Hip

Question 1

Hip is union of what 3 bones?

Answer 1

• ilium
• pubis
• ischium

Question 2

Pelvis is referred to as?

Answer 2

osteoligamentous ring,

Question 3

What 3 functions is the pelvis associated with?

Answer 3

1. common attachment point for large muscles of lower extremity and trunk
2. transmits weight of upper body and trunk to ischial tuberosities during sitting or to lower extremities during standing and walking
3. supports organs involved with bowel, bladder and productive function

Question 4

Shaft of femur displays slight:

Answer 4

anterior convexity

Question 5

The stress along femur is dissipated through:

Answer 5

compression alongs its posterior shaft and through tension along its anterior shft

Question 6

Bowing of femur allows:

Answer 6

femur to bear greater load than if femur were perfectly straight

Question 7

What is the shape and configuration of developing proximal femur detemined by:

Answer 7

1. differential growth of bone’s ossification centers
2. force of muscle activation and weight bearing
3. circulation

Question 8

What is femoral dysplasia?

Answer 8

Abnormal growth and development resulting in mis-shaped proximal femur

Question 9

What can affect the shape of proximal femur?

Answer 9

trauma or other acquired factors

Question 10

What angulations of proximal femur define its shape:

Answer 10

• angle of inclination

- torsional angle

Question 11

What is the angle of inclination?

Answer 11

angle within frontal plane b/w femoral neck and medial side of femoral shaft

Question 12

What is the angle of inclination at birth?

Answer 12

140 to 150 degrees

Question 13

What is the normal adult angle of inclination?

Answer 13

125 degrees

Question 14

Cox vara:

Answer 14

less than 125 degrees

Question 15

Cox valga:

Answer 15

greater than 125 degrees

Question 16

What does angle of inclination affect?

Answer 16

alters articulation between femoral head and acetabulum affecting hip mechanics

Question 17

What can severe malalignment lead to?

Answer 17

dislocation or stress-induced degeneration of hip joint

Question 18

What does femoral torsion describe?

Answer 18

relative rotation between bone’s shaft and neck

Question 19

What is normal view of femoral neck?

Answer 19

from above, femoral neck projects about 15 degrees anterior to a ML axis through femoral condyles

Question 20

What is normal anteversion?

Answer 20

femoral neck projects about 15° anterior to a ML axis through femoral condyles

Question 21

What does normal anteversion and angle of inclination afford?

Answer 21

optimal alignment and joint congruence

Question 22

Angle of torsion between neck and shaft of femur can be:

Answer 22

1. normal anteversion
2. excessive anteversion
3. retroversion

Question 23

What can excessive anteversion increase?

Answer 23

the likelihood of hip dislocation, articular incongruence, increased joint contact force and increased wear on articular cartilage
*all can lead to OA of hip

Question 24

What can excessive anteversion in children lead to?

Answer 24

abnormal gait pattern called in-toeing

Question 25

What is in-toeing?

Answer 25

a walking pattern with exaggerated posturing of hip internal rotation

Question 26

What is the amount of in-toeing related to?

Answer 26

amount of femoral anteversion

Question 27

In-toeing is a:

Answer 27

compensatory mechanism used to guide excessively anteverted femoral head more directly into acetabulum

Question 28

Internal rotated position can lead to:

Answer 28

shortening of internal rotator muscles and ligaments

Question 29

Shortening of internal rotator muscles and ligaments can reduce:

Answer 29

external rotation and ROM

Question 30

What is seen in persons with cerebral palsy?

Answer 30

excessive femoral anteversion of 25-45 degrees

Question 31

In anatomic position, how does the acetabulum project?

Answer 31

laterally from the pelvis with varying amount of inferior and anterior tilt

Question 32

What are the two measurements used to describe extend to which acetabulum naturally covers and helps secure femoral head:

Answer 32

1. center-edge angle

2. acetabular anteversion angle

Question 33

A malshaped, dysplastic acetabulum that does not adequately cover femoral head can lead to what?

Answer 33

to chronic dislocation and ↑ stress, often leading to degeneration or OA

Question 34

What is the average center-edge angle?

Answer 34

35 degrees in radiograph of adults

Question 35

A lower central-edge angle does what?

Answer 35

decreases acetabular coverage of femoral head

Question 36

What does reduced acetabular coverage increase?

Answer 36

the risk of dislocation and decreases contact area within joint

Question 37

A center-edge angle of only 15 degrees:

Answer 37

reduces normal contact area by as much as 35%

Question 38

Acetabular anteversion angle measures:

Answer 38

extent to which acetabulum projects anteriorly within horizontal plane, relative to pelvis

Question 39

What is the normal acetabular anteversion angle?

Answer 39

about 20 degrees

Question 40

A hip demonstrating excessive acetabular anteversion is more exposed:

Answer 40

anteriorly

Question 41

When anteversion is severe:

Answer 41

hip is more prone to anterior dislocation and associated lesions of anterior labrum, especially at extremes of external rotation

Question 42

What is retroverted?

Answer 42

An acetabulum that projects directly laterally, or even slightly posterior-laterally, within horizontal plane

Question 43

What is taut in end range hip flexion (knee extended)

Answer 43

hamstrings

Question 44

What is taut in end range hip flexion (knee flexed)

Answer 44

inferior and posterior capsule; gluteus maximus

Question 45

What is taut in end range hip extension (knee extended)?

Answer 45

Primarily iliofemoral ligament, some fibers of the pubofemoral and ischiofemoral ligaments; psoas majo

Question 46

What is taut in end range hip extension (knee flexed)?

Answer 46

rectus femoris

Question 47

What is taut in end range abduction?

Answer 47

pubofemoral ligament; adductor muscles

Question 48

What is taut in end range adduction?

Answer 48

Superior fibers of ischiofemoral ligament; iliotibial band; and abductor muscles such as the tensor fasciae latae and gluteus medius

Question 49

What is taut in end range internal rotation?

Answer 49

Ischiofemoral ligament; external rotator muscles, such as the piriformis or gluteus maximus

Question 50

What is taut in end range external rotation?

Answer 50

Iliofemoral and pubofemoral ligaments; internal rotator muscles, such as the tensor fasciae latae or gluteus minimus

Question 51

What twists fibers within capsular ligaments to their most taut position?

Answer 51

full extension of hip, in conjunction with slight internal rotation and slight abduction

Question 52

What is full extension of the hip?

Answer 52

about 20 degrees beyond neutral position

Question 53

What is the close-packed position of the hip?

Answer 53

full extension, slight internal rotation and abduction

Question 54

The closed packed position elongates what?

Answer 54

most of the capsule

Question 55

What position is useful therapeutically during attempts to stretch entirety of hip’s capsular ligaments?

Answer 55

full hip extension, with slight internal rotation and slight abduction

Question 56

True or False: the hip is associated with position of maximal joint congruency

Answer 56

false

Question 57

When are the hip joint surfaces most congruently fit?

Answer 57

in about 90 degrees of flexion with moderate abduction and external rotation
-most of capsule and associated ligaments have unraveled to more slackened state, adding only little passive tension to joint

Question 58

Femoral on pelvic describes:

Answer 58

rotation of femur about a relatively fixed pelvis

Question 59

Pelvic on femoral describes:

Answer 59

rotation of pelvis, and often superimposed trunk, over relatively fixed femurs

Question 60

Flexion and extension occur in what plane?

Answer 60

sagittal (ML AOR)

Question 61

Abduction and adduction occur in what plane?

Answer 61

frontal plane (AP AOR)

Question 62

Internal and external rotation occur in what plane?

Answer 62

horizontal plane (vertical AOR)

Question 63

Femoral on pelvic movement?

Answer 63

convex on concave (opposite directions)

Question 64

How is the caudal end ox axial skeleton attached to pelvis?

Answer 64

SI joint

Question 65

What is lumopelvic rhythm?

Answer 65

rotation of pelvis over femoral heads typically changes configuration of lumbar spine

Question 66

What is Ipsidirectional lumbopelvic rhythm?

Answer 66

pelvis and lumbar spine rotate in same direction

Question 67

What is the effect of ipsidirectional lumbopelvic rhythm?

Answer 67

maximize angular displacement of entire trunk relative to lower extremities—an effective strategy for increasing reach of upper extremities

Question 68

What happens during contradirectional lumbopevic rhythm?

Answer 68

pelvis rotates in one direction while lumbar spine simultaneously rotates in opposite direction

Question 69

Pelvic on femoral movement?

Answer 69

concave on convex-movement on same direction

Question 70

Primary hip flexors:

Answer 70

Iliopsoas
Sartorius
Tensor fasciae latae
Rectus femoris
Adductor longus
Pectineus

Question 71

Primary hip adductors:

Answer 71

Pectineus
Adductor longus
Gracilis
Adductor brevis
Adductor magnus

Question 72

Secondary hip flexors:

Answer 72

Adductor brevis
Gracilis
Gluteus minimus (anterior fibers)

Question 73

Secondary hip adductors

Answer 73

Biceps femoris (long head)
Gluteus maximus (lower fibers)
Quadratus femoris

Question 74

Secondary hip internal rotators:

Answer 74

Gluteus minimus (anterior fibers)
Gluteus medius (anterior fibers)
Tensor fasciae latae
Adductor longus
Adductor brevis
Pectineus

Question 75

Primary hip extensors

Answer 75

Gluteus maximus
Biceps femoris (long head)
Semitendinosus
Semimembranosus
Adductor magnus (posterior head)

Question 76

Primary hip abductors

Answer 76

Gluteus medius
Gluteus minimus
Tensor fasciae latae

Question 77

Primary hip external rotators

Answer 77

Gluteus maximus
Piriformis
Obturator internus
Gemellus superior
Gemellus inferior
Quadratus femoris

Question 78

Secondary hip extensors

Answer 78

Gluteus medius (posterior fibers)
Adductor magnus (anterior head)

Question 79

Secondary hip abductors

Answer 79

Piriformis

Sartorius

Question 80

Secondary hip external rotators

Answer 80

Gluteus medius (posterior fibers)
Gluteus minimus (posterior fibers)
Obturator externus
Sartorius
Biceps femoris (long head)