[ANAT]LEC_204_CARDIAC-NERVE-SUPPLY-ARTERIAL-SUPPLY-VENOUS-DRAINAGE-AND-SURFACE-ANATOMY.pdf

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(004) CARDIAC NERVE SUPPLY, ARTERIAL
SUPPLY, VENOUS DRAINAGE, AND SURFACE
ANATOMY
DR. LESLIE ASUNCION-VIADO| 01/11/21

Comes from Autonomic Nervous System (ANS):
OUTLINE 1. Sympathetic nerve supply
I. HEART NERVE SUPPLY from upper thoracic spinal cord segments → routes thru
cervical and upper thoracic sympathetic chain ganglia
A. Extrinsic Nerve Supply → descends thru sympathetic cervical and thoracic
B. Intrinsic Nerve Supply cardiac nerves → enters cardiac plexuses (below arch
of aorta around base of the heart) → postganglionic
II. HEART ARTERIAL SUPPLY fibers terminate in:
A. Right Coronary Artery a. sinoatrial & atrioventricular nodes
B. Left Coronary Artery b. cardiac muscle fibers
c. coronary arteries
C. Coronary Artery Variations 2. Parasympathetic nerve supply
D. Arterial Supply to the Conducting from Vagal cardiac nerve branches (arise in the neck,
System descend into thorax, and join into the cardiac plexuses)
→ postganglionic parasympathetic fibers:
E. Coronary Artery Anastomoses a. sinoatrial and ventricular nodes
III. VENOUS DRAINAGE OF THE HEART b. coronary arteries
IV. SURFACE ANATOMY OF THE HEART Effects: Bradycardia and Vasoconstriction
A. Large Arteries of the Thorax
B. Large Veins of the Thorax.
C. Lymph Nodes

If Afferent fibers course along the Sympathetic fiber, the brain is not
I. HEART NERVE SUPPLY conscious about it. Normally, the innervation does not reach
consciousness. Unless there is a low coronary artery flow detected
by the afferent fiber, then that’s the time it reaches consciousness
Extrinsic and intrinsic networks innervate the heart. Both (feeling of pain). Thus, in a normal arterial flow, one cannot feel the
sympathetic and parasympathetic fibers of the autonomic beating or the systole and diastole of the heart. But, in low coronary
nervous system form the extrinsic nerve supply. The artery flow, e.g. Myocardial infarction, one feels chest pain.
conducting system of the heart forms the intrinsic nerve tract.

A. EXTRINSIC NERVE SUPPLY

If Afferent fibers course along the Parasympathetic fiber, it acts on
the cardiovascular reflexes.

B. INTRINSIC NERVE SUPPLY
1. Definition
Also known as the Conducting System of Heart
Network of specialized cardiac muscle cells
Designed to generate rhythmic cardiac impulses
Conduct and coordinate the intrinsic contractions of the
myocardium
Normal heart contracts 70 – 90 bpm (beats per minute)
o Other books: 60 – 100 bpm but if patient has cardiac
disease, we would like to have a very low heart beat
which is 50 – 60 bpm because anything beyond 70
bpm may cause congestive heart failure. (Thus,
target bpm depends on case of patient.)
2. Functions of the Conducting System
Initiate excitation of the atria. This is the “pacemaker
function.”
Delay excitation of the ventricles
The slight delay in the passage of the impulse from the
atria to the ventricles allows time for the atria to empty
Figure 1. The external innervation of heart showing
parasympathetic and sympathetic pathway
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DR. LESLIE ASUNCION-VIADO| 01/11/21

their blood into the ventricles before the ventricles contract. attributed to the internodal pathways that are consisting of
Penetrate the fibrous cardiac skeleton purkinje fibers and ordinary cardiac muscle
Spread excitation across the ventricles - Anterior internodal pathway
a. Sinuatrial Node o leaves the anterior end of SA node and passes
to the superior vena cava opening
Located at the wall of right atrium at the junction
of crista terminalis and superior vena cava o descend to atrial septum and ends on AV
node
Origin of spontaneous rhythmic electrical
impulses Middle internodal pathway
o leaves the posterior end of the SA node and
“Pacemaker” of the heart
passes posterior to the SVC opening
Slow conduction velocity ( ~1 m/s)
o descends to the atrial septum to the AV node
- But heart rate is about 70-90 bpm (70-100
bpm in other books) Posterior internodal pathway
o leaves posterior part of SA node
Derived from embryonic sinus venosus
o descend to the crista terminalis and the valve
Normally, heart rate depends on the SA node, but
autonomic input modulate SA node to balance of the inferior vena cava to the AV node
heart rate

b. Atrioventricular Node

located at lower right side of atrial septum
btw. The attachment of the septal cusp of the
tricuspid valve and opening of coronary sinus
slow speed of conduction (.1s) delays impulse
from atria to ventricle which give sufficient time for
atria to empty blood

c. Atrioventricular Bundle (Bundle of His)

originate from AV node, descend behind septal
cusp of tricuspid valve and extend into the
membranous part of the ventricular septum
pierces the fibrous skeleton of the heart
sole myocardial connection between atria and
ventricle and only route of impulse from atria to
ventricle
Bundle Branches
- Right bundle branch à ventricular
septum à moderator band à anterior
wall of right ventricle Figure 2. Conducting system of the heart
- Left bundle branch à ventricular septum
à divides into two branches, anterior and
posterior II. HEART ARTERIAL SUPPLY
d. Purkinje Fibers The coronary arteries are attached to your aorta. The aortic cusps
will give off your left and right coronary arteries; right main coronary
terminal branch of conducting system
artery is given off by the right coronary cusps (cc), and left CA by
plexiform fashion
the left CC.
highest conduction velocity (4-5m/s) A. Right coronary artery – binds over and passes through the
if SA node malfunctions, AV node takeover, right atrioventricular groove
thus heart rate is slower B. Left coronary artery – divide into circumflex branch, passes
if patient have coronary disease (specially through left atrioventricular groove. Another part (anterior
right coronary disease) there will be slowing interventricular branch) will descend into anterior
of conduction à purkinje will take over as interventricular groove.
pacemaker, heart beat at around 30-40 not
effective in pumping of ventricle
patient will have decompensated heart
failure à death

e. Internodal Conduction Pathways
impulses from the SA node travel to AV node
faster than they can travel along the
myocardium

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3. Posterior ventricular branches – supply the diaphragmatic
surface of the RV. One of these, the atrioventricular nodal
branch, supplies the AV node
4. Posterior interventricular (descending artery) - posterior
part of the ventricular septum but not to the apical part;
supplies the AV node (90%)
Runs toward the apex in the posterior interventricular
groove. It gives off branches to the right and left
ventricles, including its inferior wall. It supplies branches
to the posterior part of the ventricular septum but not to
the apical part, which receives its supply from the anterior
interventricular branch of the left coronary artery. The
posterior interventricular artery usually is a branch of the
right coronary artery. However, it may originate from the
circumflex branch of the left coronary artery.
5. Atrial branches – supply the anterior and lateral surfaces of
Figure 3. The major arteries of the heart
the right atrium; posterior wall of left and right atria. One
branch supplies the posterior surface of both right and left
A. RIGHT CORONARY ARTERY atria.
Sinuatrial node artery- 35% arises from LCA
Supplies most of the right atrium
Most of the right ventricle
Left ventricle (diaphragmatic surface)
Ventricular septum (posterior third)
Most of the SA Node (-60% of the people)
AV node (-80% of the people)
If the patient has myocardial infarction affecting the coronary
artery, those people with predominantly having conducting system
or pacemaker as the SA node, then the patient might have
bradycardia because the SA and AV node will have a decrease
blood supply coming from the CA. Aside from bradycardia, the
patient may have cardiac arrhythmia. They are prone to premature
ventricular complexes and AV blockage manifested in patients with
myocardial infarction.
From anterior aortic sinus
Run to the right side between the pulmonary trunk and right auricle. Figure 4. Branches of the coronary arteries and veins
Descends vertically in the right AV groove
Inferior border or the heart.
Continues posteriorly along with AV groove to anastomose with left
coronary artery in the posterior interventricular groove.
Sometimes, the distal end of the right coronary artery will
anastomose with the left anterior descending artery or the left
circumflex in the AV groove

Ø BRANCHES OF THE RIGHT CORONARY ARTERY
1. Right conus artery –first branch, supplies the anterior
surface pulmonary conus and upper part of the anterior wall
of RV
2. Anterior ventricular branches – anterior surface of the
RV
A. Marginal Branch – lowest part
B. The right marginal artery is the largest and runs
along the right margin of the anterior surface toward
the apex
Figure 5. Branches of the right coronary artery

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3. Anterior ventricular and posterior ventricular branches
B. LEFT CORONARY ARTERY supply the left ventricle
4. Atrial branches supply the left atrium

Mainly supplies the left atrium
Most of the left ventricle
Small part of the right ventricle
Ventricular septum (anterior two thirds) – posterior one third will be
supplied by the right coronary artery
SA node (-40% of people)
AV bundle + bundle branches

Figure 6. Branches of the left coronary artery

C. CORONARY ARTERY VARIATIONS
Figure 4. Branches of the coronary arteries and veins Variations in the pattern of blood supply to the heart occur
commonly, and Most affect the blood supply to the
Usually larger than the right coronary artery, supplies the major diaphragmatic surface of both ventricles. The condition known
part of the heart. as coronary artery dominance refers to the variable Origin of the
Left aortic sinus - run to the left between the pulmonary trunk & posterior interventricular artery
left auricle 1. Right Dominance
Atrioventricular groove and divides into an anterior interventricular The posterior interventricular artery is a large branch of the
branch and a circumflex branch right coronary artery. Right dominance is present in most
individuals (~67%).
Ø BRANCHES OF THE LEFT CORONARY ARTERY
1. Anterior Interventricular (descending) branch
Anterior interventricular groove to the apex of the heart.
It then passes around the apex of the heart to enter the
posterior interventricular groove and anastomoses with
the terminal branches of the right coronary artery.
1/3 of individuals ends at the apex of the heart
Supplies the right and left ventricles.
Supplies the anterior part of the ventricular septum.
Left diagonal artery may arise directly from the trunk of
the left coronary artery.
A small left conus artery supplies the pulmonary conus.
2. Circumflex artery
Same size as the anterior interventricular artery
Winds around the left margin of the heart in the
atrioventricular groove
Left marginal artery is a large branch that supplies the Figure 7. Posterior View of the heart Showing the
left margin of the left ventricle down to the apex origin and distribution of the posterior interventricular
artery in the right dominance.
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DR. LESLIE ASUNCION-VIADO| 01/11/21

2. Left Dominance
In left dominance, the posterior interventricular artery is a D. ARTERIAL SUPPLY OF THE CONDUCTING
branch of the Circumflex branch of the left coronary artery
(~15%). SYSTEM

Right coronary artery arises from the anterior aortic sinus of
the ascending aorta and runs forward between the pulmonary
trunk and the right auricle.
The Left coronary artery, supplies the major part of the heart
including the greater part of the left atrium, left ventricle, and
ventricular septum.
It arises from the left posterior aortic sinus of the ascending
aorta and passes forward between the pulmonary trunk and the
left auricle

Figure 8. Posterior view of the heart showing the
origin and distribution of the posterior interventricular
artery in the left dominance.

3. Codominance
In codominance (~18%), both the right coronary and
circumflex arteries contribute to the formation of the
posterior interventricular artery or to multiple branches that
substitute for that vessel.

Table 1. Typical Distributions of the Coronary Arteries.

E. CORONARY ARTERY ANASTOMOSES

Anastomoses (collateral circulation) between the terminal
branches of the Right and left coronary arteries do exist; however,
they are usually not large Enough to provide an adequate blood
supply to the cardiac muscle should one Of the large branches
become blocked by disease.
Thus, the coronary arteries Are generally considered to be
functional end arteries. A sudden block of One of the larger
branches of either coronary artery usually leads to Myocardial
death (myocardial infarction), although sometimes the collateral
Circulation is enough to sustain the muscle.

Figure 9. Anterior view of the heart showing the
relationship of the blood supply to the conducting
system.
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Table 2. Major Coronary Veins and Accompanying coronary
arteries

Not all venous blood drains into the coronary sinus.
A variable number of small anterior cardiac veins drain the anterior
surface of the heart and empty directly into the right atrium. Other
very small veins may drain directly into the chambers of the heart
(usually the atria).

Figure 11. Coronary artery anastomoses

III. VENOUS DRAINAGE OF THE HEART
- Most blood from the heart wall drains into the right atrium via
the coronary sinus.
- The coronary sinus is a large, dilated vein that lies in the
posterior part of the atrioventricular groove (coronary sulcus).
o It empties into the right atrium just to the left of the
inferior vena cava

Table 3. Coronary Artery Lesions, Infarct Location, and ECG
Signature

IV. SURFACE ANATOMY OF THE HEART

Figure 12. Venous drainage of the heart

Ø Three Main Veins:
- drain the heart wall and open into the coronary sinus
- each of these typically accompanies a specific coronary artery.
The great cardiac
1. Great cardiac vein
o vein drains most of the areas of the heart supplied
by the left coronary artery and joins the left end of
the coronary sinus.
2. Middle cardiac vein
3. Small cardiac vein
o The middle and small cardiac veins drain most of
the areas normally supplied by the right coronary
artery and drain into the right end of the coronary Figure 13. Four valves of the heart
sinus.
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Tricuspid valve
- lies behind the right half of the sternum opposite the 4th
intercostal space
Mitral valve
- behind the left half of the sternum opposite the 4th costal
cartilage.
Pulmonary valve
- behind the medial end of the third left costal cartilage &
adjoining part of sternum
Aortic valve
- behind the left half of the sternum opposite the 3rd
intercostal space.

Figure 14. Anterior view of the thoracic aorta

Table 3. Comparison of Anatomic and Auscultation Areas of
the Cardiac Valves

A. LARGE ARTERIES OF THE THORAX
1. Aorta
a. Ascending – Right Coronary Artery and Left Coronary
Artery
- As the aorta ascends it will give rise to the aortic arch
first the:
o Brachiocephalic artery – 1st branch
o right subclavian artery – supplies the right upper
arm
o right common.carotid artery – supplies the brain
o Left common carotid artery -2nd branch, gives
rise to internal and external carotid artery
o Left subclavian artery -3rd branch, supplies the
right upper arm Figure 15. Anterior view of the abdominal aorta
b. Descending - thoracic aorta
o posterior intercostal artery
o subcostal artery B. LARGE VEINS OF THE THORAX
o pericadial, esophageal, bronchial arteries
They receive blood drainage from the head, neck, upper limbs, and
2. Pulmonary trunk - left and right pulmonary artery, thorax. The inferior vena cava receives blood mainly from the body
ligamentum arteriosum > abdominal aorta below the diaphragm and has only a brief appearance in the
thorax.
1. Pulmonary Trunk (within the heart)
2. Brachiocephalic Veins
The right and left brachiocephalic veins form at the
root of the neck on each side by the union of the
respective subclavian and internal jugular veins.
The left brachiocephalic vein passes obliquely
downward and to the right behind the manubrium sterni

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and in front of the large branches of the aortic arch. The right
c. Superior Hemiazygos Vein
brachiocephalic vein is relatively short and descends almost
- formed by the union of left superior
vertically. The two brachiocephalic veins join to form the
intercostal vein and the fourth to the eighth
superior vena cava.
intercostal veins. It joins the azygos vein at the
level of the seventh thoracic vertebra.
5. Inferior Vena Cava
pierces the central tendon of the diaphragm opposite the
eighth thoracic vertebra and almost immediately enters
the lowest part of the right atrium

Ø Venous return (from the inferior part of the body)
Tibioperoneal trunk à Popliteal area à Common femoral
vein à Iliac vein à inferior vena cava (which has
branches also wherein venous flow coming from the
different parts of the abdominal system) à the central
tendon à the right atrium

Figure 15. Major veins draining the superior and
inferior venae cavae
3. Superior Vena Cava
drains the upper part of the body
passes downward to end in the right atrium of the heart
The azygos vein joins the posterior aspect of the
superior vena cava just before it enters the
pericardium.
4. Azygos Veins
drain the posterior circulation in the thorax,
pericardium and others
Consists of:
a. Main Azygos Vein
- formed by the union of the right ascending
lumbar vein and the right subcostal vein in
the abdomen
- It ascends through the aortic opening in the
diaphragm on the right side of the aorta up to Figure 16. Veins of internal thoracic wall
the level of the fifth thoracic vertebra. Here, it
arches forward above the root of the right lung
to empty into the posterior surface of the C. LYMPH NODES
superior vena cava.
b. Inferior Hemiazygos Vein
The lymph vessels in the thorax collect lymph from virtually all
- formed by the union of the left ascending parts of the body below the neck and upper limbs. Further, the
lumbar vein and the left subcostal vein in upper ends of these vessels (located in the root of the neck)
the abdomen often forms the inferior
typically collect the drainage from the head, neck, and upper
hemiazygos vein. It ascends through the left
limbs.
crus of diaphragm and, at about the level of 1. Thoracic wall
the eighth thoracic vertebra, turns to the right
Thoracic wall nodes drain in the bronchomediastinal
and joins the azygos vein. It receives as
trunk while posterior intercostal node will drain into the
tributaries some lower left intercostal veins
thoracic trunk.
and mediastinal veins.

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a. Anterior axillary nodes
- drain the lymph vessels of the skin of the anterior
thoracic wall
b. Posterior axillary nodes
- drain the lymph vessels of the skin of the posterior
thoracic wall
c. Internal thoracic nodes
- drain the deep lymph vessels of the anterior parts of
the intercostal space. From here, the lymph enters
the thoracic duct.
2. Thoracic duct
begins below in the abdomen as a dilated sac, the
cisterna chyli
gradually crosses the median plane behind the
esophagus and reaches the left border of the esophagus
(T4 Level)
Here, it bends laterally behind the carotid sheath and in
front of the vertebral vessels
All of the drainage in the left and what’s below half of the
body will be drained into the cisterna chyli and then
drained into the right atrium
It turns downward in front of the left phrenic nerve and
crosses the subclavian artery to enter the beginning of
the brachiocephalic vein

Figure 18. Lymph vessels and nodes of posterior
abdominal wall

TEST YOUR KNOWLEDGE

1. If the SA node will malfunction which will become pacemaker
of heart
A. Sinoatrial node
B. Atrioventricular node
C. Purikinje fibres
D. Bundle of His

2. What is/are the nerve supply of the heart?
A. Sympathetic nerves
B. Brachial plexus
C. Parasympathetic nerves
D. Both A and C

3. The first branch of aorta is called
A. Brachiocephalic artery
B. Left common carotid artery
Figure 17. Distribution of lymphatic vessels and
C. Left subclavian artery
lymph nodes D. Subcoastal artery

4. Where is the auscultation location of aorta?
A. Over the right half of lower end of the body of the sternum
B. Over the medial end of second right intercoastal space
C. Over the medial end of second left intercoastal space

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5. Identify which coronary venous drains into right atrium 13. A 54-year-old patient is implanted with an artificial cardiac
A. Azygous vein
pacemaker. Which of the following conductive tissues of the
B. Aorta
C. Coronary sinus heart had a defective function that required the pacemaker?
D. Inferior vena cava A. Atrioventricular (AV) bundle
B. AV node
6. Most common dominance seen in humans are C. Sinoatrial (SA) node
A. Left dominance D. Purkinje fiber
B. Right dominance E. Moderator band
C. Co-dominance
14. An 83-year-old man with a typical coronary circulation has
7. Which internodal pathway drains through crista terminalis? been suffering from an embolism of the circumflex branch of
A. Anteriorly internodal pathway the left coronary artery. This condition would result in
B. Middle internodal pathway ischemia of which of the following areas of the heart?
C. Posterior internodal pathway A. Anterior part of the left ventricle
B. Anterior interventricular region
8. Which coronary artery supplies most of the SA node and AV C. Posterior interventricular region
node D. Posterior part of the left ventricle
A. Right coronary artery E. Anterior part of the right ventricle
B. Left coronary artery
15. A 44-year-old man with a stab wound was brought to the
9. Anatomical location of pulmonary valve emergency department, and a physician found that the patient
A. lies behind left half of the sternum. was suffering from a laceration of his right phrenic nerve.
B. lies behind medial end of third coastal cartilage and adjoining Which of the following conditions has likely occurred?
part of sternum. A. Injury to only GSE fibers
C. over the right half of lower end of the body of the sternum B. Difficulty in expiration
D. lies behind right half of the sternum. C. Loss of sensation in the fibrous pericardium and mediastinal
pleura
10. 32-year-old patient who weighs 275 lb comes to the doctor’s D. Normal function of the diaphragm
office. On the surface of the chest, the physician is able to E. Loss of sensation in the costal part of the diaphragm
locate the apex of the heart:
A. At the level of the sternal angle 16. A 37-year-old patient with severe chest pain, shortness of
B. In the left fourth intercostal space breath, and congestive heart failure was admitted to a local
C. In the left fifth intercostal space hospital. His coronary angiograms reveal a thrombosis in the
circumflex branch of the left coronary artery. Which of the
D. In the right fifth intercostal space
following conditions could result from the blockage of blood
E. At the level of the xiphoid process of the sternum
flow in the circumflex branch?
A. Tricuspid valve insufficiency
11. A 27-year-old cardiac patient with an irregular heartbeat visits B. Mitral valve insufficiency
her doctor’s office for examination. Where should the C. Ischemia of AV node
physician place the stethoscope to listen to the sound of the D. Paralysis of pectinate muscle
mitral valve? E. Necrosis of septomarginal trabecula
A. Over the medial end of the second left intercostal space
B. Over the medial end of the second right intercostal space 17. The attending faculty in the coronary intensive care unit
C. In the left fourth intercostal space at the midclavicular line demonstrates to his students a normal heart examination. The
D. In the left fifth intercostal space at the midclavicular line first heart sound is produced by near simultaneous closure of
E. Over the right half of the lower end of the body of the sternum which of the following valves?
A. Aortic and tricuspid
B. Aortic and pulmonary
12. A 19-year-old man came to the emergency department, and
C. Tricuspid and mitral
his angiogram exhibited that he was bleeding from the vein
D. Mitral and pulmonary
that is accompanied by the posterior interventricular artery. E. Tricuspid and pulmonary
Which of the following veins is most likely to be ruptured?
A. Great cardiac vein 18. A 27-year-old patient with Marfan’s syndrome has an
B. Middle cardiac vein aneurysm of the aortic arch. This may compress which of the
C. Anterior cardiac vein following structures?
D. Small cardiac vein A. Right vagus nerve
E. Oblique veins of the left atrium B. Left phrenic nerve
C. Right sympathetic trunk
D. Left recurrent laryngeal nerve
E. Left greater splanchnic nerve

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19. A 46-year-old male patient with high blood pressure was
examined in the emergency department, and his physician 18. D. The left recurrent laryngeal nerve loops around the arch of the aorta near
the ligamentum arteriosum, whereas the right recurrent laryngeal nerve hooks
found a leakage of blood from the blood vessel that normally around the right subclavian artery. All other nerves are not closely associated
carries richly oxygenated blood. Which of the following vessels with the aortic arch.
would most likely be damaged?
A. Superior vena cava 19. C. Pulmonary veins return oxygenated blood to the heart from the lungs.
B. Pulmonary arteries Pulmonary arteries carry deoxygenated blood from the heart to the lungs for
oxygen renewal. The portal vein carries deoxygenated blood with nutrients
C. Pulmonary veins from the intestine to the liver. The superior vena cava and coronary sinus carry
D. Portal vein deoxygenated blood to the right atrium.
E. Coronary sinus

ANSWERS REFERENCES
1. Wineski, Lawrence E. (2019). Snell’s Clinical Anatomy By
Regions. (10th ed.). Philadelphia: Wolters Kluwer.
1. A. Atrioventricular node
2. D. Sympathetic and parasympathetic nerves are the extrinsic nerve supply of
2. Netter, Frank H. (2019). Atlas of Human Anatomy. (7th ed.).
the heart. Philadelphia: Elsevier Inc.
3. A. Brachiocephalic artery 3. Chung, K.W., Chung, H.M., & Halliday, N.L. (2011). BRS Gross
4. B. Over the medial end of second right intercostal space
Anatomy. (7th ed.). Philadelphia: Lippincott Williams &Wilkins.
5. C. Coronary sinus
6. B. Right Dominance 4. Viado, L.A. (2021). Cardiovascular Anatomy Part 2. [PPT]
7. C. Posterior internodal pathway
8. A. Right coronary artery
9. B. Lies behind medial end of third costal cartilage and a adjoining part of
sternum
10. C. On the surface of the chest, the apex of the heart can be located in the left
fifth intercostal space slightly medial to the midclavicular (or nipple) line. The
sternal angle is located at the level where the second ribs articulate with the
sternum. The xiphoid process lies at the level of T10 vertebra.

11. D. The mitral valve (left atrioventricular [AV] valve) produces the apical beat
(thrust) of the heart, which is most audible over the left fifth intercostal space
at the midclavicular line. The pulmonary valve is most audible over the medial
end of the second left intercostal space, the aortic valve is most audible over
the medial end of the second right intercostal space, and the right AV valve is
most audible over the right half of the lower end of the body of the sternum.

12. B. The middle cardiac vein ascends in the posterior interventricular groove,
accompanied by the posterior interventricular branch of the right coronary
artery. The great cardiac vein is accompanied by the anterior interventricular
artery, the anterior cardiac vein drains directly into the right atrium, and the
small cardiac vein is accompanied by the marginal artery.

13. C. The sinoatrial (SA) node initiates the impulse of contraction and is known as
the pacemaker of the heart. Impulses from the SA node travel through the atrial
myocardium to the AV node and then race through the AV bundle (bundle of
His), which divides into the right and left bundle branches. The bundle breaks
up into terminal conducting fibers (Purkinje fibers) to spread out into the
ventricular walls. The moderate band carries the right limb of the AV bundle
from the septum to the sternocostal wall of the ventricle.

14. D. The circumflex branch of the left coronary artery supplies the posterior
portion of the left ventricle. The anterior interventricular artery supplies the
anterior aspects of the right and left ventricles and the anterior interventricular
septum.

15. C. The phrenic nerve supplies the pericardium and mediastinal and
diaphragmatic (central part) pleura and the diaphragm, an important muscle of
inspiration. It contains general somatic efferent (GSE), general somatic afferent
(GSA), and GVE (postganglionic sympathetic) fibers. The costal part of the
diaphragm receives GSA fibers from the intercostal nerves.

16. B. The circumflex branch of the left coronary artery supplies the left ventricle,
and thus its blockage of blood flow results in necrosis of myocardium in the left
ventricle, producing mitral valve insufficiency. The pectinate muscles, tricuspid
valve, and septomarginal trabecula are present in the right atrium and ventricle.

17. C. The first heart sound (“lub”) is produced by the closure of the tricuspid and
mitral valves, whereas the second heart sound (“dub”) is produced by the
closure of the aortic and pulmonary valves.

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CMED 1A