WEEK 4-8

Question 1

Which side of the heart receives poorly oxygenated blood?

Answer 1

Right side of heart through SVC and IVC

Question 2

Apex of the heart

Answer 2

Formed by inferolateral part of LEFT ventricle

• Lies posterior to the left 5th intercostal space in adults (9cm from median plane)
• Motionless throughout cardiac cycle

Question 3

Anterior (sternocostal) surface

Answer 3

Formed mainly by RIGHT ventricle

Question 4

Diaphragmatic (inferior) surface

Answer 4

Formed mainly by left ventricle and partly by right ventricle
Also related to central tendon of diaphragm

Question 5

Right pulmonary surface

Answer 5

Formed mainly by the right atrium

Question 6

Left pulmonary surface

Answer 6

Formed mainly by the left ventricle (forms cardiac impression of the left lung)

Question 7

Peritoneum

Answer 7

Continuous, glistening and slippery transparent serous membrane
- lines the abdominopelvic cavity and invests the viscera

Question 8

Mesentery

Answer 8

Double layer of peritoneum that occurs as a result of invagination of the peritoneum by an organ

• provides means for neurovascular communications
• Constitutes continuity of visceral and perietal peritoneum

Question 9

What connects the liver to the anterior abdominal wall?

Answer 9

falciform ligament

Question 10

What connects the liver to the stomach?

Answer 10

Hepatogastric ligament (membranous portion of lesser omentum)

Question 11

What connects the liver to the duodenum?

Answer 11

Hepatoduodenal ligament (thickened edge of lesser omentum)

Question 12

What connects the stomach to the inferior surface of diaphragm?

Answer 12

Gastrophrenic ligament

- phrenic means diaphragm

Question 13

What connects the stomach to the spleen?

Answer 13

Gastrosplenic ligament

- Splenic meaning spleen

Question 14

What connects the stomach to the transverse colon?

Answer 14

Gastrocolic ligament

- colic meaning colon

Question 15

What are ‘bare areas’ in relation to peritoneum?

Answer 15

Every organ has to have an area that is nont covered with visceral peritoneum to allow entrance and exit of neurovascular structures

Question 16

What is a peritoneal fold?

Answer 16

Reflection of peritoneum that is raised from the body wall by underlying blood vessels, ducts and ligaments formed by obliterated fetal vessels e.g. umbilical folds on internal surface of anterolateral abdominal wall

Question 17

What is a peritoneal recess (or fossa)?

Answer 17

Pouch of peritoneum that is formed by a peritoneal fold

Question 18

What is the function of the greater omentum?

Answer 18

To prevent the visceral peritoneum from adhering to the parietal peritoneum. Also to prevent infection

Question 19

What does the foregut develop into?

Answer 19

Distal oesophagus, stomach, and proximal duodenum

Question 20

In development, what structures are outgrowths of the foregut?

Answer 20

The liver, gallbladder and pancreas

Question 21

What are the three layers of smooth muscle in the stomach?

Answer 21

Outer longitudinal, Inner circular, Innermost oblique

Question 22

Where does the foregut end?

Answer 22

In the second (descending) part of the duodenum with the major duodenal papilla

Question 23

Which type of muscle is in the superior to inferior thirds of the oesophagus respectively?

Answer 23

Superior third: Skeletal striated muscle
Middle third: Mixture of skeletal striated and smooth
Inferior third: smooth muscle

Question 24

Where does the stomach lie in the supine position?

Answer 24

In the right and left upper quadrants (epigastric, umbilical (right) and hypochondrium and flank (left) regions

Question 25

Cardial notch location

Answer 25

Between the oesophagus and the fundus

Question 26

What structure is the stomach covered by?

Answer 26

Visceral peritoneum except for where the blood vessels run along its curvatures

Question 27

What is the blood flow of the heart?

Answer 27

SVC/IVC (upper and lower trunk regions respectively)—> Right atrium—>Right ventricle—-> Pulmonary artery—>lungs—>Pulmonary veins—>Left atrium—> Left ventricle—> aorta (ascending for head and upper limbs and descending for lower trunk and limbs)

Question 28

What systemic circulation?

Answer 28

The blood vessels that carry blood from the left side of the heart to the tissues and back to the right side of the heart

Question 29

What is the diastole?

Answer 29

Ventricular elongation and filling

Question 30

What is the systole?

Answer 30

Period of ventricular shortening and emptying

Question 31

What is the Epicardium?

Answer 31

a thin external layer (mesothelium) formed by the visceral layer of serous pericardium

Question 32

What is the Myocardium?

Answer 32

The THICK, MIDDLE helical layer composed of cardiac muscle

Question 33

What is the Endocardium?

Answer 33

The THIN, INTERNAL layer (endothelium and subendothelial connective tissue) or lining membrane of the heart that also covers its valves

Question 34

What do the walls of the heart mainly consist of?

Answer 34

Myocardium especially in the ventricles

Question 35

What motion do the ventricles produce when contracting and why?

Answer 35

They produce a wringing motion due to the double helical orientation of the muscle fibres

Question 36

Which part of the spiral of the ventricle causes the blood to be ejected?

Answer 36

the outer (basal) spiral contracts, first narrowing then shortening the heart, reducing the volume of the ventricular chambers thus ejecting blood

Question 37

Which part of the spiral of ventricle causes the blood to come in (draw blood in)?

Answer 37

the inner (apical) spiral ELONGATES the heart, followed by widening as myocardium briefly relaxes, increasing the volume of chambers thus drawing blood from the atria

Question 38

Which part of heart does the outer basal spiral constitute?

Answer 38

The outer wall of the RIGHT ventricle (fibres are nearly horizontal) AND the external layer of the outer wall of the LEFT ventricle (Is)

Question 39

Which part of the heart does the deeper apical spiral constitute?

Answer 39

The INTERNAL layer of the outer wall of the left ventricle. It is a lighter appearance than the basal muscle and fibres are ‘criss-cross’ which makes up he interventricular septum

Question 40

What in the heart is double layered?

Answer 40

The septum and outer wall of the left ventricle

Question 41

What is the skeleton of the heart?

Answer 41

Complex framework of dense collagen forming four FIBROUS RINGS that surround the orifices of the valves, a right and left FIBROUS TRIGONE (formed by connections between rings), and the membraneous parts of the interatrial and interventricular septa

Question 42

Atrioventricular groove also known as…

Answer 42

Coronary sulcus

Question 43

which animals have a bileterally symmetrical body plan?

Answer 43

Arthropods and mammals

Question 44

What are the four characteristics of all chordates?

Answer 44

Notochord,(skeletal), Dorsal hollow nerve cord, Pharyngeal slits(modified for breathing in some animals) or clefts and a muscular post anal tail (locomotion)

Question 45

What are some common tetrapod characters?

Answer 45

Neck, Ribs, Fin skeleton, flat skull, eyes on top of skull

Question 46

What are the four features of the amniotic egg?

Answer 46

Allatois, Amnion, Chorion, Yolk Sac

Question 47

How are body plans classified?

Answer 47

Based on the tissue structures of organisms

Question 48

How are animals classified?

Answer 48

By a heirachial classification of evermore comprehensive more inclusive categories (taxa are grouped into increasingly more inclusive groups)

Question 49

What is a phylogeny?

Answer 49

Animal phylogeny describes the evolutionary history of a species or group of related species as a representation of their evolutionary relationships (common ancestors) . They can share common genes, metabolic pathways and structural proteins.

Question 50

phylogenetic trees show…

Answer 50

patterns of descent

Question 51

Which vertebrates don’t have jaws?

Answer 51

Hagfishes and lampreys

- They have no paired apendages (no fins)

Question 52

What are vertebrates containing jaws called?

Answer 52

Gnathostomes . Jaws derived from pharangeal slits

Question 53

What are the steps in the evolution of limbs with digits for tetrapods?

Answer 53

Developed a neck, stronger vertebral column, Ribs (reduced so body can move side to side), Supporting girdles (to support limbs)

Question 54

Amphibia are modern tetrapods..what do they have?

Answer 54

Legs, lungs, often terrestrial

Question 55

What are the features of the amniotes (reptiles and birds)?

Answer 55

The amniotic egg (waterproofing and gas exchange), Keratin (feathers, scales, beaks etc.)

Question 56

Are mammals amniotes?

Answer 56

Yes. They produce milk and hair

Question 57

Amniotes are…

Answer 57

Tetrapod vertebrates including birds, mammals and reptiles

Question 58

What anatomical traits define order of primates?

Answer 58

`Specialised limbs for locomotion (quadrapaedal), lack of dietary specialisation which is relflected in dentition, visual aucity and reduced sense of smell (rely on vision rather than smell) , neocrtex expansion (related to vision)

Question 59

Primate limbs

Answer 59

Primates orginiate in an aborial environment

Primates are characterised by FLAT nails

Question 60

What are the four forms of locomotion in primates?

Answer 60

Terrestrial quadrapedalism, vertical clinginng and leapinging, brachiation (hanging from hind limb), and bipedalism

Question 61

Primate vision

Answer 61

Allows us to see 3D objects (unlike dogs)

Have large field of vision (overlapping binoccular and peripheral)

Question 62

Neocortex expansion

Answer 62

Related to vision and this part expanded

Question 63

What is a hominin?

Answer 63

Members of the tribe ‘hominini’
Dental features, bipedal locomotion, large brain size and tool making behaviour (mosaic evolution-developed at different times and rates)

Question 64

Modern Homo Sapiens (humans) characteristics for locomotion:

Answer 64

Bipedal: shortened pelvis;larger body and legs; fingers and toes not as long

Question 65

Early hominin characteristics for locomotion:

Answer 65

Bipedal: shortened pelvis;differences from later hominins, smaller body and long arms relative to legs; long fingers and toes; capable of CLIMBING

Question 66

Generalised Apes (hominoids) for locomotion:

Answer 66

Quadrapedal: Long pelvis, capable of considerable arm swinging, suspensory locomotion

Question 67

Modern Homo Sapiens (humans) characteristics (for brain):

Answer 67

Greatrly increases brain size -highly encephalised

Question 68

Early hominin characteristics for brain:

Answer 68

Larger than miocene (ape like) forms, moderatley encephelised -prior to 6 mya no more encephalized than chimpanzees

Question 69

Miocene, gneeralised ape (hominoid) characteristics for brain:

Answer 69

SMALL compared to hominins, large compared to other primates; a fair degree of encephalization

Question 70

Modern homo sapiens features for dentition:

Answer 70

Small incisors; canines further reduced; molar tooth enamel caps thick

Question 71

Early hominin dentition features:

Answer 71

Moderatley large incisors; canines somewhat reduced; molar tooth enamel caps very thick (hard and abrasive type of diet)

Question 72

Miocene generalized ape (hominoid) dentition features:

Answer 72

Large front teeth; molar teeth variable, depending on species; some have thin enamel caps, others thick enamel caps (gorilla thin enamel layer because they eat soft food-leaves)

Question 73

What are the 4 main hominin groups?

Answer 73

Ardipithecus group, Australopithecus group, Paranthropus group, Homo group

Question 74

When in time did the Ardipithecus group originate?

Answer 74

Around 6mya but debate as to whether they are hominins or not

Question 75

When in time did the Australopithecus originate?

Answer 75

Emerged around 4 mya (dissappeared around 2mya)

Question 76

When in time did the Paranthropus group originate?

Answer 76

Around 3 mya (more or less same time as australopithecus) More robust survived until 1 mya

Question 77

When in time did the homo group emerge (us)

Answer 77

2.5 mya

Question 78

Homo Habillus

Answer 78

First stone tools around 2.5 mya

Question 79

Ardipithecus anatomy:

Answer 79

curved fingers, short and broad ilium, hightly diverged big toe, ape like dentition, similar to chimpanzee (long forearm), relatively SMALL cranial capacity

Question 80

Australopithecus anatomy:

Answer 80

‘Lucy’, very short (1.1m) short lower limbs but long upper limbs, bipedal AND aborial, big toe is aligned with other toes of foot (more human like)

Question 81

Paranthopus anatomy:

Answer 81

More robust features; face flatter, sagittal crest for attachment of mastication muscles, small cranial capacity (but bigger than chimpanzee), prominent brow ridge, large zygomatic arch

Question 82

Homo group phase 1: 2.4 mya (early homo)

Answer 82

900 cm3 (large expansion), less projected face (prognathous), relativley flat forehead and prominent brow region

Question 83

Hominin original definition:

Answer 83

Bipedal

Question 84

Second phase of evolution (asian homo) (1.8mya)

Answer 84

Found homo outside Africa; in Asia (Indonesia) larger body. Also first one to be given name homo erectus

Question 85

Homo Errectus: Indonesia

Answer 85

940cm3 capacity (larger than Australopithecus), femur looked almost identical to modern humans, still prominent brow ridge (1mya)

Question 86

Phase 3: Archaic Homo (600 thousand y.a - 130 thousand y.a)

Answer 86

Different species found in Europe, Africa and Asia
Cranial capacity 12800 cm3 (larger and getting closer to size of modern humans), also still prominent brow ridge
- Neanderthals also found `

Question 87

Neanderthals

Answer 87

225-28kya

• Projecting midface,
• Very large cranial capacity (1500cm3)
• No retromolar space
• Doesn’t have a chin

Question 88

Multiregional hypothesis

Answer 88

Was one homo from Africa that moved out (1-2mya) and started to conquer all the other continents then evolved to modern species (e.g. asian homoerectus gave rise to asian people and african homoerectus gave rise to african people)

• Suggests interbreeding to maintain the same species
• This model was ABANDONED

Question 89

Out of Africa Hypothesis:

Answer 89

2mya a homoerrectus that moved out of Africa and started to conquer europe and Asia. Then there was another migration out of Africa 100000 years ago that REPLACED the other hominins living in Asia and Europe and Austrlalasia

Question 90

Modern Humans phase:

Answer 90

All came from Africa

• Extremely large cranial capacity (1450cm3)
• Still prominent brow ridge
• Still modern but prreserving archaic features
• large posterior teeth and robust face
• Has a chin

Question 91

Modern Face

Answer 91

25-30 kya

Question 92

Which nerve branches from the femoral nerve?

Answer 92

The saphenous nerve

Question 93

Which two nerves branch from the sciatic nerve?

Answer 93

The common fibula nerve and tibial nerve

Question 94

Compartments of uper limb

Answer 94

Anterior and posterior compartments

Question 95

What movement is the anterior compartment related to in upper limbs?

Answer 95

Flexion

Question 96

What movement is the posterior compartment related to in upper limbs?

Answer 96

Extension

Question 97

Pectoralis Major Action

Answer 97

The most powerful adductor of the arm (brings the arm closer into body)

Question 98

Deltoid Action

Answer 98

Major ABductor of the arm (anterior part flexes the arm and posterior part assists latisumus dorsi in EXTENDING the arm)

Question 99

What is the shoulder (pectoral girdle)composed of?

Answer 99

Clavicle and Scapula

Question 100

What is the arm (brachium)composed of?

Answer 100

Humerus

Question 101

What is the forearm (antebrachium) composed of?

Answer 101

The radius (thicker one-radius rotates over the ulna in pronation) and the ulna

Question 102

What is the hand composed of?

Answer 102

The carpus, metacarpus, and phalanges (outer extremities-fingers)

Question 103

Pectoral girdle joints and function:

Answer 103

• Consists of clavicle and scapula(flatbone)
• Has a lateral acromioclavicular joint and a medial sternoclavicular joint
• Provides support and articulation for the humerus and and anchors variety of muscles
• Provides platform for movement of the upper limbs

Question 104

Which is the only bone of the upper limb that is connected with the axial skeleton?

Answer 104

The clavicle through the sternoclavicular joint

Question 105

Which process does the scapula contain?

Answer 105

The acromion

Question 106

What is the PROXIMAL end of the clavicle called from inferior view?

Answer 106

Sternal facet (seen from inferior view)- also articulates with the sternum

Question 107

What is the DISTAL end of the clavicle called from an inferior view?

Answer 107

Acromial facet which articulates with the acromion of the scapula (acromioclavicular joint)

Question 108

Sternoclavicular joint more details:

Answer 108

Contains many ligaments to support the articulation

• Anterior sternoclaviuclar ligament: Anterior side and a ligament that connects sternum with clavicle
• Interclavicular ligament: Ligament that connects the two clavicles
• Costalclavicular ligament: Ligament that connnects the clavicle with costal bone/rib

Question 109

What is the cavity in the scapula that articualtes with the humerus called?

Answer 109

Glenoid cavity

Question 110

Which borders can be seen from the anterior view of scapula?

Answer 110

The superior border (on top), the medial border (fairly linear), and the lateral border (on an angle)

Question 111

The Humerus:

Answer 111

• the head of the humerus always faces medially

Question 112

What does the head (ball part) of the humerus articulate with?

Answer 112

The glenoid cavity of scapula

Question 113

What are the two bumps on the humerus called?

Answer 113

The greater tuburcle (more laterally) and lesser placed more anteriorly

Question 114

Distal side of humerus:

Answer 114

Humerus articulates with radius and ulna through the condyle

Question 115

What does the condyle of humerus consist of?

Answer 115

Trochlea and Capitulum

Question 116

Which part of the condyle articulates with the ulna?

Answer 116

Trochlea

Question 117

Which part of the condyle articulates with the radius?

Answer 117

Capitulum

Question 118

Glenohumeral joint properties and stabilisers:

Answer 118

Most mobile joint in boy;rotates 360 degrees BUT one of the least stable joints in the body

• Bursae which help to prevent friction to stabilise
• Muscles help to stabilise (majority of stabilisation)

Question 119

Sternoclavicular joint type and movements:

Answer 119

Saddle joint: - ABduction &ADDUCTION aswell as FLEXION and EXTENSION
- Occur around two axes at right angles to each other in two planes; coronal and sagittal
Circumduction can also occur

Question 120

Acromioclavicular joint type and movements:

Answer 120

Plane joint:Gliding or sliding movements in plane of articular surfaces

Question 121

Glenohumeral joint type and movements:

Answer 121

Ball and Socket: Elevation & Depression(lowering movement and less degree of movement than elevation), and Protraction (forward movement) and retraction (backward movement), medial &lateral rotation, Flexion & extension, abduction &adduction, and circumduction

Question 122

Radius appearance:

Answer 122

has more of a head which articulates with the capitulum of humerus
- On distal side, radius looks larger than ulna

Question 123

Which joints make up the elbow joint?

Answer 123

Humeroulna and humeroradial joints

Question 124

Elbow joint movements:

Answer 124

Flexion & exension, supuination & pronation

Question 125

Elbow joint movements:

Answer 125

Flexion & exension, supuination & pronation

Question 126

Which bone of the forearm does NOT directly articulate with the carpal bones?

Answer 126

The ulna (gap is fibrous connective tissue)

Question 127

How are the metacarpal bones numbered?

Answer 127

From 1-5 starting from the thumb side (5 means little finger)

Question 128

How many phalanges does the thumb have?

Answer 128

2. Also phalanges have proximal middle and distal

Question 129

Main muscles of the shoulder:

Answer 129

Pectoralis major, Deltoid, Latissimus dorsi

Question 130

What s the function of the rhomboid muscle? (major and minor)

Answer 130

Retracts the shoulder (brings it back)

Question 131

What is the function of serratus anterior muscle?

Answer 131

Opposing movement of the rhomboid muscle so it protracts the shoulder (brings it forward)

Question 132

What is the main action of the pectoralis major?

Answer 132

Major and most powerful adductor of the arm (bringing the arm closer to the body)
- Medial rotator of the arm in combination with the latissimus dorsi

Question 133

What is the main action of the deltoid?

Answer 133

The major ABductor of the arm (taking away arm from body)

• anterior part assists pectoralis major in flexing the arm
• posterior part assists latissimus dorsi in extending the arm

Question 134

What is the major action of the Latissimus dorsi?

Answer 134

Extending the shoudler joint and medially rotates the humerus
- In combination with the pectoralis major it is a powerful adductor

Question 135

What is the rotator cuff?

Answer 135

Group of four msucles and their tendons that surround the head of the humerus
- It supports and strengthens the joint capsule throughout wide range of motion (important for throwing-baseball and cricket)

Question 136

Which major muscles are in the anterior (flexor) compartment of the arm?

Answer 136

Brachialis, BICEPS, and Coracobrachiallis

Question 137

Which major muscle is part of the posterior compartment of the arm?

Answer 137

The triceps

Question 138

What are extrinsic muscles for the hand for?

Answer 138

Related to strength. Proximal attachment is farther away from hand.

Question 139

What are the intrinsic muscles of hand?

Answer 139

Proximal and distal attahcments within the hand. Finer movements

Question 140

Extensor digitorium (posterior compartment):

Answer 140

Related to the middle fingers

Question 141

Extensor carpi radialis brevis:

Answer 141

Muscle related to extension on the radial( thumb )side

Question 142

Extensor carpi ulnaris

Answer 142

On medial side

Question 143

Extensor digiti minimi

Answer 143

Extension of the little finger

Question 144

Intrinsic muscles of the hand: movement of thumb

Answer 144

Pollicis muscles. e.g. adductor pollicis (adductor of the thumb)

Question 145

Intrinsic muscles of the hand: movement of the little finger

Answer 145

Digiti Minimi muslces

Question 146

Intrinsic muscles of the hand: movement of the other fingers

Answer 146

Interosseous muscles

Question 147

What are the nerves of the upper limb?

Answer 147

From the brachial plexus, there is the ulnar nerve, the median nerve(innervation of middle fingers), and radial nerve

Question 148

What are the arteries of the upper limb?

Answer 148

Brachial artery. This then splits into the radial artery (radial side) and ulnal artery (ulnar side)

Question 149

What are the veins of the upper limb?

Answer 149

All of the branches connect through the median cubital vein which runs OBLIQUELY.
On medial side is Basilic vein and on lateral side is Cephalic vein

Question 150

Regions of the lower limb:

Answer 150

• Gluteal region (pelvic girdle)- Contains coxal bone
• Femoral region -contains femur
• Knee region-contains patella
• Leg region- contains fibia and tibula
• Foot region- contains tarsus, metatarsus, phalanges

Question 151

Pelvic girdle:

Answer 151

Consists of three bones fusing together; ilium (largest and forms superior part), ischium (inferoposteriorly), and pubis (placed anteriorly)

Question 152

Where do the pubic bones fuse together?

Answer 152

Pubic symphysis

Question 153

What do the three hip bones articulate to the axial skeleton (sacrum) by?

Answer 153

The sacroiliac joint (iliac-left side, articulates to sacrum)

Question 154

What does the acetabulum do?

Answer 154

It is a cavity (sulcut) which articulates with the head of the femur

Question 155

What is the obturator foramen?

Answer 155

Covered by fibrious connective tissues and it is a hole (foramen) -nerve and blood vessels pass through

Question 156

The femur:

Answer 156

Very large head (placed medially) and neck, contains greater (more laterally palced and larger) and lesser trochanter(more medially) ,
- Lateral and medial eicondyles: serve as attachments for the tendons and muscle

Question 157

Hip joint stabilisers:

Answer 157

not as mobile as glenohumeral joint, must be stable to transfer weight to femur

• Ischiofmeoral ligament
• Ileofemoral ligament
• Pubofemoral ligament
• Obturator membrane seals the foramen

Question 158

Ischiofmeoral ligament

Answer 158

conencts the femur with the ischium

Question 159

Ileofemoral ligament

Answer 159

connects the femur with the ilium

Question 160

Pubofemoral ligament

Answer 160

connects the pubis with the femur

Question 161

Range of movement on the HIP joint:

Answer 161

Flexion & Extension, Abduction & adduction, Lateral & medial rotation

Question 162

Bones of distal leg: tibia and fibula

Answer 162

Opposite with elbow joints; femur ONLY ARTICULATES WITH TIBIA at the knee joint
- interosseous membrane fills in gap between tibia and fibula

Question 163

Which bone of distal leg help with body weight transmission?

Answer 163

TIBIA

Question 164

Joints of the tibua and fibula:

Answer 164

Proximal tibiofibular joint and distal tibiofibular joint

Question 165

What articualtes with the tarsal bone?

Answer 165

Lateral malleolus

Question 166

Knee joint:

Answer 166

Two types of articulations in knee joint: one within the femur and tibia (lateral and medial condyles) and one between the femur and patella articulation surface

• menisci helps with the cushioning
• Cruciate (crossing)
• Anterior cruciate ligament (proximal attachment)

Question 167

Knee Joint stabilisers:

Answer 167

fibular collateral ligament (stabilises the lateral side of knee joint)

• tibial collateral ligament (medial side)
• Plopliteal ligament crosses obliquely and helps stabilising joint

Question 168

Knee Joint movements:

Answer 168

Extension & flexion , lateral and medial rotation

Question 169

The bones of the foot: Tarsal bones

Answer 169

From plantar view (bottom):

Talus, Calcaneus, Navicular, Cuboid, lateral cuneiform, middle cuneiform, medial cuneiform(wedge)

Question 170

Talus bone

Answer 170

Articulates with tibia, and then in the foot articualtes with the navicular

Question 171

Navicular bone

Answer 171

Has a boat shape

Question 172

Calcaneus

Answer 172

Heel bone (largest bone of tarsal area)

Question 173

Cuneiform tarsal bones

Answer 173

Cuneiform means wedge so they are like a wedge (medial middle, lateral)

Question 174

Talus * properties:

Answer 174

Second largest tarsal bone, within the calcaneus inferiorly and tibia superiorly.

• No muscle attachments of the bone.
• Trochlea and lateral process of talus articulate with the fibula proximally
• Transmits weight inferiorly with the calcaneus (distal)

Question 175

Calcaneus

Answer 175

Largest tarsal bone
- Contains calcaneal tuberosity (posterior side)- for attachment of tendon of the calf (calcaneous tendons/achillies tendons)

Question 176

Joints of the foot:

Answer 176

Midtarsal joints- divides the foot from hind-food and mid foot
Tarso-metatarsal joints divides the mid-foot with the forefoot

Question 177

How are toes numbered?

Answer 177

From 1-5 starting from great (big) toe - big toe only has proximal and distal attachements- rest have proximal middle and distal

Question 178

Angle joints:

Answer 178

have ligaments that help to protect the ankle and the foot

Question 179

Movements at ankle joints;

Answer 179

Dorsiflexion and plantarflexion, Inversion & eversion (not actually at ankle joint)

Question 180

Movements at pharangeal joints:

Answer 180

Abduction and adduction, flexion and extension (don’t have to remember)

Question 181

How do the lower limbs function in relaxed standing?

Answer 181

erector spinae muscles help to erect and stabilise

Question 182

What are the two main phases when walking and what do they mean?

Answer 182

1. Stance phase - lower limbs are touching the ground

2. Swing phase- Lower limb is off trhe ground

Question 183

What are the three main arches of the foot related to bipedal locomotion and how do they help locomotion?

Answer 183

Medial longitudinal arch
Lateral longitudinal arch
Transverse arch

These help to support foot and absorb shock during walking, running and jumping
Also maintain and position the different bones of the foot

Question 184

What is the medial longitudinal arch composed of?

flat foot without this

Answer 184

Calcaneus, Talus, navicular, three cuniform bones, first three metacarpal bones, sesamoid bone

Question 185

What is the transverse arch formed by?

Answer 185

Bases of metatarsal bones, medial, intermediate and lateral cuniform bones, cuboid

Question 186

Pes Planus

Answer 186

Flat foot (fallen of loniitudinal arches)

Question 187

Pes cavus

Answer 187

Medial longitudinal arch is too high

Question 188

What are the compartments of the lower limbs?

Answer 188

Posterior, Anteiror, and Medial

Question 189

What is the anterior compartment of thigh related to in terms of movement?

Answer 189

Extension (opposite of arms)

Question 190

What is the posterior compartment of thigh related to in terms of movement?

Answer 190

Flexion (opposite of arms)

Question 191

What location is the medial compartment of lower limbs?

Answer 191

Thigh

Question 192

What location is the lateral compartment of lower limbs?

Answer 192

Leg

Question 193

Muscles of the hip: Gluteus Maximus

Answer 193

Largest and most superficial gluteal muscle .
Proximal attachment: Sacrum then the ilium
Distal attachment: Femur
Major and MOST IMPORTANT EXTENSOR and LATERAL ROTATOR of the HIP

Question 194

Muscles of the hip: Ilopsoas muscle

Answer 194

Two parts to the muscle:
Ilacus(proximal attachment is on the ilium) and psoas (proximal attachment starts at lumbar vertebra)(part of axio)
They join (converge) onto one tendon and attach to femur
- MOST IMPORTANT FLEXOR OF THE HIP

Question 195

Muscles of the hip: Lateral rotators

Answer 195

• Group of 6 muscles

- Major lateral rotator of the thigh

Question 196

Muscles of the hip: Gluteus medium and minimus

Answer 196

Most important ABductors and medial rotators of the thigh

-

Question 197

Muscles of the hip: Adductor group

Answer 197

• Group of 5 muscles

-

Question 198

Thigh compartments:

Answer 198

Anterior and medial

Question 199

Quadriceps femoris action (anterior medial compartment):

Answer 199

Major extension at the knee joint

Question 200

Sartorius muscle in thigh (anterior medial compartment):

Answer 200

Runs obliquely and is the LONGEST muscle in the body

• not a very powerful muscles
• flexion at knee joint
• adduction, flexion and lateral rotation at hip joint

Question 201

Posterior comapartment of thigh muscles:

Answer 201

Hamstring muscles; biceps femoris, semitendinosus, semimembranosus
- Flexion at knee joint; extension and lateral rotation at hip joint

Question 202

Extrinsic muscles of the foot: Tibialis anterior major actions

Answer 202

Inversion of the foot; dorsiflexion at ankle joint

Question 203

Extrinsic muscles of the foot: Extensor Digitorium Longus, Extensor Hallicus Longus

Answer 203

Major actions are extension of toes; dorsiflexion at ankle joint

Question 204

Extrinsic muscles of the foot: Lateral compartment:

Answer 204

Fibularis longus and fibularis brevis

- Major action is eversion of the foot and plantar flexion at ankle joint

Question 205

Extrinsic muscles of the foot: Posterior Compartment (superficial and deep): Superficial

Answer 205

Gastrocnemius, soleus and plantaris

major action is PLANTAR FLEXION

Question 206

Extrinsic muscles of the foot: Posterior Compartment (superficial and deep): Deep

Answer 206

Flexor digitorium longus (flexion of toes), tibialis posterior (inversion of foot) , flexor hallucis longus (flexes big toe)
major action is flexion of the toes

Question 207

What are the nerves of the lower extremity anteriorly?

Answer 207

Major nerve of thigh is femoral nerve, then saphenous nerve (medial side) branches off

Question 208

What are the nerves of posterior lower extremity?

Answer 208

Major nerve is sciatic nerve which branches off into common fibula nerve and tibial nerve

Question 209

What are the arteries of the lower extremity anterior view?

Answer 209

Femoral artery* is major artery, then an anterior tibial artery*, and a dorsalis pedis artery through foot

Question 210

What are the arteries of the lower extremity posterior view?

Answer 210

Fibular artery*

Question 211

What are the deep veins of the lower extremity?

Answer 211

The anterior tibial which crosses over the knee joint and forms part of the femoral vein (next to artery)

Question 212

What are the superficial veins of the lower extremity?

Answer 212

Small saphenous (lateral) and great saphenous (medial and larger and near the knee cap)

Question 213

Pulmonary trunk

Answer 213

continuation of the right ventricle and divides into right and left pulmonary arteries. The pulmonary trunk and arteries bring low oxygenated blood to lungs for oxygenation

Question 214

What is the heart drained by?

Answer 214

Veins that empty into the coronary sinus and partly by small veins that empty into the right artrium

Question 215

What is the main vein of the heart?

Answer 215

Coronary sinus

Receives great cardiac vein at its left and the middle cardiac and small cardiac vein at its right end

Question 216

Which arteries branch off from the left coronary artery?

Answer 216

The circumflex branch (found mostly on posterior side) and the left marginal artery (found on anterior side)

Question 217

Which arteries branch from the right coronary artery?

Answer 217

The right marginal artery and posterior intraventricular artery

Question 218

Which structures does the right coronary artery typically supply?

Answer 218

right atrium, most of the right ventricle, part of the left ventricle (diaphragmatic surface), part of the IV septum (posterior third), SA node (sinoatrial - in 60% of people) and AV node (in 80 % people)

Question 219

Which structures does the left coronary artery supply?

Answer 219

Left atrium, most of left ventricle, part of right ventricle, most of the IVS (intact ventricular septum), SA node

Question 220

How many secondary bronchi does the left bronchial tree have?

Answer 220

2 secondary bronchi

Question 221

How many secondary bronchi does the right bronchial tree have?

Answer 221

3 secondaary bronchi

Question 222

Why is the bronchus the most posterior structure entering the lungs?

Answer 222

Because the heart is anterior to everything (infront)

Question 223

Why do foreign objects inhaled typically end up in right primary bronchus?

Answer 223

Because it runs more vertically than the left

Question 224

What are the anatomical features of left lung?

Answer 224

Two lobes, Cardiac notch (impression from heart)

Question 225

What are the anatomical features of right lung?

Answer 225

3 lobes with horizontal fissure and oblique fissure, upper middle and lower lobes

Question 226

What is the hilum?

Answer 226

Area of the lung where blood vessels are entering and leaving the lung and the primary bronchi are entering

Question 227

Potential space of pleura?

Answer 227

Frictionless environemnt surrounding lungs and potential space (serous fluid); can collect fluid if there is infection and starts pushing into lung which can result in collapse in lung,

Question 228

Role of pleurae in respiration?

Answer 228

PLeural cavity formed fromm the visceral and parietal pleurae. This contains serous pleural fluid which lubricates pleural surfaces and allows layers of pleura to slide smoothly over each other during respiration. The surface tension of pleural fluid allows lung to keep in contact with thoracic wall so when inhaling, lung expands and fills with air at the same time as thorax whislt sliding is occuring.

Question 229

What does each pulmonary artery divide into?

Answer 229

Secondary lobar arteries

Question 230

Where is the artery located in relation to the corresponding bronchus?

Answer 230

On the anterior aspect of the posterior bronchus

Question 231

What do the bronchial arteries supply?

Answer 231

The root of the lungs (supplying blood for nutrition), supporting tissues of the lungs and the visceral pleura

Question 232

Which arteries arise from the thoracic aorta?

Answer 232

Left bronchial arteries

Question 233

Which side of the heart is at a lower pressure and why?

Answer 233

The right side of the heart because it only needs to go to the lungs

Question 234

Why is the left side of the heart much thicker?

Answer 234

Left side has to be very high pressure to pump to other parts of the body much harder

Question 235

Role of coronary sinus:

Answer 235

De-oxygenated blood is soaked up into the coronary sinus ( like a sponge) and is drained into the right atria

Question 236

Blood supply of the heart setissue in predicting blockage:

Answer 236

Death of heart tissue and how extensive it is depends on where in the blockage it is

• Heart tissue does not regenerate
• can predict where it might die based on arteries

Question 237

What do capillaries do?

Answer 237

Allow for gas exchange of deoxygenated for oxygenated blood at location of viscera or internal organs

Question 238

Does artery vein capillary have anything to do with oxygen level?

Answer 238

NOOOO!!!

Question 239

What is the tunica media?

Answer 239

Middle layer of all arteries and veins

- it is the MUSCULAR layer and is what distinguishes arteries and veins (i.e. if thinner tunica media then must be vein)

Question 240

Where are elastic fibres located in relation to circulation?

Answer 240

Arteries

Question 241

What is the tunica intima?

Answer 241

Endothelium. Helps prevent sticking of RBCs

Question 242

Anastomosis

Answer 242

Is like a bypass to a structure that is critical

e. g. bending elbow needs anastomosis (at any joint)
- also in gut there are a lot of anastomoses

Question 243

Heart bypass surgery:

Answer 243

Create an anastomosis

Question 244

What are two examples where we DON’T have Low Oxygen in Veins???

Answer 244

PULMONARY VEINS (breinginn oxygenated blood from lungs to heart) AND UMBILICAL VEIN (bringing high oxygenated blood into foetus)