis

Answer 89

-attaches to lesser tubercle

Question 90

teres minor and infraspinatus

Answer 90

-attach to greater tubercle

Question 91

brachial plexus

Answer 91

• innervation
• suprascapular nerve- innervates the supraspinatus and infraspinatus
• subscapular nerve- innervates subscapular nerve
• axillary nerve- innervates teres minor

Question 92

shoulder impingement

Answer 92

• swollen bursa
• increase pressure
• impinge nerve

Question 93

hip joint*

Answer 93

• extremely stable
• very deep articulation
• added stability from ligaments
• acetabular surface- ear-like, covered with hyaline
• acetabular labrum
• acetabulum is deepened by- fibrocartilaginous labrum and transverse acetabular ligament

Question 94

what would the name of an extracapsular ligament between the femur and the inferior-posterior part of the pelvis be called (the part you sit on)

Answer 94

-ischiofemoral

Question 95

extracapsular ligaments of hip

Answer 95

• iliofemoral- anterior
• pubofemoral- anterior
• ischiofemoral- posterior

Question 96

intracapsular ligament for hip joint

Answer 96

• ligament of the head of the femur
• connect the head of the femur into the acetabulum
• inside the capsule

Question 97

hip replacement

Answer 97

• common
• arthritic damage
• inflammation of the bone
• replacing the head of the femur with a metal ball
• replacing the acetabulum

Question 98

knee joint

Answer 98

• unstable (compared to hip)
• very shallow articulation
• added stability from ligament

Question 99

tibial plateau

Answer 99

• deepened by fibrocartilaginous menisci
• flat
• medial meniscus and lateral meniscus -> make a cup

Question 100

extracapsular ligaments of knee

Answer 100

• support joint capsule
• patellar ligament- patella and * -> prevents too much flexion
• medial (tibial) collateral ligament- tibia and femur
• lateral (fibular) collateral ligament- fibula and femur
• medial and lateral collateral prevent too much abduction and adduction
• too much abduction can tear medial collateral ligament vice versa

Question 101

intracapsular ligaments of knee

Answer 101

• anterior cruciate (ACL)- anterior side of tibia back to femur -> prevents posterior dislocation of femur (anterior dislocation of tibia) -prevents medial rotation of tibia
• posterior cruciate (PCL)- make a cross- posterior of tibia forward to femur -> prevents anterior dislocation of femur (posterior dislocation of tibia)

Question 102

muscle tissue

Answer 102

• elongated cells capable of contraction
• excitability- responsive to stimuli
• elasticity- return to original form after contraction (titin)
• contractility- tension within cells causes shortening (active)
• extensibility- extend in response to contraction of opposing muscles (passive)

Question 103

tissue

Answer 103

• epithelial
• connective
• muscle
• nervous

Question 104

muscle tissue function

Answer 104

• movement
• posture
• temperature regulation (skeletal muscle- shivering, arrector pili)
• storage and movement
• support

Question 105

3 muscle types

Answer 105

• skeletal
• cardiac
• smooth

Question 106

skeletal muscle

Answer 106

• voluntary
• striated- fiber pattern, action and myosin
• produced movement
• generates heat- contraction releases heat

Question 107

skeletal muscle structure

Answer 107

• fibers run parallel with different thickness
• nesting doll
• muscle body attach to tendon
• fascicles- composed of fibers
• vessels and nerves between fascicles
• fibers (cell)- composed of fibrils and filaments
• epimysium
• myofibrils
• myofilaments

Question 108

tendon

Answer 108

• connect muscle to bone
• dense regular connective tissue
• contraction pulls on tendons (and bone)

Question 109

ligament

Answer 109

-bone to bone

Question 110

epimysium

Answer 110

• directly adhered to muscle body
• outside of the muscle
• connective tissue
• under the fascia

Question 111

perimysium

Answer 111

• surround the fascicles

- connective tissue

Question 112

fasicles

Answer 112

• bundles of muscle fibers wrapped in connective tissue
• some fascicles can contract while others arnt in the same muscle body
• composed of fibers (Cells)
• semi-independent
• can run in different directions:
• parallel, convergent, unipennate

Question 113

muscle fiber

Answer 113

• multinucleated
• composed of myofibrils
• long -> extend the entire length of fascicle
• connect to nervous system

Question 114

endomysium

Answer 114

• surrounds the muscle fiber
• not a cell membrane -> external to cell
• helps keep fluid surrounding the cell that would normally be ECF

Question 115

myofibrils

Answer 115

• contraction
• composed of myofilaments
• run the whole length of the fiber
• contractile segments
• composed of stacked sarcomeres (myofilaments)

Question 116

sarcolemma

Answer 116

-cell membrane of the muscle fiber

Question 117

which level of muscular organization represents a collection of multiple muscle cells

Answer 117

-fascicle

Question 118

myofilaments

Answer 118

• actin thin filaments- made of actin, troponin, and tropomyosin
• myosin thick filaments- made of myosin protein
• makeup 10,000 of sarcomeres stacked (z disc to z disc)
• actin and myosin are contractile proteins
• myosin pulls the actin fibers

Question 119

A band

Answer 119

• myosin and actin
• darkest area -> both filaments
• stays the same length

Question 120

H zone

Answer 120

• myosin
• middle
• dark areas

Question 121

sarcomeres

Answer 121

• functional contractile unit
• responsible for striations
• myosin and actin

Question 122

I band

Answer 122

• actin
• light areas
• shrink during contraction

Question 123

skeletal muscle innervation

Answer 123

• neuromuscular junction- the synapse between neuron axon and muscle cell
• each skeletal muscle fiber is innervated by a single motor neuron
• contract in unison

Question 124

contraction at sarcomere

Answer 124

• thin filaments slides over thick filaments
• Z discs move closer
• titin is compacted
• myosin binds to actin and pull actin fibers together
• Z discs move closer together
• titin- springy complex that is compacted -> provides elasticity

Question 125

cramping

Answer 125

• an involuntary and forcibly contracted muscle that does not relax
• keeps contracting after signal stops
• caused by hyperexcitability of the nerves that stimulate the muscles

Question 126

amyotrophic lateral sclerosis

Answer 126

• Lou Gehrig
• degeneration of motor neurons that control skeletal muscle
• voluntary muscle action progressively lost
• atrophy, cell death, mass loss

Question 127

striated muscle

Answer 127

-skeletal and cardiac

Question 128

cardiac muscle

Answer 128

• heart wall

- walls of aorta

Question 129

cardiac muscle structure

Answer 129

• single nucleus
• Y-shaped cells
• intercalcated discs between cells -> directly connected with large SA -> good for gap junctions
• attached to 2,3,4 other cells
• involuntary contraction (autonomic system)
• striated
• internally generated impulses

Question 130

smooth muscle

Answer 130

• walls of hollow organs and blood vessels
• tunica media- thick layer of smooth muscle surround arteries
• detrusor muscle- bladder -> allows us to push out pee
• 3 muscle layers of stomach

Question 131

sphincter

Answer 131

-skeletal muscle

Question 132

smooth muscle structure

Answer 132

• involuntary
• non-striated
• resist fatigue
• low power
• maintain constant muscle tone
• always somewhat contracted to maintain shape of organ

Question 133

smooth muscle function

Answer 133

• bundles of actin and myosin that stretch in between dense bodies
• dense body is analogous to z disc
• filaments connect dense bodies
• thin filaments slide over thick filaments
• sliding mechanism
• contraction in all directions
• elongated shape- relaxed
• blobby- contracted

Question 134

which muscle is involved in goose bumps (erector pili)

Answer 134

• smooth muscles

- involuntary

Question 135

which muscle is involved in shivering

Answer 135

skeletal

-heat production

Question 136

muscle action

Answer 136

• when considered in isolation, the movement that a muscle is capable of producing in isolation
• the movements that a muscle is capable of producing

Question 137

muscle function

Answer 137

• the body motion that a muscle produced when it is in use
• depends on the context of other muscle actions and joint positions
• the body motion that muscle produces when it is in use

Question 138

muscle function = muscle action in some cases:

Answer 138

• pronator quadratus

- brachialis

Question 139

pronator quadratus

Answer 139

• action=function
• pronation at forearm/wrist
• anterior distal end
• between ulna and radius
• brings them closer together
• rotation about the ulna

Question 140

brachialis

Answer 140

• action=function
• crosses from the diaphysis of the humerus to the coracoid process of ulna
• pulls ulna towards humerus
• flexion of forearm at elbow joint

Question 141

muscle function may be modified muscle action

Answer 141

• pronator teres

- biceps brachii

Question 142

pronator teres

Answer 142

• action= pronation
• elongated
• pulling between medial epicondyle of humerus
• pulls radius and forearm towards the humerus
• pronation
• if you already have pronation and have further flexion of the pronator teres you would expect it to produce flexion at the elbow
• function = can do flexion when already pronated

Question 143

biceps brachii

Answer 143

• action=flexion of elbow
• function=when elbow is partially flexed, also powerful supinator
• connected to radius
• pulls radius towards humerus -> flexion
• rotates radial from radial tuberosity once flexed

Question 144

muscle action and muscle function may be different

Answer 144

-walking

Question 145

agonist

Answer 145

• prime mover

- responsible for movement

Question 146

antagoinist

Answer 146

• prime opponent

- prevents the movement

Question 147

synergist

Answer 147

-assist agonist (stabilize joint)

Question 148

fixator

Answer 148

-assist agonist (stabilize bone)

Question 149

elbow flexion

Answer 149

• agonist- bicep brachii

- antagonist- triceps brachii

Question 150

flexion of wrist

Answer 150

• agonist- palmaris longus, flexor carpi ulnaris, flexor carpi radialis
• flexor carpi ulnaris- also adducts
• flexor carpi radialis- also abducts
• results in straight flexion
• flexor carpi ulnaris and flexor carpi radialis are antagonists of one another (abductor and abbductor)

Question 151

finger flexion: pulling yourself up

Answer 151

• agonist- finger flexors: flexor digitorum superficialis, flexor pollicis longus, flexor digitorum profundus, flexor radialis
• antagonist- finger extensors
• synergist- wrist should be extended: wrist extensors -> extensor carpi ulnaris, extensor carpi radialis brevis, extensor carpi radialis longus