Elbow Complex

Question 1

Bones (3}) and joints (4) of the Elbow Complex

Answer 1

Bones: humerus, radius, ulna

Joints: humeroradial joint, humeroulnar joint, radioulnar joint (proximal & distal)

Question 2

T or F

The ulna is larger proximally, while the radius is larger distally

Answer 2

TRUE

Question 3

The Humeroulnar joint is formed by what specific landmark of the bones?

Answer 3

Formed by the trochlear notch of the ulna
+
The trochlea of the humerus

Question 4

What is the concave and convex of the humeroulnar joint?

Answer 4

Trochlear notch: concave
Trochlea: convex

Question 5

How many DOF does the humeroulnar joint have? and what is it?

Answer 5

• DOF: 1 (flexion/extension)

Question 6

What type of joint id the humeroulnar joint?

Answer 6

Synarthrodial joint; hinge joint
- can be modified as modified hinge joint

Question 7

What rule is applied to the Humeroulnar joint?
For both flexion and extension

Answer 7

Convex-concave rule: concave on convex

Question 8

During flexion,
The concavity of the trochlear notch will ___ and ___on the trochlea of the humerus

Answer 8

The concavity of the trochlear notch will ROLL and SLIDE
on the trochlea of the humerus

Question 9

Which statement id false:
- In open kinematic chain (OKC) motion, sliding and rolling are in the same direction
- In closed kinematic chain (CKC) motion, sliding (posterior) and rolling (anterior) are in different directions

Answer 9

NONE

Question 10

According to some references, if flexed at ____ (degrees),
there’s no surface contact between the trochlea and
trochlear notch

Answer 10

According to some references, if flexed at 30°-120°,
there’s no surface contact between the trochlea and
trochlear notch

Question 11

What movement?
The olecranon process (ulna) enters the olecranon fossa (humerus)

Answer 11

Elbow Extension

Question 12

What happens when the elbow is extended? (what part is lax and taught)

Answer 12

• Anterior part: the flexor muscles, anterior capsule, and
  anterior fibers of the MCL are stretched
• Posterior part: the extensor muscles and posterior
  capsule are slack

Question 13

What specific bony landmark compose the Humeroradial joint?

Answer 13

Formed by the radial head
+
The capitulum (humerus)

Question 14

In the humeroradial joint, which is concave and which is convex?

Answer 14

Radial head (fovea): concave
Capitulum: convex

Question 15

What rule is applied to the Humeroradial joint?

Answer 15

Convex-concave rule: concave on convex

Question 16

This is a condyloid joint

Answer 16

HUMERORADIAL (HR) JOINT

Question 17

What movement of the Humeroradial joint;
The rim of the radial head slides in the capitulotrochlear groove which will enter the radial fossa

Answer 17

Flexion

Question 18

What happens to the humeroradial joint during elbow flexion (which Roll and slide)

Answer 18

• Movement of this is most of the radius on the humerus
• The radial head will ROLL and SLIDE on the capitulum (humerus)
• The radial head will move anteriorly

Question 19

T or F

Most activities of daily living (ADL) will occur within the arch of 90°-130°

Answer 19

FALSE
Most activities of daily living (ADL) will occur within the
arch of 30°-130°

Question 20

Normal ROM: of elbow joint (Flex/extend)

Answer 20

Normal ROM: 0-145°

Question 21

Which is incorrect: HR joint flexion
- OKC: same direction (Posterior)
- CKC: anterior roll, posterior slide

Answer 21

• OKC: same direction (anterior)

Question 22

Which is incorrect: HR extension
- OKC: same direction (posterior)
- CKC: anterior slide, posterior roll

Answer 22

Both are correct

Question 23

Aka “pulled elbow”

Answer 23

NURSEMAID’S ELBOW

Question 24

nursemaid’s elbow is more common to young children who are less than ___ years old
- This is due to the lack of development of the articulation and ligament; less stable

Answer 24

5 years old

Question 25

Mechanism of injury: of the nursemaid elbow

Answer 25

Mechanism of injury: attraction force within the elbow of the child

Question 26

The radial head is traumatically pulled out from the attachment (radial fossa)
- This makes the __ ___ to be torn

Answer 26

Nursemaid elbow
Annular ligament is torn

Question 27

Specific bony composition of the proximal Radioulnar joint

Answer 27

Attachment of the radial notch (ulna)
+
radial head (radius)

Question 28

What rule is applies to the proximal RU joint?

Answer 28

Concave-convex rule: convex on concave

Question 29

What is convex and concave in the proximal Ru joint?

Answer 29

• Radial head (rim): convex
• Radial notch: concave

Question 30

What type of joint is the Proximal RU joint?

Answer 30

Pivot joint

Question 31

Specific components of the Distal RU joint?

Answer 31

Attachment of the ulnar notch (radius)
+
ulnar head (ulna)

Question 32

What rule is applied to the Distal RU joint?

Answer 32

Concave-convex rule: concave on convex

Question 33

Which is convex and concave in the distal RU joint?

Answer 33

• Ulnar head: convex
• Ulnar notch: concave

Question 34

What movement will the radius will move over the ulna

Answer 34

Pronation

Question 35

Arthrokinematics of the proximal segment (RU joint) during pronation
OKC:
CKC:

Answer 35

• OKC: the radius will rotate anteriorly on the ulna
• CKC: the radius (convex) is fixed while the ulna (concave) moves, providing the same direction for rotating (anterior)

Question 36

Arthrokinematics of the distal segment (RU joint) during pronation
OKC:
CKC:

Answer 36

• OKC: the ulnar notch (radius) will roll and slide posteriorly [concave on convex]
• CKC: the ulna (convex) will move against the radius (concave), providing opposite movement; anterior rolling and posterior sliding

Question 37

According to other references (other than Brunnstrom’s),
the ulna is fixed, however, according to Brunnstrom’s, the
ulna will move posterolaterally

Answer 37

Take note

Question 38

The movement of the ulna will be ___ during supination

Answer 38

The movement of the ulna will be anteromedial

Question 39

Arthrokinematics of the proximal segment during supination
OKC:
CKC:

Answer 39

• OKC: the radius will rotate posteriorly
• CKC: the ulna will rotate posteriorly

Question 40

Arthrokinematics of the distal segment during supination
OKC:
CKC:

Answer 40

• OKC: the ulnar notch (radius) will roll and slide anteriorly
• CKC: the ulna will roll posteriorly and slide anteriorly

Question 41

What movement will The palmar capsular ligament (anterior hand) will stretch, while the dorsal capsular ligament will be lax

Answer 41

SUPINATION

Question 42

What movement will the The palmar capsular ligament will be lax, while the dorsal capsular ligament will stretch

Answer 42

PRONATION

Question 43

LIGAMENTS OF THE ELBOW COMPLEX

Answer 43

MEDIAL/ULNAR COLLATERAL LIGAMENT (MCL)
LATERAL COLLATERAL LIGAMENT COMPLEX (LCL)
ANNULAR LIGAMENT
QUADRATE LIGAMENT

Question 44

This binds the radius and ulna

Answer 44

INTEROSSEUS MEMBRANE

Question 45

• Serves as a stable attachment site for several extrinsic muscles of the hand

Answer 45

INTEROSSEUS MEMBRANE

Question 46

T or F
the Interosseous membrane decreases the surface area for muscle attachment

Answer 46

FALSE
Increases the surface area for muscle attachment

Question 47

Most of the fibers of the interosseus membrane are called the

Answer 47

CENTRAL BAND
–This has ultimate tensile strength and is twice the thickness of other fibers

Question 48

Patients with any problem regarding the interosseous membrane should avoid ??

Answer 48

Patients with any problem regarding the interosseous
membrane should avoid compressing and distracting
forces

Question 49

What force?
The interosseus membrane is stretched (taut) and it
helps with the distribution of force towards the UE

Answer 49

COMPRESSION FORCE

Question 50

What force?
The interosseus membrane is relaxed (lax/slack)

Answer 50

DISTRACTING FORCE

Question 51

Stress wherein The forearm moves away from the midline
There’s compression stress on the lateral aspect/compression and distraction stress on the medial aspect of the elbow

Answer 51

VALGUS STRESS

Question 52

What ligament is stretched during:
VALGUS:
VARUS:

Answer 52

VALGUS: MCL
VARUS: LCL

Question 53

Normal ROM for elbow flexion:
reffered to as ___ arc

Answer 53

Normal ROM for elbow flexion: 0-145°
Functional arc

Question 54

Elbow can be flexed actively/passively (based on HR joint), How many degrees for each:
- Active:
- Passive:

Answer 54

Active: 30°-145°
Passive: 150°-160° added

Question 55

T or F
If the forearm is in a supinated position then it’s flexed, the ROM is less than when the forearm is pronated

Answer 55

FALSE
If the forearm is in a pronated position (or it’s in the process of going to pronation/supination) then it’s flexed, the ROM is less than when the forearm is supinated

Question 56

If the forearm is supinated THEN flexed, the ROM is?

Answer 56

GREATER

Question 57

If the forearm is mid-supinated THEN flexed, the ROM is ?

Answer 57

LESSER

Question 58

T or F

The 30°-130° arch of elbow flexion is the elbow ROM in order to perform all the ADL

Answer 58

TRUE

Question 59

T or F

The Subclavius and biceps brachii may limit the elbow ROM since these crosses the elbow and shoulder

Answer 59

FALSE
The triceps and biceps brachii may limit the elbow ROM
since these crosses the elbow and shoulder

Question 60

During shoulder flexion, elbow flexion is LIMITED and
there’ll be tension in the (muscle)

Answer 60

During shoulder flexion, elbow flexion is LIMITED and there’ll be tension in the TRICEPS BRACHII

Question 61

During shoulder hyperextension, elbow extension is
LIMITED and there’ll be tension in the(muscle)

Answer 61

During shoulder hyperextension, elbow extension is LIMITED and there’ll be tension in the BICEPS BRACHII

Question 62

• Normal ROM for PRONATION:
• Normal ROM for SUPINATION:
• Functional arch for elbow flexion:

Answer 62

• Normal ROM for PRONATION: 0-75°
• Normal ROM for SUPINATION: 0-85°
• Functional arch for elbow flexion: 30-130°

Question 63

Functional arch for pronation/supination: __° respectively

Answer 63

50

Question 64

This is also called the cubitus angle/valgus

Answer 64

CARRYING ANGLE

Question 65

Which carrying angle is greater male or females?? how many degrees for each?

Answer 65

females 13°-16° GREATER
Male: 11°-14°

Question 66

If the value is less than normal (<5°), it’s considered as cubitus varus (pathologic deformity) aka?

Answer 66

gunstock deformity