1. Dr.Mohammed Sharique Ahmed Quadri
CORONARY CIRCULATION
Dr.Mohammed Sharique Ahmed Quadri
Assistant professor
Al Maarefa College

2. Objectives Review the functional anatomy of coronary circulation
Recognize the importance of phasic changes in coronary blood flow
Describe the factors affecting the coronary blood flow
Recognize the clinical significance (IHD)

3. Coronary Artery & their Branches
Coronary arteries arises from the base of the aorta
LCA
Left Anterior Descending (LAD)
Marginal Artery
Circumflex Artery
RCA
Posterior descending Branch

4. Coronary Arteries

5. Venous return Most venous return is through
1)Ant cardiac veins & 2)coronary sinus
into
Right Atrium

6. CORONARY BLOOD FLOW
Coronary blood flow in Humans at rest is about ml/minute, about 5% of cardiac output.
At rest, the heart extracts 60-70% of oxygen from each unit of blood delivered to heart [other tissue extract only 25% of O2.

7. CORONARY BLOOD FLOW Why heart is extracting 60-70% of O2?
Because heart muscle has more mitochondria, up to 40% of cell is occupied by mitochondria, which generate energy for contraction by aerobic metabolism, therefore, heart needs more O2 supply.
When more oxygen is needed e.g. exercise, O2 delivery can be increased to heart only by increasing blood flow.

8. Blood flow to Heart during Systole & Diastole
Blood flow to heart muscle reduces during systole because of two reasons
During systole when heart muscle contracts (specially in powerful left ventricle) compresses the coronary arteries therefore blood flow is less to the left ventricle during systole and more during diastole.
Second , the open aortic valve partially blocks the entrance to coronary vessels

9. Phasic changes in coronary bld flow
Effect of cardiac muscle contraction

10. Coronary blood flow to the right side is not much affected during systole.
Reason---Pressure difference between aorta and right ventricle is greater during systole than during diastole, therefore more blood flow to right ventricle occurs during systole.

11. Effect of pressure gradient of aorta &diff chambers of heart
pressure(mm hg) in
Pressure diffrential (mmhg)
Between aorta &
Aorta
Left ventricle
Rt ventricle
Lt ventricle
Systole
120
121 25 -1 95
diastole 80
As in systole pressure in left ventricle is slightly higher than in aorta blood flow reduces
On the other hand press diff in aorta & rt ventricle & aorta & rt atrium is more during systole than diastole, coronary bld flow is not appreciably reduce during systole
driving force for coronary blood flow is coronary perfusion pressure , The coronary perfusion pressure is the difference between the aortic diastolic pressure and left ventricular end-diastolic pressure (LVEDP).

12. CORONARY BLOOD FLOW DURING SYSTOLE AND DIASTOLE

13. During systole blood flow to subendocardial surface of left ventricle is almost not there,
therefore,
this region is prone to ischemic damage and most common site of Myocardial infarction.

14. Effect of Tachycardia on coronary blood flow:
During increased heart rate, period of diastole is shorter therefore coronary blood flow is reduced to heart during tachycardia.

15. FACTORS AFFECTING BLOOD FLOW TO CORONARY ARTERIES
-Pressure in aorta
-Chemical factors
-Neural factors
NOTE—Coronary blood flow shows considerable Autoregulation.

16. CAUSES OF DECREASED BLOOD FLOW TO LEFT VENTRICLE
1-Aortic stenosis
Reason---As left ventricle pressure is very high during systole, therefore, it compresses the coronary arteries more.
2-When diastolic pressure in aorta is low, coronary blood flow is decreased

17. Chemical factors affecting Coronary blood flow
Chemical factors causing Coronary vasodilatation (Increased coronary blood flow)
-Lack of oxygen
-Increased local concentration of Co2
-Increased local concentration of H+ ion
-Increased local concentration of k + ion
-Increased local concentration of Lactate, Prostaglandin, Adenosine, Adenine nucleotides.
NOTE – Adenosine, which is formed from ATP during cardiac metabolic activity, causes coronary vasodilatation.

18. Neural factors affecting Coronary Blood Flow
-Effect of Sympathetic stimulation
-Effect of Parasympathetic stimulation
Sympathetic stimulation
By stimulation of Alpha Adrenergic receptors mediate vasoconstriction
By stimulation of Beta Adrenergic receptors mediate vasodilatation

19. Sympathetic stimulation------Cont
Effect of sympathetic stimulation in intact body:---Epinephrine and Norepinephrine causes VASODILATATION.
HOW ?
But the Direct effect of sympathetic on Coronary arteries is VASOCOSTRICTION.
WHY ?

20. Indirect effect of sympathetic stimulation
Stimulation of sympethetic nerves
release of nor epinephrine
increase of H.R &force of contraction
(effect mediated by β1-receptors)
Release of vasodilator metabolites
vasodilatation

21. Direct effect of sympathetic stimulation
When the ionotropic &chronotropic effect of noradrenergic discharge are blocked by Beta adrenergic receptor blocking drugs, injection of norepinephrine or stimulation of noradrenergic nerves in un anaesthetized animal elicits coronary vasoconstriction.
Thus direct effect of noradrenergic stimulation is V.C

22. Benefits of indirect effect of noradrenergic discharge
When systemic B.P decreases very low as in shock
reflex increase of noradrenergic discharge
Increase coronary blood flow sec to metabolic changes in myocardium
In this way circulation of heart is preserved while flow to other organs compromised

23. Effect of Parasympathetic stimulation
-Parasympathetic influences are minor and weakly vasodilatory.

24. Special features of cardiac muscle metabolism
Heart uses primarily free fatty acids and to lesser extent glucose and lactate for metabolism.
in ischemic / anaerobic conditions
Derives energy from
Anaerobic glycolysis
Forms lactic acid (one of cause of cardiac pain )

25. CORONARY ARTERY HEART DISEASE
ISCHEMIC HEART DISEASE (IHD) (ANGINA PECTORIS)
MYOCARDIAL INFARCTION

26. RISK FACTORES OF IHD: CIGARETTE SMOKING HYPERTENSION DIABETES MELLITUS
INCREASED LIPIDS ( CHOLESTROL)
OTHER FACTORS: LACK OF EXERCISE, ANXIETY etc.

27. IHD(ANGINA PECTORIS):
THERE IS REDUCED CORONARY ARTERY BLOOD FLOW DUE TO ATHEROSCLEROSIS (CHOLESTROL DEPOSITION SUBENDOTHELIAL -- Plaque)
PATIENT COMPLAINS OF TIGHTNESS OR PAIN IN THE MIDDLE OF CHEST (RETROSTERNAL) FOR FEW MINUTES. PAIN OFTEN RADIATES TO INNER SIDE OF LEFT ARM.
PAIN IS PRECIPETED BY EFFORT AND RELIEVED BY REST.

28. MYOCARDIAL INFARCTION (MI):
IT IS DUE TO OBSTRUCTION TO THE CORONARY BLOOD FLOW, ATLEAST 75 % OF LUMEN OF CORONARY ARTERY IS BLOCKED BY THROMBUS.
MI IS THE COMMON CAUSE OF DEATH.

29. Applied Aspect
THE C A D.

31. Electrocardiographic changes during exercise test
Electrocardiographic changes during exercise test. Upper trace – significant horizontal ST segment depression during exercise.

33. INVESTIGATIONS: ECG CARDIAC ENZYMES e.g. CK, LDH, TROPONIN etc.
ECHOCARDIOGRAPHY
TREADMILL EXERCISE TEST
THALLIUM STRESS TEST
CORONARY ANGIOGRAPHY
NOTE:
ECG CHANGES IN IHD:
ST DEPRESSION OCCURS IN ECG IN RESPECTIVE LEADS
ECG CHANGES IN MI:
ST ELEVATION OCCURS IN ECG IN RESPECTIVE LEADS

34. TREATMENT: CORONARY DILATORS E.g. NITRATES BETA-BLOCKERS
ANGIOPLASTY (DILATE AREA OF CONSTRICTION)
STENT
BYPASS SURGERY

36. Percutaneous transluminal coronary angioplasty (PTCA)
Percutaneous transluminal coronary angioplasty (PTCA). (a) Coronary angiography demonstrates a severe stenosis in the proximal left anterior descending artery. (b) During PTCA a soft guidewire is passed across the stenosis and then a balloon is expanded that dilates the stenosis. (c) Post-PTC

37. An intracoronary stent.

38. CORONARY ARTERY BYPASS SURGERY

39. Thanks