Exam 3-Unit 11:Intro to Orthotics/Anatomical Principles/Materials

Question 1

Define Orthosis

Answer 1

A custom molded, fitted, & prefabricated orthosis fabricated and/or dispensed by therapists

Question 2

CPT codes: HCPCS Level_?

Answer 2

Level 1.
Developed by the AMA & includes codes such as Therapeutic Exercise (97110).

Question 3

Wrist Hand orthotics code?

Answer 3

L3906 WHO (C/F)

Question 4

Where were the First Orthotics developed?

Answer 4

Egypt.

Later, in WWII, Hand Splinting became important by Dr. Sterling Bunnell.

Question 5

When did Splints & Orthotics first become commercially available?

First used for Function?

Answer 5

1940s

1950s–Polio

Question 6

When did Low Temp Thermoplastics first develop?

Answer 6

1960s

Question 7

When did the American Society of Hand Therapists (ASHT) first establish?

Answer 7

1977

Question 8

When did the Certified Hand Therapist (CHT) develop? Who developed it?

Answer 8

1989

By the Hand Therapist Certification Commission (HTCC)

Question 9

Orthotics should always be _______ of the body part (on the sides)

Answer 9

1/2 the width of the body part, increasing the area of force application.

Question 10

How can pressure be decreased, increasing comfort of wearing orthotic?

Answer 10

Make the orthotic Wider, increasing the area of force application.

& make the orthotic Longer, increasing the mechanical advantage.

Question 11

What are force systems?

Answer 11

2 & 3 point pressure orthotic designs

Question 12

What is the optimal line of pull? A.k.a., the optimal rotational force.

If greater or less than the optimal measure, what can this cause?

Answer 12

90°

If greater or less than 90°, can cause a shearing or compressive force.

Question 13

Orthotics should be ______ of the forearm.

Answer 13

2/3 the length, increasing mechanical advantage.

Question 14

Mechanical advantage of a lever system is defined by…

Answer 14

The relationship between the length of the effort arm (EA) and the length of the resistance arm (RA).

Question 15

How does the force adjust if the location it is applied is further away from the fulcrum, or joint?

Answer 15

The force required increases the greater the distance from the fulcrum or joint.
(Torque effect)

Question 16

When utilizing a mobilization orthotic, the process of ensuring that proximal & distal joints are appropriately stabilized is called what?

Answer 16

Control reaction at secondary joints.

Question 17

In a 3-point pressure system the ______ reciprocal pressure equals the sum of the proximal & distal forces.

Answer 17

Middle.

Question 18

What component of orthotics supports “pull” from traction devices?

Answer 18

Outriggers.

Question 19

If the 90° line of pull is to be maintained, as joint motion changes, what else must change?

Answer 19

Outrigger

Question 20

The process of incorporating articulated components involves what?

Answer 20

Carefully aligning the orthotic joints/hinges with the corresponding anatomical joints.

Question 21

Contouring material does what to the orthotic?

Answer 21

Increases the strength of the orthotic.

Question 22

What techniques eliminate friction when wearing orthotic?

Answer 22

1) Designing orthotics in accordance to key skin creases = doesn’t impede desired joint motion.
2) Ensure straps are wide enough to avoid orthotic migration/slippage.
–Wider straps also help distribute force.

Question 23

If you _____ the RA, the _____ force is required to support a joint.

Answer 23

If you lengthen the RA, less force required.

If you shorten the RA, more force is required.

Question 24

What muscles are required for upward rotation–scapulohumeral?

Answer 24

Upper traps
Serratus anterior
Lower traps

Question 25

What muscles are required for downward rotation–scapulohumeral?

Answer 25

Levator scapulae
Rhomboids
Pec minor

Question 26

Shoulder flexion prime movers?

Answer 26

Anterior deltoid (Axillary n.)
Clavicular pectoralis

Question 27

Shoulder extension prime movers?

Answer 27

Posterior deltoid (Axillary n.)
Latissimus dorsi (Thoracodorsal n.)
Teres major (Lower subscapular n.)
Pectoralis major (Lateral & medial pectoral n.)

Question 28

Shoulder hyperextension prime movers?

Answer 28

Posterior deltoid (Axillary n.)
Latissimus dorsi (Thoracodorsal n.)

Question 29

Shoulder abduction prime movers?

Answer 29

Deltoid
Supraspinatus (Subscapular n.)

Question 30

Shoulder adduction prime movers?

Answer 30

Pec major
Teres major (Lower subscapular n.)
Latissimus dorsi (Thoracodorsal n.)

Question 31

Shoulder horizontal abduction prime movers?

Answer 31

Posterior deltoid (Axillary n.)
Infraspinatus (Subscapular n.)
Teres minor (Axillary n.)

Question 32

Shoulder horizontal adduction prime movers?

Answer 32

Anterior deltoid (Axillary n.)
Pec major (Lateral & medial pectoral n.)

Question 33

Shoulder external rotation prime movers?

Answer 33

Posterior deltoid (Axillary n.)
Teres minor (Axillary n.)
Infraspinatus (Subscapular n.)

Question 34

Shoulder internal rotation prime movers?

Answer 34

Anterior deltoid
Pec major (Lateral & medial pectoral n.)
Teres major (Lower subscapular n.)
Subscapularis (Upper & lower subscapular n.)
Latissimus dorsi (Thoracodorsal n.)

Question 35

Innervation of Coracobrachialis, Biceps, & Brachialis?

Answer 35

Musculocutaneous n.

Question 36

What kind of joint is the Scapulothoracic joint?

Answer 36

Pseudo joint

Question 37

Carrying angle?
Men’s & Women’s?

Answer 37

Results from trochlea extending further than capitulum.

Men: -5°
Women: 10-15°

Question 38

Humeroulnar joint: formed by? Function? Type of joint?

Answer 38

Formed by trochlea & trochlear notch of the ulna.
Functions: Flexion & Extension.
Type: Hinge joint

Question 39

Humeroradial joint: formed by? Function? Type of joint?

Answer 39

Formed by the capitulum & radial head.
Functions: Supination & pronation.
Type: Hinge joint

Question 40

Elbow flexion prime mover?

Answer 40

Biceps, Brachialis, Brachioradialis

Question 41

TFCC function?

Answer 41

Major stabilizer of the ulnar carpus & distal radio ulnar joint
Absorbs 20% of the axial load across wrist joint–”shock absorber”

Question 42

Elbow extension prime mover?

Answer 42

Triceps

Question 43

Forearm pronation & supination prime movers?

Answer 43

Pronation: Pronator teres & pronator quadratus
Supination: Biceps & Supinator

Question 44

Carpal bones: Proximal row

Answer 44

Scaphoid, Lunate, Triquetrum, Pisiform

Question 45

Carpal bones: Distal row

Answer 45

Trapezium, Trapezoid, Capitate, Hamate

Question 46

Volar angulation?

Answer 46

11° tilt (more flexion than extension)

Question 47

CMC joint of 2nd & 3rd digit…

Answer 47

No motion; stable joint.

Question 48

CMC joint of 4th & 5th digit…

Answer 48

20-40 degrees of flexion.
–Allows “cupping” of the hand.

Question 49

80

Answer 49

80