Transport in Humans

Topics

• Overview of human transport system• Components of Blood• Structure of Heart• Coronary Heart Disease• Blood Vessels

OVERVIEW

Overview

• Recall in Sec 1, we studied respiration• All living cells in our body (from our brain to

our muscles to our organs) perform respiration to have the energy to function

• Recall that in order to respire, oxygen is required, and carbon dioxide is given out

• Where does all this oxygen come from? Where does all this carbon dioxide go?

Lungs

Overview

• Recall in Sec 1 we studied about the lungs in respiration

• The lungs is where gaseous exchange take place in our body

• We absorb oxygen from the atmosphere at the lungs

• We also give out carbon dioxide to the atmosphere at the lungs

• Gaseous exchange occurs by diffusion

Overview

• How does oxygen from the lungs reach the rest of the body (which needs it for respiration?)

• How does carbon dioxide from the rest of the body reach the lungs?

• Through the movement of our blood• The system where our blood moves to and fro

from our lungs to the rest of the body is known as the cardiovascular system

• Note: “cardio” is the root word for “heart”

Did you know? (not in syllabus)

• The cardiovascular system is not the only system of moving fluids in the body

• There is another system called the lymphatic system, which is an important part of our immune system

COMPONENTS OF BLOOD

Components of Blood

• 1. Red Blood Cells• 2. Plasma• 3. White Blood Cells• 4. Platelets

Red Blood Cells

• Red Blood Cells (also called erythrocytes) account for the red colour of our blood

• It is biconcave in shape and has no nucleus• Contains the protein haemoglobin (which

contains Iron), which is the protein which absorbs oxygen to the red blood cell

Red Blood Cells• Is bright red when oxygenated, dark red when

deoxygenated• Produced in our bone marrow• Anemia is the disease when you have too few red

blood cells (or haemoglobin) in your blood

Blood Plasma

• Plasma is the liquid portion of our blood• It is actually pale yellow (“straw”) in colour• It contains mostly water, with dissolved

proteins, sugars, minerals and other substances (including carbon dioxide)

White Blood Cells• Also known as leukocytes, white blood cells have

a nucleus (unlike red blood cells)• There are different types of white blood cells,

but they all assist in the role of immunity• Lymphocytes produce antibodies (which attack

pathogens or flag them for other cells to kill them)

• Phagocytes attack pathogens by devouring them• Leukemia is a disease where the body produces

too much white blood cells

Platelets

• Also known as thrombocytes, platelets are mainly used for clotting the blood to stop bleeding (e.g. during a cut)

• Platelets also have no nucleus

Components of Blood• When you put blood in a centrifugue, the

components of blood will separate as shown:

STRUCTURE OF THE HEART

Structure of the Heart

• Recall the basic purpose of the heart:– bring oxygenated blood from lungs to rest of body– bring deoxygenated blood from rest of body to lungs

• A blood vessel which carries blood AWAY from the heart is called an artery

• A blood vessel which carries blood TOWARDS the heart is called a vein

• The pulmonary artery / vein connect the heart to the lungs

Structure of the Heart

• Note the left/right inversion• Left side of the heart is slightly bigger than the

right side• Each side of the heart has 2 chambers – an

atrium and a ventricle

Structure of the Heart• Blood enters from outside the heart into the

atrium• Blood the flows from the atrium into the

corresponding ventricle. A one-way valve prevents the blood from flowing back from the ventricle into the atrium

• The muscle in the ventricle wall contracts, pushing the blood out of the heart through the pulmonary artery (right) or aorta (left)

• Semi-lunar valves prevent the blood from flowing back into the ventricles

BLOOD VESSELS

Blood Vessels

• 1) Arteries• 2) Vein• 3) Capillaries

Arteries• Blood which is pumped out of the heart

(ventricles) goes straight into the arteries first• That is why blood pressure in the arteries is

the highest• Arteries have the thickest layer of muscular

wall to withstand this high pressure• Pulmonary artery brings deoxygenated blood

from heart to lungs• Aorta brings oxygenated blood from heart to

other parts of body

Veins

• Veins are the blood vessels which bring back the blood to the heart

• Much lower pressure than arteries, so their walls need not be as thick

• Veins contact valves to prevent backflow of deoxygenated blood (note: pulmonary vein does not have valves because it carries oxygenated blood)

• You can see this using your own veins! (https://www.youtube.com/watch?v=A6isZ4dCTMo)

Capillaries• After oxygenated blood has been pumped into the

arteries, they bring it to the various parts of the body which needs the oxygenated blood (e.g. brain, muscles, etc.)

• When it reaches this destination, diffusion occurs between the blood and the destination tissue,– allowing for oxygen (and other nutrients) to be

transferred from the bloodstream to tissue– carbon dioxide (and other waste products) to be

transferred to the bloodstream from tissue• Capillaries have very very thin walls (only one cell

thick) to facilitate this diffusion.

Careful!!

• Do not use the term “cell wall” to refer to the thickness of the artery, vein or capillary.

• Recall what is a cell wall!• Cells in humans don’t have cell walls!!!• Use “artery wall” or “the wall of the vein”, etc.

CORONARY HEART DISEASE

Coronary Heart Disease• The heart beats around 115 200 times per day.

The muscles of the heart (particularly the ventricular muscles) do a lot of work

• Recall that muscles need oxygen (and blood!) in order to do their work

• The coronary arteries supply blood to the heart muscles

• However, if the arteries don’t manage to supply sufficient blood, the person suffers from coronary heart disease

Coronary Heart Disease

• How does that happen?• The coronary arteries may start to build up

fatty deposits INSIDE the artery wall• When that happens the lumen of the artery

becomes smaller and smaller, constricting the artery

• Blood pressure will also increase when the artery is constricted

Coronary Heart Disease

Factors Causing Coronary Heart Disease

• High fat (and cholesterol) diet• Smoking• Stress• Lack of Exercise