Kinesiology

Question 1

What is kinesiology the study of?

Answer 1

Movement

Question 2

What is a branch of biomechanics that describe the motion of a body WITHOUT regard to forces that produce the motion?

Answer 2

Kinematics

Question 3

What are the 2 types of kinematics?

Answer 3

Translation and rotation

Question 4

What are the two types of translation?

Answer 4

rectilinear and curvilinear

Question 5

Translation or rotation? All parts of the body move in the same direction

Answer 5

translation

Question 6

Example of rectilinear translation?

Answer 6

Walking in straight line, people riding in elevator, ball rolling down a path

Question 7

Example of curvilinear translation?

Answer 7

Cycling, turning of car, arc of ball being throw, roller coaster, running on a curved racetrack

Question 8

T or F? In walking, translation and rotation occur?

Answer 8

TRUE - the center of mass moves forward together (translation) but rotation of limbs is required to move forward and achieve the translation

Question 9

What is the term for motion of bones relative to cardinal planes?

Answer 9

Osteokinematics

Question 10

What is the term for the pivot point about which joint motion occurs?

Answer 10

Axis of rotation

Question 11

T or F? Axis of rotation is parallel to the plane of motion

Answer 11

FALSE - axis of rotation is perpendicular to the plane of motion

Question 12

What are the 3 axes of rotation?

Answer 12

Anterior-posterior (frontal plane)
Medial-lateral (sagittal plane)
Vertical/longitudinal (horizontal plane)

Question 13

Open or closed chain motion? Movement of distal segment of bone about a relatively fixed proximal segment. Ex. sitting down and kicking legs

Answer 13

Open chain motion

Question 14

Open or closed chain motion? Movement of proximal segment of bone about a relatively fixed distal segment. Ex. Squats

Answer 14

Closed chain motion

Question 15

Arthrokinematics or osteokinematics? Describes only the path of the moving bones (flexion/extension, abduction/adduction, etc). Ex. door swings open in the horizontal plane

Answer 15

Osteokinematics

Question 16

Arthrokinematics or osteokinematics? Describes the motion between the articular surfaces of joints. Ex. spinning of a hinge

Answer 16

Arthrokinematics

Question 17

What are the two benefits of a convex-concave joint relationship?

Answer 17

1. Improves fit and stability
2. Properly guides motion

Question 18

What are the 3 movements between joint surfaces (arthrokinematics)?

Answer 18

Roll, slide, and spin

Question 19

For convex on concave joint, does the roll and slide movement occur in the same or opposite direction?

Answer 19

Opposite
Ex. Abduction of shoulder - humerus rolls upward in socket and slides downward

Question 20

For a concave on convex joint, does the roll and slide movement occur in the same of opposite direction?

Answer 20

Same
Ex. When sitting and kicking your leg, the concave surface of the tibia is rolling and sliding on the convex surface of the end of the femur

Question 21

What is a push or pull that can produce, modify, or halt a movement?

Answer 21

Force

Question 22

What is the branch of mechanics that describes the effect of forces on the body?

Answer 22

Kinetics

Question 23

Internal or external force? Generated within the body from a muscular contraction or passive force such as tension generated from ligamentous or muscular elongation.

Answer 23

Internal force

Question 24

Internal or external? Generated outside the body such as from gravity, a weight, or a therapist applying resistance

Answer 24

External force

Question 25

What is the rotational equivalent of force?

Answer 25

Torque

Question 26

The amount of torque generated across a joint depends on what 2 things?

Answer 26

1. The amount of force exerted
2. The distance between the force and axis of rotation (moment arm)

Question 27

What is an example of a first class lever?

Answer 27

Head and neck
Weigh, fulcrum, Force

Question 28

What is an example of a second class lever?

Answer 28

Standing on your toes
fulcrum, Weight, Force
Internal moment arm always longer than external moment arm

Question 29

What is an example of a third class lever?

Answer 29

Bicep curl
fulcrum, Force, Weight
Internal moment arm always smaller than external moment

Question 30

What is the most common type of lever in the body and what does it favor?

Answer 30

Third class lever - favors speed and distance

Question 31

T or F? Line of pull describes the direction of muscular force

Answer 31

True

Question 32

In a medial-lateral axis of rotation, bony motion ____ to the medial-lateral AOR will produce flexion in the sagittal plane

Answer 32

Anterior to the medial-lateral AOR will produce flexion in the sagittal plane

Question 33

In a medial-lateral axis of rotation, bony motion ____ to the medial-lateral AOR will produce extension in the sagittal plane

Answer 33

Posterior to the medial-lateral AOR will produce extension in the sagittal plane

Question 34

In then anterior-posterior AOR, line of pull passing superior or lateral to the axis will produce ____ in the frontal plane

Answer 34

Abduction in the frontal plane

Question 35

In the anterior-posterior AOR, line of pull passing inferior or medial to the axis will produce ____ in the frontal plane

Answer 35

Adduction in the frontal plane

Question 36

In the vertical axis of rotation, anterior or medial pull produces ____

Answer 36

INTERNAL rotation

Question 37

In a vertical axis of rotation, posterior or lateral pull produces ____

Answer 37

EXTERNAL rotation

Question 38

In kinetics, what represent the magnitude and direction of a force, which can be combined (resultant)

Answer 38

Vector

Question 39

T or F? Direction of a force represented by a vector is indicated by the orientation of the arrowhead.

Answer 39

True

Question 40

T or F? The magnitude of a force is indicated by the relative length of the vector line

Answer 40

True

Question 41

What parts of the body does the axial skeleton contain?

Answer 41

Skull, hyoid bone, spine, ribs, sternum

Question 42

What parts of the body does the appendicular skeleton contain?

Answer 42

Extremities and scapula and pelvis

Question 43

What is compact bone also called?

Answer 43

Cortical bone

Question 44

Cortical (compact) or cancellous (spongey) bone? Dense and extremely strong, lines the outermost part of a bone, and absorbs compressive forces

Answer 44

Cortical (compact) bone

Question 45

What is spongy bone also called?

Answer 45

Cancellous bone

Question 46

Cortical (compact) or cancellous (spongy) bone? Porous and lightweight, composes inner bone portions, and redirects forces toward weight bearing sources

Answer 46

Cancellous (spongy) bone

Question 47

Diaphysis or epiphysis? Central shaft of the bone, a thick hollow tube made of cortical (compact) bone

Answer 47

Diaphysis

Question 48

Diaphysis or epiphysis? Ends of the bone, composed of spongy bone mainly, and transmits weight bearing forces across the body

Answer 48

Epiphysis

Question 49

What lines the articular surfaces of each epiphysis acting as shock absorber between joints?

Answer 49

Articular cartilage

Question 50

What is the thin, tough membrane called covering long bones where muscles and ligaments attach?

Answer 50

Periosteum

Question 51

What is the central hollow tube within the long bone diaphysis called that stores bone marrow and provides a passage for arteries?

Answer 51

Medullary canal

Question 52

What is the membrane called that lines the medullary canal surface and houses cells that are important for forming and repairing bones?

Answer 52

Endosteum

Question 53

What type of bone, long, short, flat, or irregular, has an obvious axis or shaft and has an expanded bone portion at each end?

Answer 53

Long bone
Ex. femur, humerus, radius

Question 54

What type of bone, long, short, flat, or irregular, has a length, width, and height that are about equal?

Answer 54

Short bone
Ex. carpal bones of hand

Question 55

What type of bone long, short, flat, or irregular has a wide variety of shapes and sizes and can be a sesamoid (similar look to a sesame seed)?

Answer 55

Irregular bone
Ex. patella, vertebra bones

Question 56

What type of bone, long, short, flat, or irregular is typically flat or slightly curved and is often the base for many muscle attachments?

Answer 56

Flat bone
Ex. scapula, sternum

Question 57

What type of joint is a junction between bones allowing little to no movement?

Answer 57

Synarthrosis

Question 58

What is the primary function of synarthrotic joints?

Answer 58

to firmly bind bones together and transmit forces from one bone to another

Question 59

Examples of synarthrotic joints?

Answer 59

Fibrous:
-Suture (skull sutures)
-Gomphosis (teeth joint)

Cartilaginous:
- Synchondrosis (where ribs meet sternum)

Question 60

What type of joint is a junction between bones allowing limited amounts of motion?

Answer 60

Amphiarthrosis

Question 61

what are amphiarthrotic joints primarily composed of?

Answer 61

fibrocartilage and hyaline cartilage

Question 62

What is the primary function of amphiarthrotic joints?

Answer 62

Provide shock absorption

Question 63

Examples of amphiarthrotic joints?

Answer 63

Fibrous:
- Syndesmosis (interosseous membrane)

Cartilaginous:
-Symphysis (pubic symphysis)

Question 64

What type of joint is a junction between bones allowing free movement?

Answer 64

Diarthrosis or a synovial joint

Question 65

How many synovial/diarthrotic joints are there?

Answer 65

7

Question 66

Which joint type is an articulation that contains a fluid-filled joint cavity between two or more bones?

Answer 66

Diarthrotic/synovial joint

Question 67

What are the 7 common elements of synovial joints?

Answer 67

1. synovial fluid
2. articular cartilage
3. articular (joint) capsule
4. synovial membrane
5. capsular ligaments
6. blood vessels
7. sensory nerves

Question 68

Which element of a synovial joint provides joint lubrication and nutrition?

Answer 68

synovial fluid

Question 69

Which element of a synovial joint dissipates and absorbs compressive forces?

Answer 69

articular cartilage

Question 70

Which element of a synovial joint is connective tissue that surrounds and binds the joint together?

Answer 70

articular (joint) capsule

Question 71

Which element of a synovial joint produces synovial fluid?

Answer 71

synovial membrane

Question 72

Which element of a synovial joint is thickened regions of connective tissue that limits excessive joint motion?

Answer 72

capsular ligaments

Question 73

Which element of a synovial joint transmits signals regarding pain and propricoception?

Answer 73

sensory nerves

Question 74

Which synovial joint type allows motion in only one plane about a single axis of rotation, similar to the hinge of a door?

Answer 74

Hinge joint
Ex. humeroulnar joint (elbow) - flexion and extension

Question 75

Which synovial joint allows rotation about a single longitudinal axis of rotation, similar to the rotation of a door knob?

Answer 75

Pivot joint
Ex. proximal radioulnar joint - supination and pronation

Question 76

Which synovial joint has a convex elongated surface on a concave surface, allowing motion to occur in two planes?

Answer 76

Ellipsoid/condylar joint
Ex. radiocarpal joint (wrist) - flexion and extension and abduction and adduction

Question 77

Which synovial joint allows wide ranges of motion in all three planes and is an articulation between a spherical convex surface and a cup like socket?

Answer 77

Ball and socket joint
Ex. hip or shoulder - flexion and extension, abduction and adduction, internal and external rotation

Question 78

Which synovial joint allows limited motion but can slide and rotate in many directions and is an articulation between two relatively flat bony surfaces?

Answer 78

Plane/gliding joint
Ex. intercarpal joints of the hand - flexion and extension, abduction and adduction

Question 79

Which synovial joint allows extensive motion in 2 planes and is one concave surface on one convex surface?

Answer 79

Saddle joint
Ex. CMC joint of thumb - flexion and extension, abduction and adduction

Question 80

Which synovial joint is an articulation between a large, rounded, convex member and a relatively shallow concave member with 2 degrees of freedom?

Answer 80

Condyloid/ellipsoid joint
Ex. tibiofemoral joint (knee) - flexion and extension and internal and external rotation

Question 81

What are the 3 things that all connective tissues of joints of the body are consisted of and are mixed in various proportion depending on the joints function?

Answer 81

Fibers (collagen 1 and 2 and elastin), ground substance, and cells

Question 82

Type 1 or type 2 collagen fibers? Thick and rugged that resist elongation and compose ligaments, tendons, and fibrous capsules?

Answer 82

Type 1 collagen fibers

Question 83

Type 1 or type 2 collagen fibers? Thinner and less stiff that are found mainly in cartilage and provide a flexible woven framework for painting general shape and consistency of structures

Answer 83

Type 2 collagen fibers

Question 84

What fiber is elastic in nature, resist forces but can have give when elongated, can be useful in preventing injury b/c of its flexibility, and is found in large arteries, skin and lungs?

Answer 84

Elastin

Question 85

Collagen and elastin fibers are embedded within what element of connective tissue?

Answer 85

Ground substance

Question 86

What is ground substance primarily composed of?

Answer 86

Water, solutes, and glycosaminoglycans

Question 87

What element of connective tissue allows body fibers to exist in a fluid filled environment, dispersing repetitive forces?

Answer 87

Ground substance

Question 88

What are cells within connective tissue responsible for?

Answer 88

Responsible for maintenance and repair of tissue that make up joints

Question 89

What are the 4 types of connective tissue binds bones together and restrains unwanted movements of joints, composes ligaments and the tough outer layer of joint capsule and is primarily made of type 1 collagen fibers with low elastin content?

Answer 89

dense, irregular connective tissue
Ex. MCL, patellar tendon

Question 90

Which of the 4 types of connective tissue resists and distributes comprehensive and shear forces transferred from articular surfaces covers the ends of articulating bones in synovial joints, and has high type 2 collagen fiber content which helps anchor the cartilage to bone?

Answer 90

Articular catilage

Question 91

Which of the 4 types of connective tissue provides support and stabilizes joints, provides shock absorption, composes intervertebral discs and menisci of knee, and have bundles of type 1 collagen?

Answer 91

Fibrocartilage

Question 92

Which of the 4 types of connective tissues forms the primary supporting structure of the body and a rigid lever to transmit muscle force to move the body, and has arrangements of type 1 collagen to provide a framework for hard mineral salts

Answer 92

BONE

Question 93

What connects MUSCLE to bone to convert muscular force into bony motion, with parallel alignment of collagen fibers?

Answer 93

Tendons

Question 94

What connects BONE to bone and maintains a joint’s structure, with irregular crossing patterns of collagen fibers?

Answer 94

Ligaments

Question 95

Bone conformation and ligamentous networks provide what?

Answer 95

Static stability

Question 96

What do muscles function as?

Answer 96

Active stabilizers

Question 97

T or F? Muscles cannot respond as quickly as ligaments to an external force, but allow a graded and more controlled response

Answer 97

True

Question 98

T or F? Joint immobilization doesn’t affect stiffness and tissue ability to withstand forces.

Answer 98

FALSE - joint immobilization increases stiffness and decreases the tissue’s ability to withstand forces

Question 99

T or F? Immobilization of a joint may be necessary but can make the joint susceptible to injury/instability.

Answer 99

True

Question 100

What is the sole producer of active force in the body and what is it stimulated by?

Answer 100

Muscle, stimulated by the nervous system to contract and pull on bone, creating movement

Question 101

T or F? When a muscle contracts the freest (or less constrained) segment moves

Answer 101

True

Question 102

What is the term for shortening or contracting of muscle where the muscle is producing active force?
Ex. upward motion of bicep curl

Answer 102

Concentric

Question 103

What is the term for a muscle attempting to contract but is pulled to a longer length by a dominant external force?
Ex. Downward motion of bicep curl

Answer 103

Eccentric

Question 104

What is the term for a muscle that is generating active force while remaining at constant length?

Answer 104

Isometric

Question 105

What does the term proximal attachment also refer to?

Answer 105

Origin

Question 106

What does the term distal attachment also refer to?

Answer 106

Insertion

Question 107

What is the term for a muscle or mm group most directly related to performing a specific movement?

Answer 107

Agonist

Question 108

What is the term for a mm or mm group that can oppose the action of the agonist?

Answer 108

Antagonist

Question 109

What is the term for what occurs when agonist and antagonist muscles are simultaneously activated in an isometric fashion?

Answer 109

co-contraction

Question 110

What is the term for muscle that “fixes” or holds a body segment relatively stationary so that another muscle can more effectively perform?

Answer 110

Stabilizer -
Ex. our core stabilizes so we can kick our leg forward or the rotator cuff muscles stabilizing the GH joint

Question 111

What is the term for muscles that work together to perform a particular action?

Answer 111

Synergists

Question 112

What is the term for a synergistic action occurring when muscles produce force in different linear directions but produce torque in the same rotary direction?

Answer 112

Force-couple
Ex. upper trap, lower trap, and serratus anterior creating upward rotation of scapula together

Question 113

What is the term for the shortening and lengthening of a muscle, where it can shorten or elongated about half its resting length?

Answer 113

Excursion

Question 114

What layer surrounds the entire belly of the mm to help hold its shape?

Answer 114

Epimysium

Question 115

What is the muscle belly composed of?

Answer 115

Numerous fascicles

Question 116

What is a bundle of muscle fibers called?

Answer 116

Fascicle

Question 117

What is the layer that surrounds and supports individual fascicles and serves as a vehicle to support nerves and blood vessels?

Answer 117

Perimysium

Question 118

What is an individual cell with multiple nuclei that contains all the contractile elements (actin/myosin) within muscle?

Answer 118

Muscle fiber

Question 119

What layer is a dense collagen fibril meshwork surrounding each muscle fiber that helps transfer contractile force to the tendon?

Answer 119

Endomysium

Question 120

What composes muscle fiber?

Answer 120

Myofibrils

Question 121

What is the basic contractile unit of muscle fiber

Answer 121

Sacromere

Question 122

What 2 elements are sarcomeres made up of?

Answer 122

Actin and myosin

Question 123

What is the hypothesis called that states actin filaments slide past myosin head filaments, resulting in contraction of an individual sacromere?

Answer 123

Sliding filament hypothesis

Question 124

What is created when myosin filaments with numerous heads attach to thinner actin filaments?

Answer 124

actin-myosin cross bridges

Question 125

What happens in actin-myosin cross bridges?

Answer 125

Myosin heads bind an actin filament, flexes, and produces a power stroke. The actin filament slides past the myosin, generating force and shortening a sarcomere. Simultaneous contraction of sarcomeres shortens the entire muscle.

Question 126

What 3 factors determine functional potential of a muscle?

Answer 126

1. Cross-sectional area
2. Shape
3. Line of pull

Question 127

T or F? The larger a muscle’s cross sectional area, the greater its force potential?

Answer 127

True - a person with bigger muscles can generate larger force

Question 128

What are the 4 main muscle shapes?

Answer 128

Fusiform (biceps brachii)
Triangular (gluteus medius)
Rhomboidal (gluteus max)
Pennate (rectus femoris)

Question 129

Which muscle shape has fibers that run parallel to one another and are built to provide large ranges of motion?

Answer 129

Fusiform (large ROM)
ex. biceps brachii

Question 130

Which muscle shape has many origins converging to a small distal attachment and provides a stabilized base for generating force?

Answer 130

Triangular (create force)
Ex. gluteus medius

Question 131

Which muscle shape that has many origins and insertions and is shaped like a rhomboid or offset square? Also is suited to stabilize a joint or provide large forces, depending on its cross-sectional area

Answer 131

Rhomboidal (stabilize joint and create force)
ex. gluteus max

Question 132

Which muscle shape is like a feather, muscle fibers approach central tendon at oblique angle, large force but limited ROM, and can be classified based on the number of fiber sets attached to a central tendon?

Answer 132

Pennate (large force, limited ROM)
Ex. rectus femoris

Question 133

What is the difference between muscle shapes with parallel fibers and muscle shapes with pennate/oblique fibers?

Answer 133

Parallel muscles have a small cross section + small force, but can have large length change
Pennate muscles have a large cross section = large force, but have small length change

Question 134

Muscle forces can be described as ____ because they possess both magnitude and direction

Answer 134

Vectors can describe muscle forces b/c they have magnitude and direction

Question 135

Direction of a muscle’s force is referred to as ____

Answer 135

line of pull

Question 136

T or F? The length-tension relationship of muscle significantly impacts force output of muscle

Answer 136

True

Question 137

Active or passive length-tension relationship? Force generated is highly dependent on sarcomere length

Answer 137

Active length - tension relationship

Question 138

T or F? Muscles that are passively used and stretched rapidly to extreme length often become injured as well as the tendons or bony attacments

Answer 138

TRUE

Question 139

What is the term for a mm that crosses 1 joint?

Answer 139

Mono-articular

Question 140

What is the term for a mm that crosses 2 joints?

Answer 140

multi-articular

Question 141

Can a multi-articular or mono-articular muscle be elongated more?

Answer 141

multi-articular

Question 142

Active or passive insufficiency? Filaments overlap so potential for cross bridge is greatly reduced - the action is weakened or limited b/c the mm becomes too short to produce a useful or effective force

Answer 142

Active insufficiency

Question 143

Active or passive insufficiency? Actin is out of range of the myosin so cross bridging is greatly reduced - action is weakened or limited b/c the antagonist mm is passively overstretched, preventing full ROM and strength

Answer 143

Passive insufficiency

Question 144

Does active/passive insufficiency describe one or two joint mms?

Answer 144

Two jt mms

Question 145

Active or passive insufficiency? The muscle is too short.

Answer 145

Active insufficiency

Question 146

Active or passive insufficiency? The muscle is overstretched or too long.

Answer 146

Passive insufficiency

Question 147

Maximally flexing the hip while keeping knee straight.

• Motion is passively being limited by what muscle?
• Motion is actively being limited by what muscle?

Answer 147

Motion is passively being limited by the hamstrings.

Motion is actively being limited by rectus femoris

Question 148

Maximal hip extension with knee flexion.

• Motion is passively being limited by what muscle?
• Motion is actively being limited by what muscle?

Answer 148

Motion is passively being limited by rectus femoris.
Motion is actively being limited by hamstrings.

Question 149

T or F? When measuring a muscle, you do not want there to be any active or passive over-stretching or shortening of any muscle?

Answer 149

True

Question 150

T or F? A muscle during concentric contraction produces more force as speed of contraction increases?

Answer 150

FALSE - mm produces less force as the speed of contraction increases

Why? At higher speeds of contraction, actin-myosin cross bridges lack enough time to form, pull, and reform, so force is decreased

Question 151

____ contraction creates greater force than any speed of concentric contraction?

Answer 151

Isometric

Question 152

During an ____ contraction, passive force production increases slightly as the speed of elongation increases.

Answer 152

Eccentric

This can explain why you often feel greater mm soreness after high velocity eccentric activities

Question 153

T or F? Muscles held in a shortened position will shorten and muscles held in an elongated position will lengthen

Answer 153

True

Question 154

What is the term for a mm that is so tight that is severely restricts joint movement?

Answer 154

Contracture

Question 155

What can result in some degree of adaptive shortening?

Answer 155

Disease, poor posture, immobility

Question 156

T or F? An overly tight muscle causes the associated joints to assume a posture that mimics that muscle’s primary actions

Answer 156

True
Ex. a tightened hamstring causes hip extension and knee flexion

Question 157

T or F? To optimally stretch a muscle, the therapist has to hold the limb in a position that is opposite of all of its actions

Answer 157

True

Question 158

What does the overload principle imply?

Answer 158

A muscle must receive enough level of resistance to stimulate hypertrophy (size increase)

Question 159

What is the term for how a muscle adapts to the way in which it is challenged?

Ex. If you only strengthen the biceps by isometrically holding a weight a 90 degrees, the muscle only strengthens at that degree

Answer 159

Training specificity

Question 160

T or F? While ligaments and muscles stabilize joints, only muscles can adapt to immediate and long term external forces that interrupt the body.

Answer 160

True

Question 161

How do PTs and PTAs often improve stability of a joint?

Answer 161

By strengthening its surrounding mms

Question 162

T or F? Injury such as ligamentous rupture can significantly destabilize a joint

Answer 162

True

Question 163

T or F? Rarely do mms work individually, but as a group?

Answer 163

T

Question 164

What are the 4 joints of the shoulder complex?

Answer 164

Sternoclavicular, acromioclavicular, scapulthoracic, and glenohumeral

Question 165

What is the only direct bony attachment of the upper extremity to the axial skeletion?

Answer 165

Sternoclavicular joint

Question 166

T or F? The SC joint is stable but also allows extensive mobility

Answer 166

True

Question 167

T or f? The SC joint’s high degree of stability explains why fractures of the clavicle occur less than dislocations of the joint

Answer 167

FALSE - the sc joint’s high degree of stability explains why fractures of the clavicle occur MORE than dislocations of the joint

Question 168

What type of synovial joint is the AC joint?

Answer 168

Saddle - convex and concave surface

Question 169

The SC joint allows movement in all 3 planes - what are these movements?

Answer 169

Elevation and depression, protraction and retraction, and rotation

Question 170

In terms of the SC joint, when the clavicle is elevating and depressing, what plane is this in?

Answer 170

Frontal

Question 171

How many degrees of clavicular elevation and depression are there?

Answer 171

Elevation - 45 degrees
Depression - 10 degrees

Question 172

In terms of the SC joint, when the clavicle is protracting and retracting, what plane is this in? What axis of rotation?

Answer 172

Horizontal plane (transverse) and vertical axis rotation

Question 173

How many degrees can the clavicle protract and retract?

Answer 173

15-30 degrees

Question 174

In regards to the SC joint, what motion has to occur with the arm so the clavicle posteriorly rotates?

Answer 174

Shoulder has to abduct for the clavicle to post rotate. Clavicle post rotates b/c the coracoclavicular ligament becomes taut and spins the clavicle posteriorly

Question 175

In regards to the SC joint, what motion has to occur with the arm so the clavicle will anteriorly rotate?

Answer 175

When the shoulder goes back to resting position form ABD

Question 176

What axis of rotation does anterior and posterior clavicular rotation occur in?

Answer 176

Longitudinal axis

Question 177

Is the scapulothoracic joint a true joint?

Answer 177

No

Question 178

What muscles are elevators of the scapula? (3)

Answer 178

Upper traps, levator scapulae, and rhomboids - these mms support proper st posture

Question 179

T or f? Upper traps and rhomboids have opposite rotation action, but this cancels during contraction and produces elevation of the scaupla

Answer 179

True

Question 180

What mm are scapular/shoulder girdle/humerus depressors which results in shoulder depression? (4)

Answer 180

Lower trap, lat dorsi, pectoralis minor, and subclavius

Question 181

T or F? The shoulder depressor mms can be used in reverse action in instances like using a walker or crutch walking?

Answer 181

TRUE - the can elevate the thorax (o -> i)

Question 182

What 3 muscles work together as a force couple to produce scapular upward rotation?

Answer 182

Upper trap, lower trap, and serratus anterior

Question 183

What muscles creates scapulothoracic protraction?

Answer 183

Serratus anterior

Question 184

What activities do we use the serratus anterior for?

Answer 184

Forward reaching and pushing activities

Question 185

What is a sign of a weakened serratus anterior and during with activity do we see it?

Answer 185

“winging” effect - where the medial border of the scapula is lifting away from the rib cage

Question 186

What activity can we do to strengthen the serratus anterior if someone has winging?

Answer 186

push up plus

Question 187

What are the downward rotators of the scapula? (4)

Answer 187

Rhomboids, pec minor, lat dorsi, and levator scapula

Question 188

What mms are scapular retractors? (2)

Answer 188

Rhomboids and middle traps

Question 189

What activities do we use our scapular retractor mms in?

Answer 189

Rowing or pulling

Question 190

What kind of joint is the acromioclavicular joint?

Answer 190

gliding or plane joint

Question 191

AC joint has 3 degrees of freedom - what are its movements?

Answer 191

Upward and downward rotation (with the upward and downward rotation of the scapula - frontal plane
Anterior and posterior tilt (sagittal plane)
Internal and external rotation (horizontal plane)

Question 192

What structures support the GH joint?

Answer 192

• Rotator cuff mms
• GH joint capsule
• Coracohumeral ligament
• Glenoid labrum
• Long head of biceps

Question 193

How many degrees of shoulder abduction is there?

Answer 193

120 degrees

Question 194

Full 180 degrees of shoulder abduction is obtained how?

Answer 194

Full 180 degrees of shoulder abduction is obtained by combining 60 degrees of scapular upward rotation

Question 195

During abduction of the GH joint, does the roll and slide occur in the same direction?

Answer 195

NO - this is convex on concave, the roll is superior while the slide is inferior

Question 196

During adduction of the GH joint, does the humerus roll inferiorly and slide superiorly?

Answer 196

Yes - it is convex on concave

Question 197

What would happen if there was no inferior slide during abduction of the shoulder?

Answer 197

Impingement - the humeral head would jam into the acromion , smashing the bursa

Question 198

T or F? GH flexion and extension happens in the sagittal plane while the humeral head spins about a relatively fixed axis

Answer 198

True

Question 199

The GH joint can flex how many degrees?

Answer 199

120

Question 200

The GH joint can extend to how many degrees?

Answer 200

60

Question 201

T or F? 180 degrees of shoulder flex is obtained by using about 60 degrees of scapular rotation

Answer 201

True - 2:1 ratio

Question 202

During internal rotation of the GH joint, what ways does roll and slide occur?

Answer 202

GH joint rolls anteriorly and slides posteriorly

Question 203

External rotation of GH joint, what ways does roll and slide occur?

Answer 203

GH joint rolls posteriorly and slides anteriorly

Question 204

How many degrees of horizontal abduction can occur?

Answer 204

About 90 degrees