Thoracic Wall: Osteology & Muscles

Question 1

what is thorax?

Answer 1

the part of the body between the neck and the abdomen, including the cavity enclosed by the ribs, sternum, and dorsal vertebrae, and containing the chief organs of circulation and respiration; the chest

Question 2

mediastinum

Answer 2

central compartment

Question 3

L/R pleural compartments are separated by the

Answer 3

mediastinum

Question 4

what shape does the thoracic skeleton take the shape of? (3)

Answer 4

a dome, birdcage or truncated cone

Question 5

where is the thoracic cavity narrowest?

Answer 5

superiorly, with the circumference increasing inferiorly

Question 6

the floor of the respiratory diaphragm is — superiorly

Answer 6

convex

Question 7

are the walls of the thoracic wall thick or thin?

Answer 7

relatively thin

Question 8

what are the four functions of the thoracic cavity?

Answer 8

protect vital thoracic/abdominal organs from external forces
resist the negative internal pressure created by the elastic recoil of the lungs
provide attachments for and support the weight of the upper limbs
provide the origin for some upper limb muscles and attachments for muscles of the abdomen, neck, back, and respiration

Question 9

true ribs

Answer 9

1-7
attach vertebrae to the sternum
(costal cartilage) from the sternal end to the sternum/breastbone

Question 10

false ribs

Answer 10

8-10 have cartilages attached to the cartilages of ribs superior
(don’t have a cartilage of their own, join the intrasternal angle)

Question 11

floating ribs

Answer 11

11-12 have cartilages ending in the posterior abdominal wall musculature

Question 12

what are cartilages of 7-10 are joined to form the

Answer 12

infrasternal angle

Question 13

ribs and costal cartilages are separated by an

Answer 13

intercostal space

Question 14

what is the superior thoracic aperture (thoracic outlet and inlet) bounded by?

Answer 14

1st thoracic vertebra, 1st pair of ribs, and superior border of the manubrium

Question 15

inferior thoracic aperture is closed by the

Answer 15

diaphragm

Question 16

structures must pass through the inferior thoracic aperture – it

Answer 16

behind

Question 17

what do the facets of the head of the ribs articulate with?

Answer 17

inferior and superior costal facets of the adjacent thoracic vertebrae

Question 18

where does the tubercle of the ribs articulate with?

Answer 18

the costal facet of the transverse process of vertebrae of the same number

Question 19

what is the number of ribs increased by? what is it decreased by?

Answer 19

increased by the presence of cervical and/or lumbar ribs

decreased by failure of the 12th pair to form

Question 20

how common are cervical ribs?

Answer 20

fairly common

.5-2%

Question 21

what do cervical ribs interfere with?

Answer 21

neuromuscular structures exiting the superior thoracic aperture

Question 22

what is the clinical significance of supernumerary (extra) ribs

Answer 22

confusion in radiological diagnosis

Question 23

thoracic outlet syndrome (TOS)

Answer 23

a group of disorders that occur when there is compression, injury, or irritation of the brachial plexus and/or subclavian vessels in the lower neck and upper chest

Question 24

the manubriosternal and xiphisternal joints can fuse and become a

Answer 24

synostosis in older persons

Question 25

failure of fusion between halves of the sternal bars during development can result in

Answer 25

sternal cleft or sternal foramen

Question 26

cardiac/pericardial tamponade

Answer 26

a type of pericardial effusion in which fluid, put, or gas accumulates in the pericardium (the sac in which the heart is encodes) results in slow or rapid compression of the heart

Question 27

5-4 year old patient suffering from a chest wall sarcoma that necessitated the removal of his sternum as well as a portion of his rib cage. once removed,

Answer 27

these bones would have been replaced with a titanium implant, which creased a new set of problems that needed to be addressed. creating the implant with 3D printing offered the advantage of the ability to completely customize the implant, dose relatively quickly, and to create a design that would counter some of the problems historically present in flat titanium implant design

Question 28

precuts carinatum

Answer 28

abnormal development causing the sternum to protrude. can be evident at both; adolescent males during growth spurt (most common). it may occur as a solitary congenital abnormality or in association with other genetic disorders or syndromes

Question 29

prevalence of PE

Answer 29

1 in 500-1000 children

3x in males

Question 30

cause of PE

Answer 30

unknown

Question 31

Poland

Answer 31

absent pectorals major

Question 32

ectopia cordis

Answer 32

heart is on the outside of the thoracic cavity

failure of sternum to fuse

Question 33

scoliosis

Answer 33

lateral curvature of the spine

Question 34

congenital scoliosis

Answer 34

Caused by a bone abnormality present at birth

Question 35

neuromuscular scoliosis

Answer 35

A result of abnormal muscles or nerves. Frequently seen in people with spina bifida or cerebral palsy or in those with various conditions that are accompanied by, or result in, paralysis

Question 36

degenerative scoliosis

Answer 36

This may result from traumatic bone collapse, previous major back surgery, or osteoporosis

Question 37

idiopathic scoliosis

Answer 37

The most common type of scoliosis, idiopathic scoliosis, has no specific identifiable cause. There are many theories, but none have been found to be conclusive. There is, however, strong evidence that idiopathic scoliosis is inherited

Question 38

upper ribs (1-7) — at the costotransverse joints

Answer 38

rotate

Question 39

lower ribs (8-10) — at the costotransverse joints

Answer 39

glide

Question 40

ribs 11 and 12 do not articulate with

Answer 40

transverse processes

Question 41

costochondral joints

Answer 41

primary cartilaginous joints and they usually do not experience movement

Question 42

interchondral joints (2)

Answer 42

some are plane synovial joints (between costal cartilages 6-9)
some are fibrous (between cartilages 9 and 10)

Question 43

sternocostal joints (2)

Answer 43

1st joint is cartilaginous

joints 2-7 are synovial plane joint

Question 44

the intercostal muscles occupy the intercostal spaces and function during respiration, both by

Answer 44

moving the ribs and by helping to keep the intercostal spaces rigid

Question 45

the intercostal muscles include (5)

Answer 45

external intercostal
internal intercostal
innermost intercostal
subcostal
transversus thoracis

Question 46

external intercostals

Answer 46

attach superiorly to the inferior border of the rib above and inferiorly to the superior border of the rib below

Question 47

what direction do external intercostal fibers run

Answer 47

anteriorly

Question 48

function of external intercostals

Answer 48

elevate the ribs during forced inspiration

Question 49

internal and innermost intercostals attach

Answer 49

superiorly to the rib above and inferiorly to the superior rib below
fibers run inferoposteriorly

Question 50

interosseous part functions to

Answer 50

depress the ribs during forced respiration

Question 51

internal intercostals and innermost intercostals are separated by the

Answer 51

intercostal neuromuscular bundle

Question 52

external intercostal
breathing in
breathing out

Answer 52

contract

relax

Question 53

internal intercostal/innermost
breathing in
breathing out

Answer 53

relax

contract

Question 54

subcostalis attach

Answer 54

superiorly to internal surfaces of lower ribs near their angles and inferiorly to superior borders of ribs 2 or 3 levels below

Question 55

subcostalis fibers

Answer 55

run in the same orientation and blending with internal and innermost intercostals

Question 56

subcostalis function

Answer 56

probably the same as the internal intercostals

Question 57

transversus thoracis attach

Answer 57

superiorly on the posterior sternum and inferiorly on costal cartilages 2-6

Question 58

function of transversus thoracis

Answer 58

depress the ribs

Question 59

levator costae
O:
I:
A:

Answer 59

O: transverse processes
I: rib below between tubercle and angle
A: elevate the ribs

Question 60

serratus posterior superior
O:
I:
A:

Answer 60

O: spines of C7-T3
I: ribs 2-4
A: elevate ribs

Question 61

serratus posterior inferior
O:
I:
A:

Answer 61

O: spines of T11-L2
I: ribs 8-12
A: depress ribs

Question 62

in the thoracic region, the ventral rami are in the form of

Answer 62

intercostal nerves

Question 63

roots carry

Answer 63

sensory or motor

Question 64

rami carry

Answer 64

both sensory and motor, mixed

Question 65

dermatome

Answer 65

area of the skin supplied by nerves from a single spinal root

Question 66

sensory impairment for a specific dermatome is related to the

Answer 66

level of spinal cord injury

Question 67

thoracotomy

Answer 67

surgical opening through the thoracic wall to access the lungs, heart, esophagus, and the thoracic vertebrae

Question 68

thoracentesis

Answer 68

a procedure to remove fluid from the space between the lining of the outside of the lungs (pleura) and the wall of the chest

Question 69

nerve root block

Answer 69

selective nerve root block primarily used to diagnose the specific source of nerve root pain and secondarily, for therapeutic relief of low back pain and or leg pain

Question 70

thoracic epidural steroid injections are most commonly used to reduce the pain associated with

Answer 70

herpes zoster (shingles)

Question 71

such blocks may reduce the risk of developing persistent

Answer 71

postherpetic neuralgia

pain that persists long after the shingles skin eruption has healed

Question 72

muscles raise the ribs during

Answer 72

inspiration

Question 73

buckle handle movement

Answer 73

the lateral-most parts of the ribs are elevated and the transverse diameter of the thorax increases

Question 74

the ribs are also elevated at the

Answer 74

neck (especially ribs 2-6) results in an increase in the AP diameter of the thorax pump handle movement

Question 75

Boyles law

Answer 75

increase in volume, decrease in pressure

air comes in with less effort

Question 76

pump handle movement:

bucket handle movement:

Answer 76

pump handle movement: elevation of the ribs, increase in the anteroom-posterior diameter of the thoracic cavity
bucket handle movement: elevation of ribs, increase in lateral diameter of the thoracic cavity

Question 77

the primary blood supply to the thoracic wall is derived from branches of the

Answer 77

aorta and the subclavian arteries

Question 78

internal thoracic artery

Answer 78

descends into thorax 1.2 cm lateral to edge of sternum, and ends at the sixth costal cartilage by dividing musclophrenic and superior epigastric arteries

Question 79

anterior intercostals 7-10 come from

Answer 79

the musclophrenic arteries

arises from the subclavian artery near its origin

Question 80

intercostal veins will drain back to the (2)

Answer 80

musclophrenic or internal thoracic veins

Question 81

internal thoracic vessels give off anterior intercostal arteries to the

Answer 81

first six intercostal spaces

Question 82

anterior intercostal arteries anastomose with

Answer 82

posterior intercostal arteries (from the descending thoracic aorta) in the intercostal space

Question 83

companion veins accompany the

Answer 83

arteries

Question 84

two of the posterior intercostal arteries branch off the

Answer 84

superior intercostal artery in the first two intercostal spaces

Question 85

the remaining posterior intercostal Arties are branches of the

Answer 85

descending thoracic aorta

Question 86

most of the posterior intercostal veins return blood to the

Answer 86

azygous and hemiazygos veins

Question 87

posterior intercostal vein exception

Answer 87

left superior intercostal

Question 88

thoracentesis

Answer 88

insertion of the needles just superior to the rib should avoid injuring the intercostal nerve and Bessel

Question 89

VAN

Answer 89

vein
artery
nerve