Cardiac Anatomy & Coronary arteries

Question 1

Describe the pericardium

Answer 1

3 layered sac
Fibrous pericardium: dense connective tissue
- protective layer
- attached to great vessels (aorta, pulmonary arter&vein)
- Attached to diaphragm
- Anchors heart in plcae
Serous pericardium
- Parietal attached to fibrous layer
- Visceral attached to surface of the hart (epicardium): allows the smooth movement of the myocardium- beats or movement of heart

Question 2

What is the function of pericardium

Answer 2

• Fixes heart in mediastinum and limits movement
• Protection from infections coming from other organs (such as lungs)
• Prevents excessive dilation of heart in cases of acute volume overload
• Lubrication: allow free movement of heart with the pericardial sac

Question 3

What is pericardial effusion/tamponade

Answer 3

Fibrous pericaridum:
- Normally restricts overexpansion
- But if fluid gathers between parietal and visceral pericardium the heart has no where to go
Accumulation of fluid under high pressure
Management: Pericardiocentesis
Indication for pericardiocentesis:
- A pericardial effusion causing tamponade (RV free wall collapse during diastole)

Decrease SV -> decrease CO-> hypotension/shock (reflex tachycardia)
incr

Question 4

Describe the heart wall layers

Answer 4

1. Epicardium
   - Visceral layer of serous pericardium
2. Myocardium
   - Cardiac muscle fibres: arranged in bundles, squeezes blood out of herat
3. Endocardium
   - Continous with endothelium
   - Lines chamgers and valves

Question 5

Trace the flow of blood through the heart and identify the great vessels

Is the volume of blood propelled by the right ventricle the same as that

Answer 5

Superior vena cava, Inferior vena cava
Coronary sinus
Right atrium
Tricuspid valve
Right ventricle
Pulmonary semilunar valve
Pulmonary trunk
To lungs
Pulmonary capillaries
To heart
Four pulmonary veins
Left atrium
Mitral vavle
Left ventricle
Aortic semilunar vavle
Aorta
To body
Systemic capillaries
To heart

Question 6

Describe the arrangement and the main features of the chambers of the heart

Question 7

External landmarks

Answer 7

1. Coronary groove (atrioventricular sulcus)
   - Between atria and ventricles
2. Anterior interventricular sulcus
   - Between right and left ventricle
3. Posterior interventricular sulcus
   - Between right and left ventricle

Question 8

What does the right atrium and the left atrium consist?

Answer 8

Right:
1. SVC,IVC
2. Right auricle
Left:
1. 4 pulmonary veins
2. Left auricle

Coronary groove: oblique plane which separates atria and ventricle

Question 9

What does the right and left ventricle consist of?

Answer 9

Right:
1. 2/3 anterior
2. Pulmonary truncle
Left:
1. Apex (left border)
2. Inferior surface (2/3 post)
3. Aorta

Interventricular groove: overlies interventricular septum which separates left adn right ventricle

Question 10

What does the right atrium and ventricle consist?

Answer 10

1. Right border and anterior surface
2. SVC,IVC and cornary sinus
3. Smooth walled posteriorly, rough anteriorly
4. Fossa ovalis:closed holes from the fetus stage (passes blood from right to left as it doesn’t need to go through the lungs)
5. Tricuspid valve
   - Valve cusps
   - Cordae tendineae
   - Papillary muscles
6. Trabeculae carnae
   - Trabeculae: pole like, rod like cluster of blood vessels
7. Pulmonary trunk

Question 11

What is the internal landmarks of the right atrium

Answer 11

1. SVC
2. Fossa ovalis
3. IVC
4. Cristae terminalis
5. Pectinate muslce
6. Tricuspid valve

Question 12

What is the internal landmarks of the right ventricle

Answer 12

1. Tricuspid valve
2. Septal
3. Chordae tendinae
4. Trabeculae carnae
5. Ant/Post. papillary muscle
6. Moderator band
7. Septal papillary muscle
8. Pulmonary valve
9. Pulmonary trunk

Question 13

What does the left atrium and ventricle consist of?

Answer 13

1. Posterior or base of heart
2. 4 pulmonary veins
3. Smooth walls excluding pectinate muslce in elft auricle
4. Fossa ovalis
5. Mitral valve: chordae tendineae, papillary muscle
6. Trabeculae carnae
7. Thicker myocardium
8. Ascending aorta: aortic semilunar valve

Question 14

What is the coronary blood supply?

Answer 14

Arterial supply
- Coronary arteries: right and left
Supply both the atria and ventricles

Question 15

Coronary arteries

Answer 15

1. Right anastomoses with circumflex branc of LCA
   - After RCA has given rise to post interventricular artery
2. LAD loops around apex and anastomoses with post interventricular artery
3. Dominance
   - Determined by the artries that supply the posterior and inferior wall of the left ventricle
   - Approximately 60% of the general population are right dominant, 25% are co-dominant and 15% are left-dominant

Question 16

What is the anatomy of coronary arteries

Question 17

Clinical anatomy of the heart

Answer 17

1. Myocardial infarction
   - LAD off LCA 40-50%
   - RCA 30-40%
   - Circumflex of LCA 15-20%
2. May damage conudcting system
   - LAD to septal branches supplying AV node
   - RCA supplies both SA and AV nodes: heart block

Question 18

Function and anatomy of coronary veins

Answer 18

1. Venous drainage from cardiac muscle
2. Drains into coronary sinus on posteriro surface of heart
3. Coronary sinus empties into right atrium

Question 19

Fibrous skeleton of the heart

Answer 19

1. Dense connective tissue surrounds AV and outflow vessels valves
2. Fuse together and merge with interventricular septum
   - Support the valves
   - Prevents overstretching of the valves
   - Insertion point of cardiac muscle bundles
   - Electrical insulator between atria and ventricles

Question 20

What happens in diastole?

Answer 20

Diastole-ventricular filling
1. AV valves open and allow blood to flow from atria into ventricles when ventricular pressure is lower than atrial pressure
2. Occurs when ventricles are relaxed
3. Chordae tendinae are slack
4. Papillary muscles are relaxed

Question 21

What happens in systole?

Answer 21

1. AV valves close preventing backflow of blood into atria
2. Occurs when ventricles contract
3. Pushing valve cusps closed
4. Chordae tendinae are pulled taut
5. Papillary muscles contract to pull cords and prevent cusps from everting

Question 22

What is the function of semilunar valves?

Answer 22

1. Three cusps
2. Prevent backflow from aorta and pulmonary trunk into ventricles
3. Passive action
4. Systole of ventricles open valves
5. Diastole of ventricles: decrease in BP, backflow fills cusps and closes vavle

Question 23

Describe the heart conducting system

Answer 23

1. The sinoatrial (SA) node (pacemaker) generates 70-80 impulses per minute, atria contract
2. The impulses pause (0.1 sec) at the AV node so ventricles have time to fill
3. The atrioventricular (AV) bundle connects the atria to the ventricles
4. The AV bundle branches conduct the impulses through the interventricular septum
5. THe Purkinje fibres stimulate the contractile cells of both ventricles, starting at apex and moving superiorly

Question 24

What consists in the heart conducting system?

Answer 24

1. Cardiac muscle fibers form 2 networks via gap junctions at intercalated discs: atrial network, ventricular network
2. Separated by fibrous skeleton

Question 25

Describe the innervation of the heart

Answer 25

1. Heart is supplied by the cardiac plexus
2. Lies anterior to the bifurcation of the trachea and posterior to the arch of aorta
3. Cardiac plexus contains:
   - Parasympathetic (from vagus)
   - Sympathetic (from sympathetic trunk)
4. Fibres extend from the plexus to the coronary vasculate and to components of the conducting system of the heart (especially SA node)

Question 26

Describe the sympathetic innervation of the heart

Answer 26

1. Increase heart rate
2. Increase force of contraction
3. Cardioaccelaratory centre: medullary reticular formation
4. Preganglionic symptathetic neruons in thoracic spinal cord
5. Postganglionic sympathetic neurons to SA&AV node and to coronary VSM

Question 27

Describe the parasympathetic innervation

Answer 27

1. Slows heart rate
2. Pathway
   - Reticular formation in medullar (cardioacceleartory centre)
   - Vagus nerve (CN X)
   - To SA&AV node

Question 28

Cardiac Pain

Answer 28

1. Pain not felt in heart-referred
2. Pain caused by ischaemia and damage to cardiac muscle
   - Stimulates visceral sensory nerve endings in myocardium
   - Visceral afferent nerve fibres ascent to the CNS through cardiac brances of the sympathetic trunk and into CNS
   [organ and skin pain fibres travel to spinal cord together]
   [generally referred {interpreted} as if it came from somatic areas]
   [skin supplies by T1-5 L side of chest, neck, face, left arm]
   - For infarct on inferior wall (referred) [to epigastrium: T7,8, and 9]