Coronary circulation is the circulation of blood in the blood vessels of the heart muscle (myocardium). It provides oxygen and nutrients to the heart muscle while removing carbon dioxide and other waste products. The coronary arteries branch off from the aorta and supply blood to the heart muscle. When these arteries become narrowed or blocked due to conditions like atherosclerosis, it can lead to coronary artery disease and potentially heart attacks.Coronary circulation is considered a type of systemic circulation because it is part of the larger circulatory system that supplies oxygenated blood to all the tissues and organs of the body, including the heart muscle itself. It is distinct from other types of circulation, such as pulmonary circulation, which involves the flow of blood between the heart and the lungs.
Coronary circulation branches off from the main systemic circulation. The coronary arteries, including the left coronary artery (which further divides into the left anterior descending artery and the circumflex artery) and the right coronary artery, are the main branches responsible for supplying blood to the heart muscle. These arteries then further divide into smaller branches and capillaries that penetrate the myocardium, ensuring oxygen and nutrients are delivered to all areas of the heart muscle.
Coronary circulation is vitally important because it supplies oxygen and nutrients to the heart muscle, allowing it to function properly. The heart is a muscular organ that continuously pumps blood throughout the body, including to its own tissues. Without adequate coronary circulation, the heart muscle can become deprived of oxygen, leading to tissue damage, dysfunction, and potentially life-threatening conditions such as heart attacks or myocardial infarctions. Therefore, maintaining healthy coronary circulation is crucial for overall heart health and optimal functioning of the cardiovascular system.
Coronary circulation is clinically important for several reasons:
1. **Coronary Artery Disease (CAD):** CAD is a condition where the coronary arteries become narrowed or blocked due to a buildup of plaque (atherosclerosis). This can restrict blood flow to the heart muscle, leading to chest pain (angina), heart attacks, and potentially life-threatening complications.
2. **Myocardial Infarction (Heart Attack):** When a coronary artery becomes completely blocked, it can cause a heart attack by depriving a portion of the heart muscle of oxygen and nutrients. Prompt medical intervention is critical to restore blood flow and prevent further damage to the heart.
3. **Diagnostic Tests:** Various diagnostic tests, such as coronary angiography and stress tests, are used to assess the function and integrity of the coronary circulation. These tests help diagnose coronary artery disease and guide treatment decisions.
4. **Interventions:** Procedures like percutaneous coronary intervention (PCI) or coronary artery bypass grafting (CABG) ..
2. Caronary circulation
Coronary circulation is the circulation of blood in the arteries and veins
that supply the heart muscle.
Coronary arteries supply oxygenated blood to the heart muscle.
Cardiac veins then drain away the blood after it has been deoxygenated
the heart is required to function continuously
Therefore its circulation is of major importance not only to its own tissues
but to the entire body and even the level of consciousness of the brain
from moment to moment
4. Coronary arteries
*Coronary arteries supply blood
to the myocardium and other
components of the heart
*Two coronary arteries originate
from the left side of the heart at
the beginning (root) left
ventricle.
*The left coronary artery
distributes blood to the left side
of the heart, the left atrium and
ventricle, and the
interventricular septum.
*The right coronary artery
proceeds along the coronary
sulcus and distributes blood to
the right atrium, portions of both
ventricles, and the heart
conduction system
6. Coronary Circulation
About one third of all deaths in industrialized
countries
of the Western world result from coronary artery
disease
The left coronary artery supplies mainly the anterior
and left lateral portions of the left ventricle, whereas
the
right coronary artery supplies most of the right
ventricle,
as well as the posterior part of the left ventricle in 80
to 90
percent of people.
7. Most of the coronary venous blood flow from the
left ventricular muscle returns to the right atrium of
the heart by way of the coronary sinus
8. Normal Coronary Blood Flow—About
5 Percent
of Cardiac Output
The resting coronary blood flow in the resting human
being averages 70ml/min/100 g heart weight, or about
225ml/min, which is about 4 to 5 percent of the total cardiac output
During strenuous exercise, the heart in the young adult increases its
cardiac output fourfold to sevenfold, and it pumps this blood against a
higher than normal arterial pressure. Conseque
At the same time, the coronary blood flow increases threefold to fourfold
to supply the extra nutrients needed by the heart.
9. Phasic Changes in Coronary Blood
Flow During Systole and Diastole—
Effect of Cardiac Muscle
Compression
Phasic flow of blood through the coronary capillaries
of the human left ventricle during cardiac systole and diastole
10. Phasic Changes
Note from this diagram that the
coronary capillary blood flow in the left ventricle muscle
falls to a low value during systole, which is opposite to flow
in vascular beds elsewhere in the body. The reason for this
is strong compression of the left ventricular muscle around
the intramuscular vessels during systolic contraction
#During diastole, the cardiac muscle relaxes and no lon-
ger obstructs blood flow through the left ventricular mus-
clef capillaries, so blood flows rapidly during all of diastole.
11. Control of Coronary Blood Flow
Oxygen Demand as a Major Factor in Local Coronary Blood Flow
Regulation.
Nervous Control of Coronary Blood Flow
Stimulation of the autonomic nerves to the heart can affect coronary
blood flow both directly and indirectly.
The direct effects result from action of the nervous transmitter substances
acetylcholine from the vagus nerves norepinephrine and epinephrine from
the sympa-thetic nerves on the coronary vessels themselves
12. CAD (Coronary artery disease)
There are three types of coronary heart disease, including:
Obstructive coronary artery disease.
Nonobstructive coronary artery disease.
Spontaneous coronary artery dissection
13. Obstructive coronary artery disease
Obstructive coronary artery disease occurs when your coronary arteries
gradually narrow due to plaque buildup, also known as atherosclerosis. It’s
the type of coronary artery disease that’s most common and well-known.
As the artery narrowing worsens, it can eventually cut off blood flow to
your heart. A sudden blockage is known as a heart attack
14. Nonobstructive coronary artery
disease
Nonobstructive coronary artery disease occurs because of other problems
with your coronary arteries. It’s not caused by plaque buildup. Instead,
your coronary arteries may have problems such as:
Compression or squeezing from the heart muscle (myocardial bridging)
Constrictions at improper times (coronary vasospasm)
Damage to the artery lining (endothelial dysfunction)
Malfunctions in smaller artery branches (microvascular dysfunction)
15. Spontaneous coronary artery
dissection
Spontaneous coronary artery dissection (SCAD) occurs when a tear in the
coronary artery wall partially or completely blocks blood flow. This tear
happens suddenly and often presents as a heart attack.
SCAD and heart attack symptoms can vary from person to person but may
include:
Chest pain, especially on the left side or center of your chest that doesn’t go
away with rest
Jaw, neck or back pain
Lightheadedness or weakness
Pain radiating from your chest through your shoulders or arms
Sensations of fullness, pressure or squeezing in your chest
Shortness of breath, even at rest
16. How is coronary artery disease
diagnosed?
Physical exam
Measure your blood pressure.
Listen to your heart with a stethoscope.
Ask what symptoms you’re experiencing and how long you’ve had them.
Ask you about your medical history.
Ask you about your lifestyle.
Ask you about your family history.
18. How is coronary artery disease
treated?
Don’t smoke, vape or use any tobacco products.
Eat heart-healthy foods low in sodium, saturated fat, trans fat and sugar.
The Mediterranean diet is a proven way to lower your risk of a heart attack
or stroke.
Exercise: Aim for 30 minutes of walking (or other activities) five days a
week.
Limit alcohol.
19. Risk factor management
Diabetes.
High blood pressure.
High cholesterol.
High triglycerides (hypertriglyceridemia).
Having a BMI higher than 25.
20. Medications
Lower your blood pressure.
Lower your cholesterol.
Manage stable angina, like nitroglycerin and ranolazine.
Reduce your risk of blood clots.
21. Procedures and surgeries
Percutaneous coronary intervention (PCI): This minimally invasive
procedure has another name — coronary angioplasty. Your provider
reopens your blocked artery to help blood flow through it better. They
may also insert a stent to help your artery stay open
22. CABG
Coronary artery bypass grafting (CABG): This surgery creates a new path
for your blood to flow around blockages. This “detour” restores blood flow
to your heart. CABG helps people who have severe blockages in several
coronary arteries
24. Regions
Nine regions of the abdomen can be marked using two horizontal and two
vertical dividing lines
25. Why are abdominal quadrants
important?
The human abdomen is divided into quadrants and regions by anatomists
and physicians for the purposes of study, diagnosis, and treatment
The division into four quadrants allows the localisation of pain and
tenderness, scars, lumps, and other items of interest, narrowing in on
which organs and tissues may be involved.
26. Splanchnic circulation
The splanchnic circulation consists of the blood supply to the gastrointestinal
tract, liver, spleen, and pancreas
What does splanchnic mean?
Splanchnic is usually used to describe organs in the abdominal cavity.[1]
It is used when describing:
Splanchnic tissue
Splanchnic organs – including the stomach, small intestine, large intestine,
pancreas, spleen, liver,[2] and may also include the kidney.[3]
Splanchnic nerves
27. Splanchnic circulation
The circulation of the gastrointestinal tract originating at
the celiac trunk, the superior mesenteric artery and the
inferior mesenteric artery.
28.
29. Portal Hypertension
Portal hypertension is elevated blood pressure in your portal vein and the
smaller veins that branch off from it
Your portal venous system. The portal venous system drains blood from
your stomach,
30. Capillaries
Capillaries complete the circulatory system by
connecting arteries to veins
Capillaries are the smallest blood vessels in your
vascular system.
What do capillaries do?
Capillaries complete the circulatory system by
connecting arteries to veins:
Arteries carry oxygen-rich blood from the heart to
your organs.
Veins help the body remove low-oxygen blood and
waste.
31. Do capillaries serve other functions?
Endocrine system, by delivering hormones to specific organs.
Kidneys, where peritubular capillaries filter blood, produce urine and
absorb water and sodium.
Liver, by removing defective red blood cells and bacteria.
Lungs, by releasing carbon dioxide and taking in oxygen.
Lymphatic system, by collecting fluid from tissues and directing it to lymph
nodes.
Small intestine, by transporting digested nutrients so they can nourish
your cells
32. Cerebral circulation
Cerebral circulation is the movement of blood through the vessels that
supply the brain and surrounding struc
Our brain is responsible for complex functions such as thinking, feeling,
memory, movement, vision, and speech.tures.
33.
34. Circle of Willis
The circle of Willis (also called Willis’ circle, loop of Willis, cerebral arterial
circle, and Willis polygon)
A circulatory anastomosis that supplies blood to the brain and
surrounding structures in reptiles
37. Brain function
Thoughts and decisions.
Memories and emotions.
Movements (motor function), balance and coordination.
Perception of various sensations including pain.
Automatic behavior such as breathing, heart rate, sleep and temperature
control.
Regulation of organ function.
Speech and language functions