Heart & Circulation

Circulation The human circulatory system

consists of 96,000 km of blood vessels that transport

blood to each cell in the body. Your entire blood volume

(about 5L) is pumped every minute.

The circulatory system performs the following functions:

1. carries oxygen and nutrients to the cells2. carries carbon dioxide and waste away from the cells3. carries hormones to target organs4. distributes heat throughout the body5. helps defense of invading micro-organisms

Blood Vessels Arteries – carry blood

away from the heart. Their thick walls are composed of three distinct, elastic layers. Each time the heart pumps, the arteries stretch to accommodate the rush of blood. This is felt in the neck, or on the wrist as a pulse.

Arterioles - are smaller arteries whose middle layer is composed of elastic fibers and smooth muscle. The arterioles are able to contract and relax, controlling blood flow to different parts of the body.

Vasoconstriction – the narrowing of blood vessels, decreasing flow to the tissues.

Capillaries – are tiny blood vessels composed of a single layer of cells. This is the site of fluid and gas exchange between the cells and the body tissues. Many capillaries are only as thick in diameter as one red blood cell (<0.005 mm). Pressure in the capillaries is high, increasing the risk of rupturing and causing a bruise.

Venules – larger blood vessels that form as capillaries merge. The venules are lined with smooth muscle to ensure blood continues to flow back towards the heart.

Veins – larger blood vessels that result as venules merge, take blood back towards the heart. Veins also serve as blood reservoirs, holding up to 65% of the total blood volume. Blood pressure in the veins is quite low, so the veins have uni-directional valves that ensure the one way flow of blood. Skeletal muscles also help aid venous flow. Venous pressure increases when skeletal muscles contract and push on the vein, forcing blood upwards.

Blood Vessels

Problems with blood vessels:

Aneurysm – a bulge or weakening in the wall of a blood vessel.

Atherosclerosis – degeneration of blood vessels caused by the accumulation of fat deposits (plaque) in the inner wall.

Bruising – rupture of capillary beds cause blood to leak into the extra-cellular space.

Varicose Veins – damage to the one-way valves in veins causes blood to pool and the veins to bulge.

Circulation The heart consists of two parallel pumps.

The right connects to blood vessels that circulate blood to the lungs, for oxygenation, and back to the heart. This system is called the pulmonary circulatory system. The second, left hand pump, connects blood vessels to the body and circulates blood to the body tissues. This system is called the systemic circulatory system.

One way blood flow is maintained by uni-directional valves in the heart and in the blood vessels.

Pulmonary System

Systemic System

Closed Circulation

Blood never leaves vessels

Double Circulatory System

- In mammals, birds and reptiles, the blood is pumped twice before returning to its origin

- Fish, and other lower organisms pump the blood only once

Four Chambered Heart

oxygenated and deoxygenated blood do not mix in the heart

septum separates the right and left sides

Heart Chambers

The top chambers are called atria (sing. Atrium)

These collect blood from major veins and pump it into the bottom chambers

Ventricles

Much larger and more muscular than atria

Pump blood into arteries for distribution to body (and lungs)

Vessels Arteries – carry blood away from

heart

Veins – carry blood toward heart

Systemic circulation – blood flow to and from body organs (not lungs)

Pulmonary circulation – blood flow to and from lungs

Atrioventricular Valves Separate the atria and ventricles

Atrioventricular valves have:– Chordae tendinae

prevent flaps from everting (opening backward)

– Papillary muscles to attach chordae tendinae to ventricle wall

The Bicuspid Valve (AV)

Also called the mitral valve

On the left side of the heart

Has two flaps

Tricuspid Valve (AV)

On the right side Has three flaps

Semilunar Valves

At the entrance to the major arteries are smaller valves with no muscular attachments

These have three flaps each and prevent backflow into the ventricles

Valve movie

http://www.wellesley.edu/Biology/Courses/111/HeartValves.MOV

video

Pericardium

Membrane around heart which prevents friction between heart and lungs

Also helps isolate infection

Coronary Arteries

The aorta branches and one of the branches comes back to serve the heart muscle (myocardium)

Coronary Circulation

These arteries can become blocked with plaque (cholesterol and calcium deposits) and clots can occur causing:

– pain: angina pectoris– Heart muscle death: myocardial

infarction (heart attack)

Coronary Circulation

Risks for Heart Disease

Genetics Male Smoking Obesity Diet (saturated

fat and cholesterol)

Lack of exercise

Heart Beats

Cardiac Muscle: striated, branched

Is myogenic muscle: can contract without nerve impulse

Heart Beats

Chemoreceptors in aorta and carotid (neck) arteries detect high carbon dioxide levels in blood (lesser extent – oxygen is also monitored)

Cranial nerves carry this information to the heart

Heart Beats

The heart beat is controlled by the sympathetic (stimulating) and parasympathetic (relaxing) branches of the nervous system.

Heart Beats

Tempo is set by the sinoatrial node (SA node) : the pacemaker

Heart Beats

Electrochemical impulses from the S.A. node cause contraction of atria muscle

Heart Beats

the impulse travels to another cluster of nervous tissue – the Atrioventricular node (A.V. node)

Heart Beats

The A.V. node sends impulses through Purkinje fibers to all parts of the ventricles

Ventricles contract simultaneously

Heart Beats Heart muscle then ‘rests’ before the

cycle begins again

‘systole’ – phase of heart contraction

‘diastole’ – phase of heart relaxation

‘lub – dub’ – heart sounds caused by valves slamming shut

Heart Beats

Normal Heart Rate – 80 beats/minute

Bradycardia - < 50 beats/min

Tachycardia - > 100 beats/min

Monitoring Heart Beat

EKG (or ECG) – electrocardiogram Uses electrical activity in heart

muscle to diagnose problems

EKG

P wave – depolarization preceding atrial contraction

QRS complex – precedes ventricular T wave – repolarization of

myocardium

Ventricular Fibrillation

Defibrillator

Used to shock hearts into proper rhythm

Other Abnormal Rhythms

tachycardia

Bradycardia

Blood Flow in the Heart

Heart Technology

stethescope

Heart Technology

Artificial pacemakers – use batteries to produce a coordinated signal when ‘real’ pacemaker malfunctions

Cardiac Catheterization a thin catheter is inserted into a

blood vessel, usually an artery in the leg or arm, and passed through the blood vessel to the heart.

Dye is injected to make the coronary arteries and other structures visible on X-rays.

Heart Technology

Angioplasty: using a catheter and ‘balloon’ to open up blocked arteries

Heart Technology

Valve Replacement : routinely done to fix valves scarred by infections, etc.

Heart Technology

Coronary bypass: heart operation to use a vein from leg to bypass blockage

Heart Transplant

Often miraculous results

Shortage of organs

Person must take immunosupressants for life

Xenotransplants

Dismal failures when whole heart is transplanted

Pig arteries and valves have been used for years

New genetic research hopes to produce pigs with human proteins

Artificial Heart

Some success as a bridge to transplant