OS Exam 3

Question 1

1) what is the correct position in which to evaluate a pt for somatic dysfunction of hip flexion
2) What is the expected range of motion for this motion
3) What is the correct way to block out linkage

Answer 1

1) supine
2) 90 degrees, knee extended, 120-135 degrees knee flexed
3) contralateral ASIS

Question 2

1) what is the correct position in which to evaluate a pt for somatic dysfunction of hip extension
2) What is the expected range of motion for this motion
3) What is the correct way to block out linkage

Answer 2

1) prone
2) 15-30 degrees
3) ipsilateral ischial tuberosity

Question 3

1) what is the correct position in which to evaluate a pt for somatic dysfunction of external rotation of the hip
2) What is the expected range of motion for this motion

Answer 3

1) supine; hip and knee flexed to 90 degrees OR
prone with knee flexed to 90 degrees
2) 40-60 degrees

Question 4

1) what is the correct position in which to evaluate a pt for somatic dysfunction of internal rotation of the hip
2) What is the expected range of motion for this motion

Answer 4

1) supine; hip and knee flexed to 90 degrees OR prone with knee flexed to 90 degrees
2) 30-40 degrees

Question 5

1) what is the correct position in which to evaluate a pt for somatic dysfunction of abduction of the hip
2) What is the expected range of motion for this motion

Answer 5

1) pt supine with knee extended

2) 45-50 degrees

Question 6

1) what is the correct position in which to evaluate a pt for somatic dysfunction of adduction of the hip
2) What is the expected range of motion for this motion

Answer 6

1) supine; sweep the leg

2) 20-30 degrees

Question 7

1) what is the correct position in which to evaluate a pt for somatic dysfunction of internal rotation of the knee joint
2) What is the expected range of motion for this motion

Answer 7

1) pt supine; doc at side of table, hip and knee flexed to 90 degrees OR prone with knee flexed to 90 degrees
2) 10 degrees

Question 8

1) what is the correct position in which to evaluate a pt for somatic dysfunction of external rotation of the knee joint
2) What is the expected range of motion for this motion

Answer 8

1) pt supine; doc at side of table, hip and knee flexed to 90 degrees OR prone with knee flexed to 90 degrees
2) 10 degrees

Question 9

1) what is the correct position in which to evaluate a pt for somatic dysfunction of adduction of the knee joint
2) describe the action taken as doc to perform this evaluation

Answer 9

1) pt supine; doc side of table,

2) contact lateral femur and medial ankle. valgus force = aDduction of the proximal tibia

Question 10

1) what is the correct position in which to evaluate a pt for somatic dysfunction of abduction of the knee
2) describe the action taken as doc to perform this evaluation

Answer 10

1) pt supine; doc at side of table

2) contact medial distal femur and lateral ankle. varus force + aBduction of the proximal tibia

Question 11

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the proximal fibula
2) describe the action taken as doc to perform this evaluation

Answer 11

1) pt supine, knee flexed and foot flat on table OR supine with knee in extension; doc at side of table
2) grab head of fibula in thumb and finger; apply anterior and posterior force to assess glide

Question 12

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the anterior/posterior lateral malleolus
2) describe the action taken as doc to perform this evaluation

Answer 12

1) pt supine; knee flexed and foot flat on table; doc at side of table
2) grab the lateral malleolus with thumb and index finger; apply anterior and posterior force to assess glide

Question 13

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the talus
2) What is the expected range of motion for this motion

Answer 13

1) pt supine; doc at foot of the table
2) passive dorsiflexion = 15-20 degrees; passive plantar flexion = 50-65 degrees
MOTION IS OCCURRING BETWEEN THE TALUS AND THE TIB/FIB

Question 14

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the calcaneus
2) What is the expected range of motion for this motion

Answer 14

1) pt supine, doctor standing at foot of table; 90 degrees between tibia and foot to avoid laxity in subtalar joint
2) passive inversion = 35 degrees, passive eversion = 20 degrees
1O DEGREES OF MOTION IN THE SUBTALAR JOINT

Question 15

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the navicular
2) describe the action taken by the doc to perform this evaluation
3) describe dysfunction in the navicular

Answer 15

1) pt supine, doc at foot of table
2) doctor grips the navicular and puts into dorsal and plantar gliding motion
plantar glide is more common; dorsal glide associated with tight plantar fascia

Question 16

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the cuboid
2) describe the action taken by the doc to perform this evaluation
3) describe dysfunction in the cuboid

Answer 16

1) pt supine, doctor is standing at the foot of the table
2) doctor passively puts cuboid into dorsal and plantar glide.
3) more common to have plantar glide dysfunction; dorsal glide dysfunction associated with posterior fibular head

Question 17

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the cuneiform
2) describe the action taken by the doc to perform this evaluation
3) describe dysfunction in the cuneiform

Answer 17

1) pt supine, doctor at foot of the table
2) passive dorsal and plantar glide
3) more common to have plantar glide dysfunction

Question 18

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the metatarsals
2) describe the action taken by the doc to perform this evaluation
3) What is the correct way to block out linkage

Answer 18

1) pt supine, doc standing at foot of the table
2) doc applies passive force to place metatarsal into dorsal and plantar glide; more common to have plantar glide dysfunction
3) block out linkage at neighboring metatarsals with opposite thumb and index finger

Question 19

1) what is the correct position in which to evaluate a pt for somatic dysfunction of metatarso-phalangeal joint
2) describe the action taken by the doc to perform this evaluation
3) What is the correct way to block out linkage

Answer 19

1) pt supine doctor standing at foot of the table; grasp metatarsal-phalangeal joint with thumb and index finger
2) passive dorsi/plantarflexion, aB/aDuction, internal/external rotation
3) blocks linkage at the associated metatarsal head with opposite thumb and index finger

Question 20

1) describe the motions performed to evaluate the glenohumeral joint
2) What is the correct way to block out linkage

Answer 20

1) 
flexion - 180 degrees
extension - 60 degrees, 
abduction - 180 degrees 
adduction - 40-50 degrees, 
internal/external rotation - 90 degrees
anterior/inferior glide
posterior superior glide
2) contact olecranon to block out linkage

Question 21

1) describe the motions performed to evaluate the acromioclavicular joint

Answer 21

1) bring glenohumeral joint into 60 degrees coronal abduction and 60 degrees horizontal abduction to maximize AC joint motion; maintain position and internally and externally rotate glenohumeral joint

Question 22

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the sternoclavicular joint
2) describe the motion of the clavicle in horizontal flexion and extension of the SC joint

Answer 22

1) pt supine, fingers anteriorly on the clavicular head
pt flexes shoulders to 90 degrees and reaches for ceiling
2) proximal end moves posterior in flexion; proximal end moves anterior in extension

Question 23

1) describe the motion of the clavicle in sternoclavicular aBduction and aDduction

Answer 23

1) doc places index fingers of both hands on the superior aspect of the head of both clavicles and has patient shrug their shoulders
2) proximal end moves inferiorly in abduction; proximal end moves superiorly in adduction

Question 24

1) what is the correct position in which to evaluate a pt for somatic dysfunction of the scapulothoracic joint

Answer 24

1) lateral recumbent, doc facing the patients anterior, contacting inferior angle of the scapula with their caudad hand, acromion with their cephalad hand

Question 25

what muscles are responsible for scapular elevation

Answer 25

upper trapezius

levator scapulae

Question 26

what muscles are responsible for scapular depression

Answer 26

lower trapezius

lower rhomboids

Question 27

what muscles are responsible for scapular retraction

Answer 27

rhomboids and middle trapezius

Question 28

what muscles are responsible for scapular protraction

Answer 28

serratus anterior

Question 29

what muscles are responsible for scapular upward rotation

Answer 29

serratus anterior and upper trapezius

Question 30

what muscles are responsible for scapular downward rotation

Answer 30

levator scapulae, rhomboid major and minor, latissimus dorsi

Question 31

what force is applied to evaluate ulnar aBduction

Answer 31

valgus force

Question 32

what force is applied to evaluate ulnar aDuction

Answer 32

varus force

Question 33

how should to doc contact the pt when evaluating radial head motion

Answer 33

one hand on the wrist and the other hand on the radial head

Question 34

describe the motions of the radial head in posterior glide

Answer 34

posterior radial head dysfunction will have ease of motion to posterior glide and forearm pronation with restriction anterior glide and forearm supination

Question 35

describe the motions of the radial head in anterior glide

Answer 35

anterior radial head dysfunction will have ease of motion to anterior glide and forearm supination with restriction to posterior glide and forearm pronation

Question 36

describe the motions that occur during wrist flexion

Answer 36

carpal bones have posterior glide with wrist flexion

Question 37

describe the motions that occur during wrist extension

Answer 37

carpal bones have anterior glide with wrist extension

Question 38

wrist abduction is also called what

Answer 38

radial deviation

Question 39

wrist adduction is also called what

Answer 39

ulnar deviation

Question 40

describe the motion occurring at rib 1

Answer 40

50% bucket 50% pump handle

Question 41

describe the motion occurring at rib 2

Answer 41

primarily pump handle respiratory motion

Question 42

describe hand placement for the evaluation of bucket handle somatic dysfunction in the upper ribs

Answer 42

thumbs posteriorly on angles of rib 1

index fingers in supraclavicular fossa anterior to traps to feel the superior lateral aspect of rib 1

Question 43

describe hand placement for the evaluation of pump handle somatic dysfunction in the upper ribs

Answer 43

index fingers move posterior the clavicle over superior anterior aspect of rib 1
middle and ring fingers are placed over the anterior aspect of rib 2

Question 44

which rib do we treat in an inhalation somatic dysfunction

Answer 44

most inferior/bottom

Question 45

which rib do we treat in an exhalation somatic dysfunction

Answer 45

most superior/top

Question 46

describe the motion present at ribs 3-6

Answer 46

mix; less pump handle as you move inferiorly; rib 6 is approximately 50/50

Question 47

describe hand placement in the evaluation of ribs 3-6 for pump handle motion

Answer 47

costochondral articulations

Question 48

describe hand placement in the evaluation of ribs 3-6 for bucket handle motion

Answer 48

midaxillary line

Question 49

describe the motion present in ribs 11 and 12

Answer 49

caliper motion

Question 50

describe hand placement in evaluation of floater ribs for somatic dysfunction

Answer 50

pt prone
examiner at side of table
thumbs to palpate the posterior aspect
2nd and 3rd fingers to palpate the lateral and anterior aspects of ribs 11 and 12 bilaterally

Question 51

restriction of motion in the 11th and 12th ribs is influenced by what muscle?

Answer 51

quadratus lumborum