Structures HR

Question 1

apex of the heart

Answer 1

is the pointed end of the heart, formed by the tip of the left
ventricle (lower chamber of the heart).

Question 2

base of the heart

Answer 2

is formed by the atria (upper chambers of the heart).

Question 3

Heart lies

Answer 3

2/3 of its mass lies to the left of the midline

Question 4

Two parts of the pericardium:

Answer 4

Fibrous pericardium
Serous pericardium

Question 5

Fibrous pericardium:

Answer 5

Tough, inelastic and outer connective tissue.

Question 6

Pericardium functions to protect the heart by:

Answer 6

(a) Anchoring in place (attached to the diaphragm).
(b) Prevents it from over stretching.

Question 7

Parietal layer:

Answer 7

Fused to the fibrous pericardium

Question 8

Visceral layer (epicardium):

Answer 8

Adheres tightly to the heart

Question 9

Made up of three layers: HR

Answer 9

Epicardium
Myocardium
Endocardium

Question 10

Epicardium

Answer 10

to include the visceral layer of the serous pericardium).

Question 11

Myocardium

Answer 11

Forms two separate networks via gap junctions and intercalated disks: Atrial
and ventricular.

Each network contracts as a unit.

Question 12

Endocardium

Answer 12

Lines inside of myocardium and covers valves.

Question 13

The heart is composed of four chambers:

Answer 13

Two atria [base] and two ventricles. [top]

Question 14

The two Atrioventricular (AV): Located between atria and ventricles.

Answer 14

(a) Tricuspid Valve (3 cusps).R
(b) Bicuspid (also known as Mitral) Valve (2 cusps). L

Question 15

Chordae tendineae

Answer 15

connect to papillary muscles (located on ventricle side).
(a) Prevent valve cusps from pushing up into the atria when ventricles contract.

Question 16

The Semilunar (SL) Valves, close secondary to a pressure change.

Answer 16

(a) Aortic Valve L
(b) Pulmonic Valve R

Question 17

Superior and Inferior Vena Cava

Answer 17

(1) Both drain deoxygenated blood from the upper and lower body into the right
atrium.

Question 18

Coronary Sinus

Answer 18

(1) Drains deoxygenated blood from the coronary veins into the right atrium.

Question 19

Pulmonary trunk and Pulmonary artery

Answer 19

(1) Blood is pumped from the right ventricle into the pulmonary trunk which then
branches into the pulmonary arteries that then carry this deoxygenated blood into
the lungs to be oxygenated.

Question 20

Pulmonary veins

Answer 20

(1) Carries oxygenated blood from the lungs and transports it to the left atrium.
(a) Left atrium empties into the left ventricle which then pumps blood into the
aorta.

Question 21

Aorta

Answer 21

Carries oxygenated blood to the entire body from the left ventricle.

Question 22

DESCRIBE how Blood Flows through the Heart.

Answer 22

Deoxygenated blood enters the heart via the superior and inferior vena cava or coronary sinuses, drains into the right atrium, empties into the right ventricle, then pumped to the lungs via the pulmonary trunk and left and right pulmonary arteries to be oxygenated.

After oxygenation, blood is pumped to the heart by the pulmonary vein into the left
atrium, which empties into left ventricle and is pumped through the body via the
aorta.

A constant, uninterrupted blood supply is essential for the heart’s function.

Blood flow through the myocardium is known as coronary circulation.

Question 23

There are two principal coronary vessels:

Answer 23

(a) Right coronary artery
(b) Left coronary artery

Question 24

coronary sinus

Answer 24

collects the heart’s deoxygenated blood and returns it to the right atrium.

Question 25

Cardiac excitation normally begins in the sinoatrial (SA) node, and is then conducted
through:

Answer 25

(1) The atria (via Bachmann’s bundle) causing contraction.
(2) Atrioventricular (AV) node
(3) AV bundle branches (known as the bundle of his).
(4) Right and left bundle branches
(5) Purkinje fibers

Question 26

How a wave form is created on electrocardiogram?

Answer 26

Waves on an ECG are created by placing electrodes on the skin to pick up the electrical current generated by the heart.

Question 27

When reviewing an ECG recording three discernible waves will be noted:

Answer 27

(a) P wave: Representing atrial depolarization
(b) QRS Complex: Representing ventricular depolarization (masks atrial repolarization due to size).
(c) T wave: Representing ventricular repolarization

Question 28

A cardiac cycle represents everything associated with one heartbeat, typically lasting

Answer 28

0.8 seconds.

Question 29

P wave:

Answer 29

Representing atrial depolarization

Question 30

QRS Complex:

Answer 30

Representing ventricular depolarization (masks atrial repolarization due to size).

Question 31

T wave:

Answer 31

Representing ventricular repolarization

Question 32

Relaxation period;

Answer 32

the ventricles start to relax and repolarize (repolarization is indicated as the T wave on an EKG); all four chambers of the heart, including the atria enter into a period of diastole (dilation), during diastole, the ventricles are filled to 75%.

Question 33

atrial systole

Answer 33

(contraction) both atria depolarize (noted as the P wave). After depolarization the last 25% of blood is ejected from the atria to the ventricles.

Question 34

Ventricular systole

Answer 34

(contraction) is indicated by the QRS complex. The
ventricles depolarize then contract ejecting the blood into either the pulmonary trunk (right ventricle) or the aorta (left ventricle).

Question 35

Approximately ________ml of blood is ejected into systemic circulation per ventricular contraction.

Answer 35

70ml

Question 36

Cardiac output (CO)

Answer 36

the amount of blood ejected from the left ventricle into the aorta per minute.

NOTE: The same is ejected from the right ventricle, during ventricular contraction.

Question 37

CO formula

Answer 37

= stroke volume x heart rate

ex.= 70 ml/beat x 75 beats/min
= 5250 ml/min or 5.25 L/min

Question 38

Arteries:

Answer 38

Thick, triple layered vessels that carry blood away from the heart.

Question 39

Arterioles:

Answer 39

Thin vessels formed by arteries branching down in size.

Question 40

Capillaries:

Answer 40

Hair-like microscopic vessels found throughout the body. Capillaries are
also known as exchange vessels, which connect arterioles to venules.

Question 41

Venules:

Answer 41

Very thin vessels formed when capillaries reunite.

Question 42

Veins:

Answer 42

Designated vessels that return deoxygenated blood to the heart to be
oxygenated.

Question 43

This is because veins and venules contain about

Answer 43

64% of the total volume of blood.

Because veins contain so much of the blood, certain veins function as blood reservoirs (liver, spleen and skin)

Question 44

Capillary filling is controlled by small arterioles and pre-capillary sphincters via

Answer 44

auto-regulation, (constrict or dilate), which is the ability of local tissues to blood
flow into the area according to metabolic demands.

Question 45

Autoregulation:

Answer 45

The ability of local tissues to adjust blood flow (constrict or dilate) into the area according to metabolic demands via vasodilators and
vasoconstrictors.

Question 46

Excess fluid lost is returned to the circulatory system via the

Answer 46

lymphatic system

Question 47

Blood pressure

Answer 47

is defined as pressure exerted on the walls of the vessels as the ventricles contract.

Question 48

Systolic BP

Answer 48

Highest in the aorta and the large systemic arteries.

Question 49

volume of blood in the cardiovascular system,

Answer 49

normally 5 liters
or 5.3 quarts.

Question 50

Volume or blood loss more than a____ is potentially life threatening.

Answer 50

10%

Question 51

Heart Rate multiplied by Stroke Volume.

Answer 51

Cardiac output

Question 52

Vascular resistance

Answer 52

is the opposition to flow (lumen size).

(a) Smaller lumen (with vasoconstriction) results in greater resistance.
(b) Greater vessel length (weight gain) results in greater resistance.
(c) Higher viscosity (as with high hematocrit) results in greater resistance.

Size
Length
Thickness

Question 53

Blood flow to the body is regulated by the brain. The _____________, controlled by neural and hormonal feedback from 3 main types of receptors.

Answer 53

medulla oblongata

Question 54

3 main types of receptors of the Medulla O

Answer 54

(1) Proprioceptors:
(2) Baroreceptors:
(3) Chemoreceptors:

Question 55

Proprioceptors:

Answer 55

Monitor movements of joints and muscles.

Question 56

Baroreceptors:

Answer 56

Pressure receptors in the aorta and carotid arteries.

Question 57

Chemoreceptors:

Answer 57

Located in the arch of the aorta and carotid bodies that stimulate
sympathetic and parasympathetic response to chemical changes in the body.

Question 58

Two main circulation pathways of blood through the body:

Answer 58

Systemic circulation
Pulmonary circulation

Question 59

Systemic circulation:

Answer 59

Arteries and arterioles that carry oxygen and nutrient rich blood throughout the body, veins and venules that carry carbon dioxide and waste to the right atrium.
(a) All systemic arteries branch off the aorta.
(b) All systemic veins empty into superior vena cava, inferior vena cava, or the coronary sinus.

Question 60

Deoxygenated blood returns to heart via the above vessels and goes into the

Answer 60

right atrium to be oxygenated.

Question 61

Pulmonary circulation:

Answer 61

Blood pumped by the right ventricle to the lungs, picks up oxygen and returns via pulmonary veins to the left atria.

Question 62

Where gas exchange takes place to re-oxygenate the blood.

Answer 62

Pulmonary capillaries

Question 63

Four principal branches of the aorta:

Answer 63

(1) The Ascending Aorta
(2) Arch of the Aorta
(3) Thoracic Descending Aorta
(4) Abdominal Descending Aorta

Question 64

Ascending Aorta

Answer 64

both the left and right coronary arteries branch off the ascending aorta.

Question 65

Arch of the Aorta

Answer 65

Brachiocephalic trunk, which then branches into:
1) Right common carotid artery: Right side of head and neck
a) External carotid: External structures of skull
b) Internal carotid: Internal structures of scull (eyeball, ear, brain)

2) Right subclavian artery:
a) Before passing into axilla, the right subclarian artery gives off a major
branch to the brain called the right vertebral artery.

(b) Left common carotid artery: Left side of head and neck
1) External carotid: external structures of skull
2) Internal carotid: Internal structures of scull (eyeball, ear, brain)

(c) Left subclavian artery: Left upper limb

(d) Subclavian arteries continue to branch further into:
1) Axillary artery: Supplies shoulder
2) Brachial artery: Supplies upper arm
3) Radial artery: Supplies lateral portion of forearm, wrist and hand
4) Ulnar artery: Supplies medial portion of forearm, wrist and hand

Question 66

(a) Bronchial arteries: Bronchi of lungs
(b) Esophageal arteries: Esophagus
(c) Posterior intercostal arteries: Intercostal and chest muscles
(d) Superior phrenic arteries: Superior and posterior surfaces of diaphragm

Answer 66

Thoracic Aorta

Question 67

1) Inferior phrenic arteries: Inferior surface of diaphragm
2) Common hepatic artery: Liver, stomach, duodenum, and pancreas
3) Left gastric artery: Stomach and esophagus
4) Splenic artery: Spleen, pancreas, and stomach
(b) Superior mesenteric artery: Small intestine, cecum, ascending and transverse
colons, and pancreas.
(c) Suprarenal arteries: Adrenal glands
(d) Renal arteries: Kidneys
(e) Gonadal arteries which, branches into:
1) Testicular arteries OR
2) Ovarian arteries
(f) Inferior mesenteric artery: Supplies the large intestine, part of the rectum,
descending colon.
(g) Common iliac arteries, branching to form the abdominal aorta
1) External iliac arteries: Supply lower limbs, and further branch into:
a) Femoral arteries: Lower abdominal wall, groin, external genitals, thigh
b) Popliteal arteries: Supplies muscles and skin on posterior portion of
legs, calf muscles, knee joint, femur, patella and fibula.
c) Anterior tibial arteries: Supply the knee joints, anterior muscles and
skin of the legs, and ankle joints.
d) Posterior tibial arteries: Distribute to the muscles, bones, and joints of
the leg and foot.
e) Medial and lateral plantar arteries: Supply muscles and skin of the feet
and toes.
2) Internal iliac arteries: Supplies pelvis

Answer 67

Abdominal Aorta
Celiac trunk which, further branches into:

Question 68

Veins transport blood back to the heart via pressure generated by:

Answer 68

Contractions of the heart
The skeletal muscle pump
The respiratory pump

Question 69

(a) The pressure generated by the contraction of heart creates a pressure difference in the circulatory system.
(b) This pressure difference helps to push the blood in one direction to empty it into the right atrium.

Answer 69

Contractions of the heart

Question 70

(a) Contracting skeletal muscles (especially in lower limbs) squeeze veins pushing
their contents upwards.
(b) Because of venous (one-way) valves, the blood only flows in one direction –
to the heart.

Answer 70

The skeletal muscle pump

Question 71

(a) Inhalation decreases thoracic pressure and increases abdominal pressure,
enhancing blood to flow heart.
(b) Exhalation allows refilling of abdominal veins, which is then pumped to the
thoracic veins and to the heart.
(c) Pressure generated pushes blood in one direction, to the right atrium where the
pressure is approximately O mm Hg.

Answer 71

The respiratory pump

Question 72

Main vein to drain the heart.

Answer 72

The coronary sinus

Question 73

Empties blood drained from the head, neck, chest and upper limbs into the superior portion of the right atria.

Answer 73

Superior vena cava

Question 74

Largest vein in the body, drains the abdomen, pelvis and lower extremities into the inferior portion of the right atria.

Answer 74

Inferior vena cava

Question 75

Three systematic veins carry deoxygenated blood to the heart:

Answer 75

Inferior vena cava
Superior vena cava
The coronary sinus

Question 76

The three main veins that drain blood away from the head:

Answer 76

(1) The internal jugular- cranial bones, meninges, and brain
(2) External jugular- scalp and face
(3) Vertebral veins- cervical vertebrae, cervical spinal cord, neck muscles.

Question 77

(a) Cephalic veins: Drains the lateral aspect of upper limb.
(b) Basilic veins: Drain medial aspect of upper limb.
(c) Median antecubital veins: Drain palms and forearms.

Answer 77

The principal veins that drain the upper body are the:(1) Superficial Veins

Question 78

The principal veins that drain the upper body are the:(2) Deep Veins

Answer 78

(a) Radial veins: Drain lateral aspect of forearm.
(b) Ulnar veins: Drain medial aspect of forearm.
(c) Brachial veins: Drain forearms, elbow joints, and arms.
(d) Axillary veins: Drain arms, axillae, and upper part of chest wall.
(e) Subclavian veins: Drain arms, neck, and thoracic wall.

Question 79

The principal veins that drain the abdomen:
Hepatic portal circulation

Answer 79

(a) Blood drains from the gastrointestinal tract and spleen into hepatic portal vein.
(b) Is then delivered to the liver to be process and absorb substances from the GI
tract.
(c) Blood returns to systemic circulation through the hepatic vein.

Question 80

The principal veins that drain the lower body are:
(1) Superficial Veins

Answer 80

(a) Consists of the great saphenous veins: Drain leg and thigh, groin, external
genitals, and abdominal wall.
(b) Small saphenous veins: Drain the foot and leg.

Question 81

Deep Veins

Answer 81

(a) Posterior tibial veins: Drain foot and posterior leg muscles.
(b) Anterior tibial veins: Drain ankle joint, knee joint, tibiofibular joint, and
anterior leg.
(c) Popliteal veins: Drain skin and muscles and bones of the knee.
(d) Femoral veins: Drain muscles of the thigh, femurs, external genitalia, and
superficial lymph nodes.

Question 82

How pulse and blood pressure are measured.

Answer 82

(1) Pulse is assessed by holding pressure on common arteries for one minute.
(2) Common arteries used:
(a) Radial artery
(b) Carotid artery
(c) Brachial artery
(d) Popliteal artery

Question 83

Pulse rate same as heart rate, normally around 75 beats per minute (BPM).

Answer 83

(a) Below 60 BPM – bradycardic
(b) Above 100 BPM – tachycardic

Question 84

Instrument used to measure blood pressure:

Answer 84

Sphygmomanometer, also known as
BP cuff.

Question 85

Aging of the Heart

Answer 85

(1) As we age stiffening of the aorta occurs.
(2) There is a loss of cardiac muscle strength causing reduced CO and increased systolic pressure.
(a) Increasing the risk of CAD, CHF and atherosclerosis.

Question 86

Regular exercise________________________,is essential to improve overall cardiovascular health.

Answer 86

at least 20 minutes 3-5 times weekly

Question 87

Examples of activities recommended: