Prosthetic Prep Exam 33

Question 0

In a below elbow amputee, it is desirable to?

Answer 0

Retain at least 50% of pronation and supination

Question 1

The max pinch force of a two load hook?

Answer 1

7 lbs.
The “two-load” hook has “lyre-shaped” fingers for this reason. As its name suggests, a small switch at the base of the thumb permits the amputee to engage either one spring (1.6 kg, 3½ lb) or two springs (3.2 kg, 7 lb) to vary the pinch force.

Question 2

When the arm is over head, the trapezius muscles?

Answer 2

Positions the glenoid cavity upward.

Question 3

The action of the deltoid muscle is to?

Answer 3

Flex the gleno-humeral joint.

Question 4

T/F Latissimus dorsi and supraspinatus are prime movers in glenohumeral extension?

Answer 4

False
Latissimus dorsi internal rotation, adductions, some shoulder extension
supraspinatus- abducts the shoulder, stabilizes head of humerus.

Question 5

Glenohumeral horizontal flexion is obtained from action of the?

Answer 5

Deltoid

Question 6

Which of the muscles listed is a prime mover for elbow flexion?

Answer 6

Brachialis

Question 7

If a patient with 65% length below elbow can flex his elbow only 90%, the use of a step-up hinge is indication?

Answer 7

True, Step-up hinges are used by very short transradial (below elbow) amputees. Because the trim line of the socket must be high, the patient looses flexion at the elbow. In order for step-up hinges to work, the forearm section and the socket of the prosthesis are separate. As the amputee flexes the residual limb, the forearm section moves twice as far, thus creating a greater range of motion for the terminal device.

Question 8

The below elbow arm is generally suspended by?

Answer 8

An inverted Y strap

Question 9

The rhomboids orginate on?

Answer 9

Thoracic vertebrae and insert along the scapula from the root of the spine to the inferior angle.

Question 10

The deltoids provide?

Answer 10

Humeral abduction, flexion, and extension.

Question 11

Which of the following are reasonable ranges of glenohumeral motion in the average human?

Answer 11

Flexion 180, extension 60, abduction 180, adduction 20.

Question 12

The anterior support strap on the AE shoulder?

Answer 12

Pass over the deltoid pectoral groove.

Question 13

The axilla loop?

Answer 13

Passes under the axilla on the non-amputated side and provides a secure anchor for the entire harness system.

Question 14

The control attachment strap?

Answer 14

Attached strap passes below mid scapula level, is attached to the metal hanger on the upper end of the control cable and looped back through a buckle for adjustability. it is an intergral part of the control cable system.

Question 15

Location of the ring ot cross point of the harness?

Answer 15

Below the spinous process of C7 slightly towards the sound side

Question 16

In the medium length BE there can be some residual pronation because the? because the pronator teres is still largely intacts
pronator teres– pronation, and elbow flexion. innervated by the median nerve

Answer 16

Because the pronator teres is still largely intacts

pronator teres– pronation, and elbow flexion. innervated by the median nerve.

Question 17

The cross point of the figure * harness on the AE should be slightly to the sound side because?

Answer 17

It will allow the terminal device control cable to locate low across the scapula

Question 18

In order to flex the elbow, the AE amputee with a figure of 8 harness?

Answer 18

Unlocks the elbow (with slight ext and abd of glenohumeral joint along with shoulder derpression on prosthetic side), then flexes the gleno-humeral joint.

Question 19

The amount of humeral flexion required to fully flex the elbow of an AE prosthesis should not exceed?

Answer 19

45 degrees.

Question 20

If the prehension force of the terminal device is less than the force required to flex the elbow, the AE amputee harnessed for dual control with a dorrance hook, will find what happens when he attemps to flex his elbow?

Answer 20

The terminal device will open.

Question 21

Shoulder disart prosthesis is operative pirmarily by what control motion?

Answer 21

Scapular abduction.

Question 22

If the AE amputee is having difficuilty in flexing the elbow of his prosthesis he would be aided by?

Answer 22

Moving the forearm life loop distally
increasing the prehension force of the terminal device
replacing a steel hook with aluminum (makes it lighter)
adding a cross back strap to the harness (least effective).

Question 23

The lever type excursion amlifier provides increased excursion at the expense of?

Answer 23

Force: A simple excursion amplifier consists of a small pulley attached near the posterior end of the chest strap of the harness. The proximal end of the elbow flexion/terminal device cable passes through the pulley and is attached to the posterior surface of the prosthetic shoulder cap. With this type of amplifier each 2.5 cm (1 in.) of cable excursion generated by biscapular abduction causes the elbow flexion/terminal device control cable to move through an excursion of 5 cm (2 in.). Consequently 5.6 cm (2¼ in.) of chest expansion produces the 11.3 cm (4½ in.) of cable excursion required for full elbow and terminal device operation
It should be noted that although the incorporation of a pulley in the harness system doubles the cable excursion, it also doubles the input force required for elbow flexion and/or terminal device operation

Question 24

Which normal function can be mechaincally re-produce in a prosthetic arm?

Answer 24

Joint stabilization.

Question 25

The initial socket brim for a short AE amputation would be trimmed on a line?

Answer 25

One to two inches above the acromion.

Question 26

Symes amputation stovepipe design?

Answer 26

Removable inner soft liner made typically of pelite, built up in med shaft to maintain shape.
Rigid outter socket, inner is split to allow bulbos distal end through

Question 27

Canadian bivalve socket? Posterior window that extends to the proximal brim allowing easy inseration of limb. structurally weak due to posterior opening

Answer 27

Posterior window that extends to the proximal brim allowing easy inseration of limb. structurally weak due to posterior opening.

Question 28

Medial opening door of symes amputation?

Answer 28

Similar to canadian, with medial opening becuae of proximal medial malleulous, and natural curvature of resdiual limb.
forces around opening of medial window, significantly reduced compared to posterior opening.

Question 29

Biomechanics of symes?

Answer 29

• Limited space between socket, and foot- limits adjustablility
• foot should be soft enough to absorb some impact ambulation yet firm enough to provide adequate forward propulsion of limb
• knee joint flexes more at initial contact to absorbe shock space between socket, and foot- limits adjustablility
• foot should be soft enough to absorb some impact ambulation yet firm enough to provide adequate forward propulsion of limb
• knee joint flexes more at initial contact to absorbe shock space between socket, and foot- limits adjustablility
• foot should be soft enough to absorb some impact ambulation yet firm enough to provide adequate forward propulsion of limb
• knee joint flexes more at initial contact to absorbe shock

Question 30

Transibital amputation eval should include?

Answer 30

Activity level/ sports 
geographic location 
time since amputation
medical condition 
empolyment 
patient goals 
shape of residual limb 
soft tissue 
skin problems 
condition of knee joint 
range of motion/ muscle strength 
condition of thigh muscular.

Question 31

Patella tendon bearing socket design?
Weight bearing areas
patella bar
medial tibial flare

Otto bock socket design: Long residual limbs, supra condylar trim lines, but can be lowered as long as suspension isn’t interfered with, dynamic casting starting at 45degrees

194.Plantar flexion bumper: Heel stiffness

Answer 31

Weight bearing areas
patella bar
medial tibial flare

Question 32

Munster? For short residual limbs, anterior/posterior compression biceps tendon and olcranon cast in 90 degrees, need a pull sock

Answer 32

For short residual limbs, anterior/posterior compression biceps tendon and olcranon cast in 90 degrees, need a pull sock.

Question 33

Northwestern socket design? Medium length residual, may not need a pull sock, cast at 45 degrees, supra condylar suspension

Answer 33

Medium length residual, may not need a pull sock, cast at 45 degrees, supra condylar suspension.

Question 34

Otto bock socket design?

Answer 34

Long residual limbs, supra condylar trim lines, but can be lowered as long as suspension isn’t interfered with, dynamic casting starting at 45degrees.

Question 35

Plantar flexion bumper?

Answer 35

Heel stiffness

Question 36

195 Dorsiflexion bumper?

Answer 36

Keel stiffness

Question 37

Which of the following is the most common cause of heel whip during swing phase?

Answer 37

Excessive rotation of knee.

Question 38

The most important reason for gathering and recording a patients information is to?

Answer 38

Ensure the proper componentry is used.

Question 39

An amputation at the level of the styloid would be considered which amputation?

Answer 39

Wrist dis articulation

Question 40

An amputation of the upper extremity through the cubital fold would be classified as?

Answer 40

An elbow disarticulation.

Question 41

Upon heel strike in BK prosthesis, where are the anterior posterior forces?

Answer 41

Anterior distal posterior proximal–> because the foot transitions to foot flat and the tibia moves forward.

Question 42

Primary weight bearing surface in a Symes socket?

Answer 42

Heel pad

Question 43

203.Cuff suspensions are most commonly used for patients who?

Answer 43

Have trouble donning and doffing.

Question 44

Bench alignment for a BK prosthesis begins with?

Answer 44

Center of posterior brim 1.3 cm lateral to the center of the heel.

Question 45

A patient with no flexion contracture?

Answer 45

The amount of flexion in socket at bench alignment is.: 5degrees

Question 46

To increase knee stability in an above knee prosthesis with a single axis foot, the prosthesis should?

Answer 46

Plantar flex foot.

Question 47

What are areas on a BK residual limb are most suitable for weight bearing?

Answer 47

Patella bar
Medial tibial flare
Gastrocnemius area

Question 48

A person with a above knee amputation may have an abducted gait if?

Answer 48

There is pain or discomfort in the crouch, the prosthesis is too long

Question 49

What type of suspension is best suited for a person with a below knee amputation, a short limb and some medial lateral instability?

Answer 49

Supra condylar.

Question 50

T/F Contra lateral drop of the pelvis lowers the body at its highest point in the gait cycle?

Answer 50

True

Question 51

When the knee is flexing the tibia rotates on the femur, which way?

Answer 51

Internally rotates.

Question 52

When the knee is extending the tibia rotates on the femur, which way?

Answer 52

Externally rotates

Question 53

When should you use flexible hinges?

Answer 53

Body powdered long trans radial and wrist disarticulation.

Question 54

When should you use step-up hinges?

Answer 54

Bilateral amputee, very short bone length very limited elbow flexion.

Question 55

Advantages and disadvantages of body powdered prosthesis?

Answer 55

Advantages-ability to achieve high level of accuracy/speed

Disadvantages-discomfort caused by the shoulder harness and appearance of hook/terminal device.

Question 56

Advantages and disadvantages of myo electric prosthesis?

Answer 56

Advantages- freedom from suspension harness function of prosthesis is closer to human hand.
Disadvantages- much stronger grip forces/slower operation than body powdered hook. May find issues with prosthesis in hostile environment where dirt/water/ dust are frequent.

Question 57

Figure 9 harness?

Answer 57

Primarily with self suspending socket that require a harness only to provide terminal device operation.

Question 58

Figure 8 harness?

Answer 58

Most popular, ring cross point provides adjustable posterior fixation for all the strap.

Question 59

Shoulder saddle harness?

Answer 59

For amputees who do unusual amount of heavy lifting. Provide relive from axilla pressure. Can be seen easier with certain clothing (v neck/blouses).

Question 60

Quick disconnect/locking wrist?

Answer 60

One or more terminal device can be used, routinely performed activities that eliminate of any unwanted wrist rotation. Can be locked in many different positions but has no rotation.

Question 61

Standard friction wrist?

Answer 61

Provides passive wrist rotation, economical component.

Question 62

Flexion wrist?

Answer 62

For bilateral amputee, provides passive wrist rotation. Economical wrist unit.

Question 63

Multidirectional ball and socket wrist?

Answer 63

Provides not only flexion but also wrist extension as well as radial and ulnar deviation.

Question 64

Muscles that move the scapula?

Answer 64

Pectoralis major, serrated anterior, trapezius, elevator scapula, rhomboideus major, rhomboideus minor

Question 65

Muscles that move the humerus?

Answer 65

Pectoralis major. Latiddimus dorsi, deltoid, subscapularis, supraspinatus, infraspinstus, teres minor, teres major, corcobrachialis.

Question 66

What is the effect of shimming the dorsi flexion stop to place the shank in a vertical position?

Answer 66

Excessive shortening in range of planter flexion, resulting in stiffened plantar bumper and knee instability.

Question 67

If an AK amputee complains of pressure on the pubic ramus, the prosthetist should?

Answer 67

Lower the medial trim line 1/8 in at a time.

Question 68

To determine the control system efficiency of an upper extremity prosthesis?

Answer 68

Divide the force measured at the terminal device by the force at the hanger.
Note-this should be at least 70 percent

Question 69

An axilla pull test on an upper extremity prosthesis should be?

Answer 69

A force of 50 lbs and should not displace the socket more that an inch.

Question 70

In an below elbow amputee, it is desirable to?

Answer 70

Retain at least 50% of pronation and supination available

Question 71

Two load hook, max pinch hook?

Answer 71

7lbs

Question 72

When the arm is over head, the trapezius muscle?

Answer 72

Positions the glenoid cavity upward.

Question 73

T/F The latissimus dorsi and supraspinatus are prime movers in glenohumeral extension?

Answer 73

False
Latissimus dorsi-extends addicts and medially rotates
Supraspinatus-abducts humerus stabilization the glenohumeral joint.

Question 74

T/F If a patient with 65% length below elbow can flex his elbow only 90 degrees, the use of step up hunger is indicated:

Answer 74

True

Question 75

The below elbow arm is generally suspended by?

Answer 75

An inverted Y strap.

Question 76

The rhomboids originate on?

Answer 76

Thoracic vertebrae and insert along the scapula from the root of the spine

Question 77

External or lateral rotation of humerus is accomplished with the?

Answer 77

Teres minor and infraspinatus.

Question 78

Internal rotation of the humerus is produced by contraction of the?

Answer 78

Subscapularis teres major and Pectoralis major.

Question 79

The triceps muscles?

Answer 79

Extends shoulder, extends elbow.

Question 80

T/F Biceps not only extend the elbow but also flexes the glenohumeral joint?

Answer 80

False

Question 81

In an upper extremity amputation, surgery what is the best length?:

Answer 81

As much length as possible should be retained.

Question 82

The greatest disadvantage to the amputee in using any step-up hinge?

Answer 82

Loss of flexion power in forearm.

But for every 1degree you flex the joint the elbow flexes 2 degrees