Introduction to Health and Safety at Work

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introduction to health safety at work

14.5.1 The respiratory system

Introduction to Health and Safety at Work
226
into the body. These contaminants may be chem-
ical (e.g. solvents or welding fume) or biological (e.g.
bacteria or fungi) and become airborne by a variety
of modes, such as sweeping, spraying, grinding
and bagging. They enter the lungs where they have
access to the bloodstream and many other organs
➤
absorption through the skin
– the substance comes
into contact with the skin and enters either through
the pores or a wound. Tetanus can enter in this way
as can toluene, benzene and various phenols
➤
ingestion
– through the mouth and swallowed into
the stomach and the digestive system. This is not a
signiﬁ cant route of entry to the body. The most com-
mon occurrences are due to airborne dust or poor
personal hygiene (not washing hands before eating
food).
Another very rare entry route is by
injection
. The abuse
of compressed air lines by shooting high pressure air
at the skin can lead to air bubbles entering the blood-
stream. Accidents involving hypodermic syringes in a
health or veterinary service setting are rare but illustrate
this form of entry route.
The most effective control measures which can
reduce the risk of infection from biological organisms
are disinfection, proper disposal of clinical waste Routes
of entry to the human body (including syringes), good
personal hygiene and, where appropriate, personal
protective equipment. Other measures include vermin
control, water treatment and immunization.
There are ﬁ ve major functional systems within the
human body – respiratory, nervous, cardiovascular
(blood), urinary and the skin.
14.5.1 The respiratory system
This comprises the lungs and associated organs (e.g.
the nose). Air is breathed in through the nose, passes
through the trachea (windpipe) and the bronchi into the
two lungs. Within the lungs, the air enters many smaller
passageways (bronchioli) and thence to one of 300 000
terminal sacs called alveoli. The alveoli are approximately
0.1 mm across, although the entrance is much smaller.
On arrival in the alveoli, there is a diffusion of oxygen
into the bloodstream through blood capillaries and an
effusion of carbon dioxide from the bloodstream. While
soluble dust which enters the alveoli will be absorbed
into the bloodstream, insoluble dust (respirable dust)
will remain permanently, leading to possible chronic
illness.
The whole of the bronchial system is lined with hairs,
known as cilia. The cilia offer some protection against
insoluble dusts. These hairs will arrest all non-respirable
dust (above 5
µ
m) and, with the aid of mucus, pass the
dust from one hair to a higher one and thus bring the dust
back to the throat. (This is known as the ciliary escalator).
It has been shown that smoking damages this action.
The nose will normally trap large particles (greater than
20 mm) before they enter the trachea.

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