Module 1

Question 1

sagittal plane

Answer 1

divides the body into left and right halves

Question 2

median plane

Answer 2

• mid-sagittal plane
• except in the hands and feet
• — goes through the third digit

Question 3

anatomical position

Answer 3

facing forward, with feet and palms forward

Question 4

parasagittal plane

Answer 4

parallel to the median (mid sagittal) plane

Question 5

frontal (coronal) plane

Answer 5

passes through the body at any level and divides the body into front and back

Question 6

transverse (horizontal) plane

Answer 6

passes through the body at any level and divides the body into upper and lower portions

Question 7

1a. superior
1b. inferior
2a. rostral
2b. caudal
3a. cephalic

Answer 7

1. going to the top of the body
   1b. going to the bottom of the body
   2a. same as 1a
   2b. same as 1b
   3a. same as 1a

Question 8

1a. anterior
1b. posterior
2a. ventral
2b. dorsal

Answer 8

1a/2a. to the front/belly

1b/2b. to the back

Question 9

1a. medial

1b. lateral

Answer 9

1a. to the mid-sagittal plane

1b. away from the mid-sagittal plane

Question 10

1a. proximal

1b. distal

Answer 10

1a. toward the trunk of the body
1b. away from the trunk of the body
these terms are used to refer to the limbs/extremities

Question 11

1a. palmar

1b. dorsal

Answer 11

refer to the hands

1a. palm of the hand
1b. back of hand

Question 12

1a. dorsal

1b. plantar

Answer 12

refer to the feet

1a. top of the foot
1b. sole of the foot

Question 13

1a. extrinsic

1b. intrinsic

Answer 13

refer to muscles

1a. has an attachment outside the region of interest and one inside the region
1b. has both attachments inside the region of interest

Question 14

1a. valgus

1b. varus

Answer 14

• used for the extremities
• refers to the bone distal to a joint
• — and its angle of deviation from the midline
  1a. the bone distal to the joint deviates away from the midline
• — ex: feet splayed out from knees
  1b. the bone distal to the joint deviates toward the midline
• — ex: the feet are farther in than the knees, like a ballet plie

Question 15

1a. superficial

1b. deep

Answer 15

1a. external, towards the periphery

1b. toward the interior

Question 16

1. bilateral
2. unilateral
3. ipsilateral
4. contralateral

Answer 16

1. occurs on both sides
2. occurs on one side
3. on the same side as…
4. on the side opposite to…
   ipsilateral and contralateral require a point of reference

Question 17

1a. flexion

1b. extension

Answer 17

• describe an arc of motion occurring in a sagittal plane
• descriptions usually include the name of the joint, bone, or body part (ex: shoulder, humerus, arm)
  1a. a bending movement around a joint in a limb (as the knee or elbow) that decreases the angle between the bones of the limb at the joint
  1b. an unbending movement around a joint in a limb (as the knee or elbow) that increases the angle between the bones of the limb at the joint

Question 18

1. lateral flexion

2. rotation

Answer 18

refer to movement of the vertebral column

1. -motion in a coronal plane
   - lateral flexion of the trunk: moving your body from side to side
2. moving your body circularly

Question 19

1a. abduction

1b. adduction

Answer 19

Coronal Plane

1a. movement away from the body
1b. movement toward the body

Horizontal Plane (ex: arm pointing straight out)

1a. movement away from the body
1b. movement across the body

Question 20

1a. medial (internal) rotation

1b. lateral (external) rotation

Answer 20

1a. rotating in an arc toward the center of the body

1b. rotating in an arc away from the center of the body

Question 21

1a. elevation

1b. depression

Answer 21

1a. movement up

1b. movement down

Question 22

1a. protrusion

1b. retrusion

Answer 22

specific to the mandible/jaw

1a. jutting the jaw out
1b. pulling the jaw back

Question 23

1a. supination

1b. pronation

Answer 23

specific to the arms/hands

1a. spinning the hand so the palm is facing up
1b. spinning the hand so the palm is facing down

Question 24

1a. opposition

1b. reposition

Answer 24

specific to the hands

1a. bringing the thumb and pinky together across the hand
1b. opening the hand by putting the thumb and pinky back on the sides

Question 25

1a. dorsiflexion

1b. plarflexion

Answer 25

specific to the ankle/foot

1a. flexion of the ankle upward, pulling the toes up toward the shin
1b. flexion of the ankle downward, pointing the toes toward the floor

Question 26

1a. inversion

1b. eversion

Answer 26

• specific to the ankle/foot
• the ankle does not rotate nearly as much as the arm/wrist
  1a. twisting the foot so the big toe is up and the sole faces inward to the midline
  1b. twisting the foot so the pinky toe is up and the sole faces outward away from the body
• —like when you have worn down a pair of shoes from putting too much weight on the inside of your foot

Question 27

Bone Function

Answer 27

• protection for vital structures
• support for the body
• the mechanical basis for movement
• storage for salts (eg calcium)
• a continuous supply of new blood cells
• — made in bone marrow

Question 28

Number of bones in the skeleton

Answer 28

206 bones

Question 29

Classification of Bones by Location

Answer 29

• Axial
• —- skull, vertebra, sternum, ribs
• —- bones on the midline
• Appendicular
• — bones on the appendages, extremities
• — pelvis, scapula, arms, legs

Question 30

Classification of Bones by Shape

Answer 30

• Long - humerus
• Short - carpal bones
• Irregular - vertebra
• Flat - skull

Question 31

Classification of Bones by Structure (Microscopic)

Answer 31

• Compact/Cortical

- Spongy/Trabecular

Question 32

Skeletal Articulations

Answer 32

• where bones come together

- joints

Question 33

Types of Joints

Answer 33

• Fibrous (synarthroidal)
• — suture, syndesmosis, gomphosis
• Cartilaginous or Fibrocartilaginous (amphiarthosis)
• — synchondrosis, symphysis
• — cartilege between bones
• Synovial

Question 34

Suture

Answer 34

• fibrous joint

- found between flat bones of skull

Question 35

Syndesmosis

Answer 35

• fibrous joint
• ex: ulna and radius
• thin sheet between bones

Question 36

Gomphosis

Answer 36

• fibrous joint
• shaped like a peg
• found only in the maxilla and mandible where the teeth fit into them

Question 37

Synchondrosis

Answer 37

• primary cartilaginous joint
• — part of the development process
• ex: growth plate in long bones
• — during development there is cartilage between the end and the shaft of the bone
• — after growth, these fuse into one bone as the cartilage ossifies

Question 38

Symphysis

Answer 38

• secondary cartilaginous joint
• not part of the development process
• persists in the grown skeleton
• ex: pubic symphysis

Question 39

Synovial Joint

Answer 39

• fluid between two bones
• — allows the bones to more smoothly against each other
• joint capsule of fibrous tissue that encloses the ends of both bones
• —- encloses the joint cavity (space between bones)
• — synovial membrane lines capsule and continually produces fluid that fills the space
• articular ends of the bone (part at the joint) are covered in hyaline cartilage
• — hyaline is very smooth cartilage so it helps with smooth movement

Question 40

Types of Synovial Joints

Answer 40

• classified by articular shape and axes of movement
• Plane (Gliding)
• — bones meet at a very flat surface
• Uniaxial
• — hinge and pivot
• – move around a single axis
• Biaxial
• — can move in two planes
• — condyloid: base of fingers (knuckles), can go in flexion/extension and abduction/adduction
• — saddle: thumb, can go in flexion/extension and abduction/adduction
• Triaxial
• — ball and socket
• — shoulder is capable of flexion/extension, abduction, adduction, and internal/external rotation

Question 41

Accessory Structures Associated with Joints

Answer 41

• fibrocartilagenous disks
• plates
• menisci
• ligaments
• bursae/tendon sheath

Question 42

Bursae/ tendon sheath

Answer 42

• a flattened sac with fluid in it
• — made of connective tissue
• facilitate movement by decreasing friction between adjacent structures
• tendon sheaths wrap around a tendon while bursae are just there

Question 43

Ligaments

Answer 43

• connect bones to bones
• intrinsic: begin and end within the joint capsule
• extrinsic: have an attachment in the joint and an attachment outside of the joint

Question 44

Nerve and blood supply to joints

Answer 44

• periarticular arterial anastomoses: network of oxygenated blood supply going to a joint
• mechanoreceptors in joints
• — nerves
• — transmit information to the central nervous system about the position of the joint
• — proprioception: the sense of the position of the joints
• Hilton’s Law

Question 45

Hilton’s Law

Answer 45

• where the blood and nerves come from to go to a joint

- the blood supply and nerves to a joint are from the same vessels/nerves that supply the muscles around the joint

Question 46

Rheumatoid Arthritis

Answer 46

• inflammation of the synovial joints
• autoimmune disorder
• — body attacks its own synovial membranes
• symmetric: break down of the synovial membranes equally on both sides of the body

Question 47

Osteoarthritis

Answer 47

• wear on the joint surfaces
• related to activity
• — caused by wear and tear
• may be unilateral: may only have breakdown on the joints on one side of the body if you only overuse the one hand/shoulder/etc

Question 48

Types of Muscle

Answer 48

• Cardiac
• Skeletal
• Smooth

Question 49

Muscle: cardiac

Answer 49

• heart muscle and adjacent great vessels
• short branching fibers
• continuous rhythmic contraction
• involuntary contraction
• — nervous system modifies the rate/strength of contraction
• — but the contraction is automatic

Question 50

Muscle: smooth

Answer 50

• small, spindle-shaped fibers without striations
• walls of hollow organs, blood vessels, iris, attached to hair follicles
• weak contraction
• involuntary control
• — uses the autonomic nervous system

Question 51

Muscle: skeletal

Answer 51

• related to joints and connective tissue
• large, long unbranched fibers
• striations
• strong contractions: produce movement
• voluntary or reflexive
• — mostly under direct voluntary control
• – exceptions are the reflexes
• innervate by peripheral nerves

Question 52

Motor Unit

Answer 52

• motor neuron axon form a junction with individual muscle fibers
• the motor unit is the motor neuron axon plus the fiber it connects to

Question 53

Skeletal Muscle Organization

Answer 53

• fascia divides regions into compartments
• — fascia are broad sheets of connective tissue
• an individual compartment usually has its own nerve and blood supply
• — a nerve cannot cross through fascia to get to another compartment

Question 54

Muscle: gross architecture

Answer 54

• Multipennate: muscle fibers from a lot of different directions that meet at one point
• — muscle can contract in a lot of different ways
• Quadrate muscle: forms a square with all the fibers going in one way
• — muscle can only contract and apply force in one way

Question 55

Muscle Action

1. origin
2. insertion

Answer 55

1. proximal attachment, the attachment that stays in place when the muscle contracts
2. distal attachment, the attachment that moves when the muscle contracts, the attachment moves toward the origin

Question 56

Tendon

Answer 56

• connects the muscle to the bone

Question 57

For each muscle know the…..

Answer 57

• Two Attachments
• — do not need to know which is origin and which is insertion
• — if multiple origins or insertions, need to know all of them
• Action of the Muscle
• Innervation of the Muscle
• — which nerve goes to it
• — which compartment the muscle is in tells you which nerve innervates it

Question 58

Neuron

Answer 58

• basic unit for cellular processing in the nervous system
• information processing
• Components:
• — dendrite, soma/cell body, axon
• — information is typically received through the dendrites and passed through the soma down the axon

Question 59

Dendrite

Answer 59

• receives information from other neurons via synapses and carries the signal towards the soma

Question 60

Soma

Answer 60

• supports the metabolic and synthetic needs of the neuron
• integrates electrical signals
• — although final integration occurs at axon hillock

Question 61

Axon

Answer 61

• conducts information away from the cell body via an electrical signal called an action potential

Question 62

Neurons: classification by direction of information flow

Answer 62

• Efferent: motor neurons
• Afferent: sensory or receptor neurons
• Interneurons: relay neuron, association neuron

Question 63

Efferent Neurons

Answer 63

• motor neurons

- carry nerve impulses away from the central nervous system to effectors such as muscles or glands

Question 64

Afferent Neurons

Answer 64

• sensory or receptor neurons
• info about the environment such as touch and pain
• carry nerve impulses from receptors or sense organs toward the central nervous system

Question 65

Interneurons

Answer 65

• relay neuron, association neuron
• communicates only to other neurons
• all processes confined to a small area of the central nervous system
• most numerous types of neuron

Question 66

Structural Division of the Nervous System

Answer 66

• Central Nervous System
• — Brain and Spinal Cord
• Peripheral Nervous System
• — 12 pairs of cranial nerves
• — 31 pairs of spinal nerves
• — all the nerves that come off the brain and spinal cord

Question 67

CNS: meninges

Answer 67

• Three connective tissue layers from superficial to deep that help to protect the brain
• — Dura Mater
• — Arachnoid Mater
• — Pia Mater - directly on top of the brain

Question 68

Meninges and the Spaces from superficial (skull) to deep (brain)

Answer 68

1. Skull
2. Epidural Space
3. Dura Mater
4. Subdural Space
5. Arachnoid Mater
6. Subarachnoid Space
7. Pia Mater
8. Brain

Question 69

Brain

Answer 69

• Bilateral Hemispheres: right and left
• connections between the hemispheres
• — allow the two sides to communicate and coordinate actions
• fluid filled ventricles
• — filled with cerebral spinal fluid which helps nourish the brain
• — constantly being produced
• — cerebral spinal fluid also fills the subarachnoid space

Question 70

Spinal Cord

Answer 70

• Contains all the motor neurons supplying all skeletal muscle as well as most autonomic efferent neurons (anterior)
• It receives all of the sensory input from the body and some from the head (posterior)
• Not uniform in diameter
• — enlarged regions in cervical and lumbar regions because there are more neurons going out to the upper and lower extremities
• Terminates at the vertebra L1-L2, not at the end of the vertebral column
• — conus medularis: end of the spinal cord

Question 71

Spinal Cord Blood Supply

Answer 71

• has a rich blood supply
• one anterior spinal artery
• — supplies the anterior two thirds of the spinal cord
• two posterior spinal arteries
• — supply the posterior one third of the spinal cord

Question 72

Spinal Cord Segments

Answer 72

• specific regions along the vertebral column
• — 31 total
• 8 cervical - enlarged
• 12 thoracic
• 5 lumbar- enlarged, conus medullaris at L1-L2
• 5 sacral
• 1 coccygeal

Question 73

Spinal Cord Meninges

Answer 73

• Dura Mater
• Arachnoid Mater
• Pia Mater
• — denticulate ligaments: extension of pia that stabilize the spinal cord
• — filum terminale: a longitudinal extension of the pia mater that stabilizes the spinal cord in a vertical direction, attaches to the conus medullaris and the sacrum

Question 74

Spinal Taps and Epidural Anesthesia

Answer 74

• insert a needle to the subarachnoid space where the cerebral spinal fluid is
• enter the needle below the L1-L2 so that you cannot injure the spinal cord

Question 75

Peripheral Nervous System

Answer 75

• transmits info to and from the CNS
• Cranial Nerves
• — 12 pairs
• — originate from the brainstem
• — comprised of both sensory and motor fibers
• Spinal Nerves
• — 31 pairs: one pair off each segment of the spinal cord
• — originate from the spinal cord
• — comprised of both sensory and motor fibers

Question 76

Spinal Roots and Nerves

Answer 76

• Posterior Roots: sensory neurons
• Anterior Roots: motor neurons
• anterior and posterior roots come together to form the Spinal Nerve
• — the spinal nerve has both motor and sensory components

Question 77

Anterior and Posterior Rami

Answer 77

• each spinal nerve gives rise to an anterior and posterior ramus
• Dorsal Ramus: to deep back muscles/skin, to the posterior
• — mixed neurons - both sensory and motor
• Ventral Ramus: to the trunk/limbs, to the anterior
• — mixed neurons - both sensory and motor

Question 78

Intervertebral Foramen

Answer 78

• the spinal nerves exit the vertebral canal via intervertebral foramen which are formed between adjacent vertebrae

Question 79

Dermatome

Answer 79

• the area of skin innervated by a single spinal cord segment via its spinal nerve
• — all spinal nerves are a mix of sensory and motor neurons
• use to determine where spinal cord/nerve damage is by poking the skin and asking where the patient can or cannot feel the pressure
• — use a map of which spinal cord segments send nerves to what regions of skin

Question 80

Myotome

Answer 80

• consists of all the striated muscle fibers innervated by a given spinal cord segment via its spinal cord
• — all spinal nerves are a mix of sensory and motor neurons
• used to determine where spinal cord/nerve damage is by asking the patient to perform a series of motions
• — if the patient cannot, the spinal nerve/cord segment that goes to that muscle group is probably damaged

Question 81

Functional Subdivisions of the Nervous System

Answer 81

• Somatic
• Autonomic (Visceral)
• — Enteric
• — Sympathetic
• — Parasympathetic

Question 82

Somatic Nervous System

Answer 82

• innervates skin and most muscles

- mainly involved in receiving and responding to info from the external environment

Question 83

Autonomic Nervous System

Answer 83

• innervates organ systems and other visceral elements in peripheral regions of the body
• concerned with detecting and responding to info from the internal environment
• Subdivisions
• — Parasympathetic: rest or digest
• — Sympathetic: fight or flight
• — Enteric: innervates walls of digestive system

Question 84

Vertebral Column: Component Parts

Answer 84

• 33 vertebrae
• — 26 in mature adult
• 7 cervical
• 12 thoracic
• 5 lumbar
• 3-4 coccygeal

Question 85

Typical Vertebra

Answer 85

• Body
• Seven Processes
• — one spinous
• — two transverse
• — four articular: two superior, and two inferior
• Two Pedicles: one on each side, connect the vertebral body and the transverse process
• Two laminae: one on each side, connect the transverse process to the spinal proccess

Question 86

Vertebra Assembled

Answer 86

• the inferior articular process of a vertebra forms a joint/connection with the superior articular process of the vertebra below it
• — zygapophyseal joints (synovial plane joint)
• the rings of processes form the vertebral canal when stacked
• — the spinal cord runs through the canal
• intervertebral discs are between the bodies of stacked vertebra

Question 87

Joints of the Vertebral Bodies

Answer 87

• Symphyses (secondary cartilaginous joints)
• — designed for weight bearing and strength
• the articulating surfaces of adjacent vertebra are connected by IV discs and ligaments

Question 88

Intervertebral Foramina

Answer 88

• each spinal nerve exits the vertebral canal laterally through an intervertebral foramen
• intervertebral foramen are formed between each vertebral arch and the adjacent zygapophyseal joint

Question 89

Intervertebral Disc

Answer 89

• outer concentric rings of fibrous cartilage
• — anulus fibrosus
• center is a more jelly like substance
• — nucleus pulposus
• absorb shock
• permit movement between adjacent vertebrae

Question 90

Back Pain: herniated disc

Answer 90

may be due to

• disc degeneration
• excessive weight
• improper lifting
• usually found at lumbar region

Question 91

There are only 7 cervical vertebra and 8 cervical nerves…. so how does numbering work?

Answer 91

• the first nerve exits above the first cervical vertebra
• — following it, C1-C7 exit above their corresponding vertebra
• C8 exits below the 7th cervical vertebra
• all following nerves (T1, etc) exit below their corresponding vertebra

Question 92

Sacrum

Answer 92

• usually composed of five fused sacral vertebrae in adults

- provides strength and stability to the pelvis and transmits the weight of the body to the pelvic girdle

Question 93

Coccyx

Answer 93

• small triangular bone that is usually formed by fusion of the four rudimentary coccygeal vertebrae

Question 94

Curvatures

Answer 94

• Primary
• — concave anteriorly )
• — thoracic and sacral
• Secondary
• — convex anteriorly (
• — cervical
• — lumbar

Question 95

Abnormal Curvatures

Answer 95

• Kyphosis: abnormal anterior
• Lordosis: abnormal posterior
• Scoliosis: lateral curvature

Question 96

Movement of the vertebral column

Answer 96

• Flexion: bend to touch toes
• Extension: bend backward
• Lateral Flexion: bend/stretch to the side
• Rotation: twisting the trunk to the sides

Question 97

Spina Bifida

Answer 97

• two halves of the vertebra that are supposed to come together to form the spinous process don’t meet
• a gap/opening is formed
• Congenital
• — Spina Bifida Occulta
• — Meningocele
• — Myelomeningocele

Question 98

Spina Bifida Occulta

Answer 98

• very small gap
• no symptoms
• usually picked up for some other reason

Question 99

Spina Bifida

1. Meningocele
2. Myelomenigocele

Answer 99

1. the opening is large enough for the meninges to come out
2. the opening is large enough for the meninges and spinal cord to come out
   - – result similar to a spinal cord industry: loss of function in area below the lesion

Question 100

Intrinsic Muscles of the back

Answer 100

• movement of the vertebra
• Superficial Group
• Intermediate Muscles
• — Erector Spinae Group

Question 101

Back Muscles: Superficial Group

Answer 101

• Splenius Cervicis and Splenius Capitis
• located at the back of the neck
• Att: spinous processes of T3-T6
• Att: transverse processes of C1-C3/4
• Act:
• — bilateral: extension
• — unilateral: lateral flexion and rotation to the same side
• Ner: dorsal rami of lower cervical nerves

Question 102

Back Muscles: Intermediate Muscles - Erector Spinae Group

Answer 102

• Spinalis, Longissimus, Iliocostalis
• — listed from shortest and most medial to longest and most lateral
• Att: posterior iliac crest and sacrum, sacral and inferior lumbar spinous processes, supraspinous ligament
• Att:
• — Spinalis: spinous processes in upper thoracic and cervical regions
• — Longissimus: ribs, thoracic and vertebral transverse

Question 103

Thoracic Cage Components

Answer 103

• 12 thoracic vertebrae and discs
• 12 pairs of ribs and their costal cartilages
• sternum

Question 104

Thoracic Cage Function

Answer 104

• protection of the heart and lungs
• attachment site for many muscles
• – including the muscles of respiration

Question 105

Typical Rib (3-9)

Answer 105

• Head
• — 2 facets on the end: site of articulation with corresponding vertebra and vertebra superior to it
• — posterior end, not the end with cartilage
• Neck
• — small section between the head and tubercle
• Tubercle
• — has an articular facet for association with corresponding vertebra
• Angle: rib turns anterolateral
• Costal Groove
• — location of intercostal nerve, artery, and vein, protects them
• — indentation on the internal surface of the rib

Question 106

Costovertebral Joints

Answer 106

• synovial plane joints
• each rib articulates with the body of the vertebra with the same name and the one above it
• —- ex: 7th rib articulates with vertebral body of T7 and vertebral body of T6
• each rib articulates with the transverse process of the corresponding vertebra
• — ex: 7th rib articulates with the transverse process of vertebra T7

Question 107

Ribs

Answer 107

• 12 pairs of ribs
• True Ribs: 1-7
• — their costal cartilage (hyaline) articulates with the sternum
• False Ribs: 8-10
• — their costal cartilage articulates with the costal cartilage of the ribs above them, not directly with the sternum
• Floating Ribs: 11-12
• — no attachment to the sternum
• Costal Margin
• — a landmark that can be palpated to check the health of underlying organs
• — the area on the front side of the ribs past the sternum where it is all cartilage

Question 108

Sternum

Answer 108

• Manubrium
• Body
• Xiphoid Process

Question 109

Manubrium

Answer 109

• top part of the sternum
• jugular notch = suprasternal notch: dip on the top of the manubrium
• Manubriosternal joint/ sternal angle
• — symphysis
• — marks the end of the manubrium

Question 110

Body of the Sternum

Answer 110

• costal notches: where the cartilage of the ribs join

Question 111

Xiphoid Process

Answer 111

• end of the sternum
• xiphisternal joint
• — synchondrosis
• — where the body ends and the xiphoid process begins

Question 112

Pectoralis Major

Answer 112

• muscle on the anterior thoracic wall
• Att: sternum, clavicle, upper ribs
• Att: humerus
• Ner: medial and lateral pectoral nerves
• Act:
• — main action on upper extremity
• — accessory muscle of respiration with forced inspiration

Question 113

Serratus Anterior

Answer 113

• muscle on the anterior thoracic wall
• runs the length of the ribs
• Att: anterior aspect of the ribs
• Att: medial border of the scapula
• Ner: long thoracic nerve
• Act:
• — main action on upper extremity
• — accessory muscle of respiration with forced inspiration

Question 114

Pectoralis Minor

Answer 114

• muscle on the anterior thoracic wall
• — deep to the pectoralis major
• Att: costal cartilage of ribs 3-5
• Att: corocoid process of the scapula
• Ner: medial pectoral nerve
• Act: accessory muscle of respiration with forced inspiration

Question 115

Intercostal Muscles

Answer 115

• muscles in the anterior thoracic wall
• — deep dissection
• muscle fibers run vertically
• three layers
• — External Intercostal: fibers are about 45 deg toward medial
• — Internal Intercostal: fibers are about 45 deg toward lateral, assist in expiration
• — Innermost Intercostal: vertical fibers
• Att:
• Att:
• Ner: ventral rami of the thoracic spinal nerve
• — ventral rami come forward and become intercostal nerves
• — travel on the costal groove
• Act: muscles of respiration, help the diaphragm, provide tone of the rib cage

Question 116

Intercostal Arteries

Answer 116

• posterior: arise from the aorta
• anterior: arise from the internal thoracic artery
• — a branch of the subclavian artery
• runs along the costal groove of the ribs

Question 117

Diaphragm

Answer 117

• primary muscle of respiration
• responsible for the change in pressure that fills the lungs with air
• — descends during inspiration
• dome shaped muscle attached to costal margin
• Nerv: phrenic nerve which originates from C3, C4, and C5
• separates the thoracic and abdominal cavity
• — but some structures need to get from one cavity to the other so you need holes

Question 118

Diaphragm Apertures

Answer 118

• some structures need to get from one cavity to another so you need openings
• Caval Opening (T8): allows for inferior vena cava to ascend into the thoracic cavity
• Esophageal Hiatus (T10): allows the esophagus to descend into the abdominal cavity
• Aortic Hiatus (T12): the descending aorta passes through to the abdominal cavity

Question 119

Movement of the Thoracic Cage During Respiration

Answer 119

• moves at the synovial joints between the ribs and the vertebral transverse processes
• Inspiration: rib cage expands in a medial-lateral direction and elevates
• Expiration: reverse of inspiration

Question 120

Thoracic Cavity Regions

Answer 120

• Two pulmonary cavities
• — one on each side
• — contain the pleura and the lungs
• Mediastinum: contains the heart
• —- located between the pulmonary cavities

Question 121

Characteristic of a Lung

Answer 121

• Apex: top of the lung
• — superior to the first rib
• Three surfaces:
• — costal: adjacent to the ribs, the front of the lung
• — mediastinal: adjacent to the mediastinum, the medial side of the lung
• — diaphragamatic: adjacent to the diaphragm, bottom of the lung

Question 122

Right Lung

Answer 122

• three lobes
• — superior: top half
• — middle: little one on the medial side
• — inferior: bottom half
• two fissures
• — oblique: separates superior/middle from inferior
• — horizontal: separates superior from middle

Question 123

Left Lung

Answer 123

• two lobes
• — superior, inferior
• one fissure
• — oblique: separates superior and inferior lobes

Question 124

Roots of the Lungs

Answer 124

• aka hilum of the lung
• centered on the mediastinal surface
• where major structures are located
• — primary bronchus
• — pulmonary artery and bronchial artery
• — pulmonary veins

Question 125

Structure of the Pleura

Answer 125

• a two layered sac that surrounds but does not contain the lungs
• — there is some fluid between the two layers
• — the fluid filled space between layers is the pleural cavity
• visceral pleura: invests the lungs, including within the fissures, inner layer
• parietal pleura: lines the thoracic wall, outer layer
• — parts of the parietal pleura are named for where they adhere (ex: costal, mediastinal, diaphragmatic)

Question 126

Function of the Pleura

Answer 126

• decrease friction between the lungs and the ribs during inspiration
• function is similar to that of a bursa

Question 127

Pleural Cavity

Answer 127

• the potential space between the two layers of pleura

- contains pleural fluid to allow parietal and visceral pleura to slide smoothly against each other during respiration

Question 128

Pulmonary Circulation

Answer 128

• the pulmonary trunk from the right ventricle of the heart divides into right and left pulmonary arteries, which transport poorly oxygenated blood to the lungs
• — the lungs oxygenate the blood
• the pulmonary arteries subdivide into lobar and segmental arteries within the lungs
• after passing through the pulmonary capillaries where gas exchange occurs ,the blood drains into pulmonary veins which return the well-oxygenated blood to the left atrium of the heart

Question 129

Middle Mediastinum: Heart

Answer 129

• apex of the heart is at the fifth left intercostal space

- — the apex is at the bottom of the heart

Question 130

Pericardium

Answer 130

• Inner: Serous
• — two layer sac which surrounds the heart
• — visceral layer closest to heart
• — parietal layer
• — a little bit of fluid is between the layers
• Outer: Fibrous
• — surrounds the serous pericardium

Question 131

Cardiac Tamponade

Answer 131

• compression of the heart due to fluid accumulation in between the layers of the pericardium
• heart is not able to expand to pump efficiently
• life-threatening emergency

Question 132

Major Features of the Heart

Answer 132

• 4 chambers
• — right and left atrium
• — right and left ventricle
• Valves
• — tricuspid: between right atrium and right ventricle
• — pulmonary: between right ventricle and pulmonary trunk
• — mitral: between left atrium and left ventricle
• — aortic: between left ventricle and aorta

Question 133

Right Atrium Features

Answer 133

• Pectinate Muscles
• Crista Terminalis
• Opening of Coronary Sinus
• Fossa Ovalis
• Right Auricle

Question 134

Pectinate Muscles

Answer 134

• ridges in the wall of the atrium (anterior heart wall)

- direct blood flow toward the ventricles

Question 135

Crista Terminalis

Answer 135

• transition between the smooth walls of the posterior heart wall and the muscular anterior wall
• — the muscular wall is the pectinate muscles of the atrium

Question 136

Opening of Coronary Sinus

Answer 136

• receives venous blood from the heart

- located inferior to and smaller than the fossa ovalis

Question 137

Fossa Ovalis

Answer 137

• closed depression
• closes at birth, but open before then
• — no need for fetal blood to go to the lungs because the baby is not breathing air
• — before birth, the blood goes directly from the right to left side of the heart through the foramen ovale
• — at birth, a membrane forms over the foramen ovale and this forms the fossa ovalis

Question 138

Right Auricle

Answer 138

• can be filled with blood to increase the capacity of the atrium
• like a spare room for extra space if needed

Question 139

Right Ventricle

Answer 139

• Chordae Tendinae
• Papillary Muscles
• Trabeculae Carnae
• Moderator Band
• Tricuspid Valve
• Pulmonary Valve

Question 140

Papillary Muscles

Answer 140

• in the wall of the ventricle and attach to the chordae tendinae
• contract and pull on the chordae tendinae to stabilize the valve

Question 141

Trabeculae Carnae

Answer 141

• muscular ridges in the ventricle

Question 142

Chordae Tendinae

Answer 142

• strings hanging from the valve into the ventricle
• stabilize valve cusps
• found in the tricuspid and mitral valves

Question 143

Moderator Band

Answer 143

• band of tissue on the posterior wall of the ventricle
• introduce the impulse for contraction into the ventricle
• part of the conduction system of the heart

Question 144

Left Atrium Features

Answer 144

• Pectinate Muscles
• Crista Terminalis
• Fossa Ovalis
• Right Auricle
• NO opening for the coronary sinus

Question 145

Left Ventricle Features

Answer 145

• Chordae Tendinae
• Papillary Muscles
• Trabeculae Carnae
• Moderator Band
• Mitral Valve
• Aortic Valve

Question 146

Cardiac Cycle

Answer 146

• deoxygenated blood returns from the body through the inferior and superior vena cava to the right atrium
• right atrium –> tricuspid valve –> right ventricle –> pulmonary valve –> pulmonary trunk –> pulmonary arteries –> lungs –> blood is oxygenated
• oxygenated blood –> pulmonary veins –> left atrium –> mitral valve –> left ventricle –> aortic valve –> aortic arch
• aortic arch –> head and neck
• aortic arch –> descending aorta –> rest of the body

Question 147

Coronary Arteries

Answer 147

• the heart needs a blood supply, does not just pick up blood going through it
• coronary arteries supply oxygenated blood to the heart, perfuse the heart muscle
• aorta –> right coronary artery –> sinoatrial nodal artery, right marginal artery, posterior interventricular artery
• aorta –> left coronary –> anterior interventricular (LAD), circumflex artery

Question 148

Venous Drainage of the Heart

Answer 148

• return deoxygenated blood back to the right atrium
• Coronary sinus: the final collecting vessel which gets all the deoxygenated blood from the heart muscle
• — drains into the right atrium

Question 149

Coronary Artery Bypass Graft

Answer 149

• CABG
• a procedure when a coronary artery is blocked, impeding blood flow to the heart
• a vessel is inserted between the aorta and the distal end to the artery after the blockage
• restore circulation to the muscle of the heart