To Edwin Chadwick,
C.B.
My Dear Mr.
Chadwick,
I wrote this Address with the
intention of dedicating it to you, as a simple but hearty acknowledgment by a
sanitary student, himself well ripened in the work, of your pre-eminent position
as the living leader of the sanitary reformation of this century. The favour the
Address has received indicates notably two facts: the advance of public opinion
on the subject of public health, and the remarkable value and influence of your
services as the sanitary statesman by whom that opinion has been so wisely
formed and directed. In this sense of my respect for you, and of my
gratitude, pray accept this trifling recognition, and believe me to
be,
Ever faithfully
yours,
B.W.
Richardson
The immediate success of this
Address caused me to lay it aside for some months, to see if the favour with
which it was received would remain. I am satisfied to find that the good fortune
which originally attended the effort holds on, and that in publishing it now in
a separate form I am acting in obedience to a generally expressed
desire.
Since the delivery of the Address
before the Health Department of the Social Science Congress, over which I had
the honour to preside, at Brighton, in October last, every day has brought some
new suggestion bearing on the subjects discussed, and the temptation has been
great to add new matter, or even to recast the essay and bring it out as a more
compendious work. On reflection I prefer to let it take its place in literature,
in the first instance, in its original and simple dress.
These objects relate to ourselves,
to our own reliefs from suffering, to our own happiness, to our own riches. We
have, I trust and believe, yet another object, one that relates not to
ourselves, but to those who have yet to be; those to whom we may become known,
but whom we can never know, who are the ourselves, unseen to ourselves,
continuing our mission.
We are privileged more than any who
have as yet lived on this planet in being able to foresee, and in some measure
estimate, the results of our wealth of labour as it may be possibly extended
over and through the unborn. A few scholars of the past, like him who, writing
to the close of his mortal day, sang himself to his immortal rest with the
'Gloria in excelsis,' a few scholars might foresee, even as that Baeda
did, that their living actual work was but the beginning of their triumphant
course through the ages, the momentum. But the masses of the nations, crude and
selfish, have had no such prescience, no such intent. 'Let us eat and drink, for
to-morrow we die!' That has been the pass, if not the password, with them and
theirs.
We, scholars of modern thought, have
the broader, and therefore more solemn and obligatory knowledge, that however
many to-morrows may come, and whatever fate they may bring, we never die; that,
strictly speaking, no one yet who has lived has ever died; that for good or for
evil our every change from potentiality into motion is carried on beyond our own
apparent transitoriness; that we are the waves of the ocean of life,
communicating motion to the expanse before us, and leaving the history we have
made on the shore behind.
Thus we are led to feel this greater
object: that to whatever extent we, by our exertions, confer benefits on those
who live, we extend the advantage to those who have to live; that one good
thought leading to practical useful action from one man or woman, may go to the
virtue of thousands of generations; that one breath of health wafted by our
breath may, in the aggregate of life saved by it, represent in its ultimate
effect all the life that now is or has been.
At the close of a Parliamentary
session, an uneventful leader of a section of Parliament banters his more
eventful rival, and enlivening his criticism by a sneer at our Congress,
challenges the contempt of his rival, as if to draw it forth in the same
critical direction. Alas! it is too true that great congresses, like great men,
and even like Parliaments, do live sometimes for many years and talk much, and
seem to miss much and advance little; so that in what relates to the mere
present it were wrong, possibly, to challenge the sally of the statesman who,
from his own helpless height, looked down on our weakness. But inasmuch as no
man knoweth the end of the spoken word, as that which is spoken to-day,
earnestly and simply, may not reappear for years, and may then appear with force
and quality of hidden virtue, there is reason for our uniting together beyond
the proof of necessity which is given in the fact of our existence. Perchance
some day our natural learning, gathered in our varied walks of life, and
submitted in open council, may survive even Parliamentary strife; perchance our
resolutions, though no sign-manual immediately grace them, are the informal
bills which ministers and oppositions shall one day discuss, Parliaments pass,
royal hands sign, and the fixed administrators of the will of the nation duly
administer.
These thoughts on the future, rather
than on the passing influence of our congressional work, have led me to the
simple design of the address which, as President of this Section, I venture to
submit to you to-day. It is my object to put forward a theoretical outline of a
community so circumstanced and so maintained by the exercise of its own
freewill, guided by scientific knowledge, that in it the perfection of sanitary
results will be approached, if not actually realised, in the co-existence of the
lowest possible general mortality with the highest possible individual
longevity. I shall try to show a working community in which death, if I may
apply so common and expressive a phrase on so solemn a subject, is kept as
nearly as possible in its proper or natural place in the scheme of
life.
Before I proceed to this task, it is
right I should ask of the past what hope there is of any such advancement of
human progress. For, as my Lord of Verulam quaintly teaches, 'the past ever
deserves that men should stand upon it for awhile to see which way they should
go, but when they have made up their minds they should hesitate no longer, but
proceed with cheerfulness,' For a moment, then, we will stand on the
past.
From this vantage-ground we gather
the fact, that onward with the simple progress of true civilisation the value of
life has increased. Ere yet the words 'Sanitary Science' had been written; ere
yet the heralds of that science (some of whom, in the persons of our illustrious
colleagues, Edwin Chadwick and William Fair, are with us in this place at this
moment), ere yet these heralds had summoned the world to answer for its
profligacy of life, the health and strength of mankind was undergoing
improvement. One or two striking facts must be sufficient in the brief space at
my disposal to demonstrate this truth. In
Side by side with these facts of the
statist we detect other facts which show that in the progress of civilisation
the actual organic strength and build of the man and woman increases. As in the
highest developments of the fine arts the sculptor and painter place before us
the finest imaginative types of strength, grace, and beauty, so the silent
artist, civilisation, approaches nearer and nearer to perfection, and by
evolution of form and mind developes what is practically a new order of physical
and mental build. Peron, who first used, if he did not invent, the little
instrument, the dynamometer, or muscular-strength measurer, subjected persons of
different stages of civilisation to the test of his gauge, and discovered that
the strength of the limbs of the natives of Van Diemen's Land and New Holland
was as 50 degrees of power, while that of the Frenchmen was 69, and of the
Englishmen 71. The same order of facts are maintained in respect to the size of
body. The stalwart Englishman of to-day can neither get into the armour nor be
placed in the sarcophagus of those sons of men who were accounted the heroes of
the infantile life of the human world.
We discover, moreover, from our view
of the past, that the developments of tenacity of life and of vital power have
been comparatively rapid in their course when they have once commenced. There is
nothing discoverable to us that would lead to the conception of a human
civilisation extending back over two hundred generations; and when in these
generations we survey the actual effect of civilisation, so fragmentary and
overshadowed by persistent barbarism, in influencing disease and mortality, we
are reduced to the observation of at most twelve generations, including our own,
engaged, indirectly or directly, in the work of sanitary progress. During this
comparatively brief period, the labour of which, until within a century, has had
no systematic direction, the changes for good that have been effected are
amongst the most startling of historical facts. Pestilences which decimated
populations, and which, like the great plague of London, destroyed 7,165 people
in a single week, have lost their virulency; gaol fever has disappeared, and our
gaols, once each a plague-spot, have become, by a strange perversion of
civilisation, the health spots of, at least, one kingdom. The term, Black Death,
is heard no more; and ague, from which the
From the study of the past we are
warranted, then, in assuming that civilisation, unaided by special scientific
knowledge, reduces disease and lessens mortality, and that the hope of doing
still more by systematic scientific art is fully
justified.
I might hereupon proceed to my
project straightway. I perceive, however, that it may be urged, that as mere
civilising influences can of themselves effect so much, they might safely be
left to themselves to complete, through the necessity of their demands, the
whole sanitary code. If this were so, a formula for a city of health were
practically useless. The city would come without the special call for
it.
I think it probable the city would
come in the manner described, but how long it would be coming is hard to say,
for whatever great results have followed civilisation, the most that has
occurred has been an unexpected, unexplained, and therefore uncertain arrest of
the spread of the grand physical scourges of mankind. The phenomena have been
suppressed, but the root of not one of them has been touched. Still in our midst
are thousands of enfeebled human organisms which only are comparable with the
savage. Still are left amongst us the bases of all the diseases that, up to the
present hour, have afflicted humanity.
The existing calendar of diseases,
studied in connection with the classical history of the diseases written for us
by the longest unbroken line of authorities in the world of letters, shows, in
unmistakable language, that the imposition of every known malady of man is
coeval with every phase of his recorded life on the planet. No malady, once
originated, has ever actually died out; many remain as potent as ever. That
wasting fatal scourge, pulmonary consumption, is the same in character as when
Coelius Aurelianus gave it description. The cancer of to-day is the cancer known
to Paulus Eginæta. The Black Death, though its name is gone, lingers in
malignant typhus. The great plague of
I must cease these illustrations,
though I could extend them fairly over the whole chapter of disease, past and
present. Suffice it if I have proved the general propositions, that disease is
now as it was in the beginning, except that in some examples of it it is less
virulent; that the science for extinguishing any one disease has yet to be
learned; that, as the bases of disease exist, untouched by civilisation, so the
danger of disease is ever imminent, unless we specially provide against it; that
the development of disease may occur with original virulence and fatality, and
may at any moment be made active under accidental or systematic
ignorance.
I now come to the design I have in
hand. Mr. Chadwick has many times told us that he could build a city that would
give any stated mortality, from fifty, or any number more, to five, or perhaps
some number less, in the thousand annually. I believe Mr. Chadwick to be correct
to the letter in this statement, and for that reason I have projected a city
that shall show the lowest mortality. I need not say that no such city exists,
and you must pardon me for drawing upon your imaginations as I describe it.
Depicting nothing whatever but what is at this present moment easily possible, I
shall strive to bring into ready and agreeable view a community not abundantly
favoured by natural resources, which, under the direction of the scientific
knowledge acquired in the past two generations, has attained a vitality not
perfectly natural, but approaching to that standard. In an artistic sense it
would have been better to have chosen a small town or large village than a city
for my description; but as the great mortality of States is resident in cities,
it is practically better to take the larger and less favoured community. If
cities could be transformed, the rest would follow.
Our city, which may be named
Hygeia, has the advantage of being a new foundation, but it is so built
that existing cities might be largely modelled upon it.
The population of the city may be
placed at 100,000, living in 20,000 houses, built on 4,000 acres of land, an
average of 25 persons to an acre. This may be considered a large population for
the space occupied, but, since the effect of density on vitality tells only
determinately when it reaches a certain extreme degree, as in
The safety of the population of the
city is provided for against density by the character of the houses, which
ensures an equal distribution of the population. Tall houses overshadowing the
streets, and creating necessity for one entrance to several tenements, are
nowhere permitted. In streets devoted to business, where the tradespeople
require a place of mart or shop, the houses are four stories high, and in some
of the western streets where the houses are separate, three and four storied
buildings are erected; but on the whole it is found bad to exceed this range,
and as each story is limited to 15 feet, no house is higher than 60
feet.
The substratum of the city is of two
kinds. At its northern and highest part, there is clay; at its southern and
south-eastern, gravel. Whatever disadvantages might spring in other places from
a retention of water on a clay soil, is here met by the plan that is universally
followed, of building every house on arches of solid brickwork. So, where in
other towns there are areas, and kitchens, and servants' offices, there are here
subways through which the air flows freely, and down the inclines of which all
currents of water are carried away.
The acreage of our model city allows
room for three wide main streets or boulevards, which run from east to west, and
which are the main thoroughfares. Beneath each of these is a railway along which
the heavy traffic of the city is carried on. The streets from north to south
which cross the main thoroughfares at right angles, and the minor streets which
run parallel, are all wide, and, owing to the lowness of the houses, are
thoroughly ventilated, and in the day are filled with sunlight. They are planted
on each side of the pathways with trees, and in many places with shrubs and
evergreens. All the interspaces between the backs of houses are gardens. The
churches, hospitals, theatres, banks, lecture-rooms, and other public buildings,
as well as some private buildings such as warehouses and stables, stand alone,
forming parts of streets, and occupying the position of several houses. They are
surrounded with garden space, and add not only to the beauty but to the
healthiness of the city. The large houses of the wealthy are situated in a
similar manner.
The streets of the city are paved
throughout with the same material. As yet wood pavement set in asphalte has been
found the best. It is noiseless, cleanly, and durable. Tramways are nowhere
permitted, the system of underground railways being found amply sufficient for
all purposes. The side pavements, which are everywhere ten feet wide, are of
white or light grey stone. They have a slight incline towards the streets, and
the streets have an incline from their centres towards the margins of the
pavements.
From the circumstance that the
houses of our model city are based on subways, there is no difficulty whatever
in cleansing the streets, no more difficulty than is experienced in
It will be seen, from what has been
already told, that in this our model city there are no underground cellars,
kitchens, or other caves, which, worse than those ancient British caves that
Nottingham still can show the antiquarian as the once fastnesses of her savage
children, are even now the loathsome residences of many millions of our domestic
and industrial classes. There is not permitted to be one room underground. The
living part of every house begins on the level of the street. The houses are
built of a brick which has the following sanitary advantages: It is glazed, and
quite impermeable to water, so that during wet seasons the walls of the houses
are not saturated with tons of water, as is the case with so many of our present
residences. The bricks are perforated transversely, and at the end of each there
is a wedge opening, into which no mortar is inserted, and by which all the
openings are allowed to communicate with each other. The walls are in this
manner honeycombed, so that there is in them a constant body of common air let
in by side openings in the outer wall, which air can be changed at pleasure,
and, if required, can be heated from the firegrates of the house. The bricks
intended for the inside walls of the house, those which form the walls of the
rooms, are glazed in different colours, according to the taste of the owner, and
are laid so neatly, that the after adornment of the walls is considered
unnecessary, and, indeed, objectionable. By this means those most unhealthy
parts of household accommodation, layers of mouldy paste and size, layers of
poisonous paper, or layers of absorbing colour stuff or distemper, are entirely
done away with. The walls of the rooms can be made clean at any time by the
simple use of water, and the ceilings, which are turned in light arches of
thinner brick, or tile, coloured to match the wall, are open to the same
cleansing process. The colour selected for the inner brickwork is grey, as a
rule, that being most agreeable to the sense of sight; but various tastes
prevail, and art so much ministers to taste, that, in the houses of the wealthy,
delightful patterns of work of Pompeian elegance are soon
introduced.
As with the bricks, so with the
mortar and the wood employed in building, they are rendered, as far as possible,
free of moisture. Sea sand containing salt, and wood that has been saturated
with sea water, two common commodities in badly built houses, find no place in
our modern city.
The most radical changes in the
houses of our city are in the chimneys, the roofs, the kitchens, and their
adjoining offices. The chimneys, arranged after the manner proposed by Mr.
Spencer Wells, are all connected with central shafts, into which the smoke is
drawn, and, after being passed through a gas furnace to destroy the free carbon,
is discharged colourless into the open air. The city, therefore, at the expense
of a small smoke rate, is free of raised chimneys and of the intolerable
nuisance of smoke. The roofs of the houses are but slightly arched, and are
indeed all but flat. They are covered either with asphalte, which experience,
out of our supposed city, has proved to last long and to be easily repaired, or
with flat tile. The roofs, barricaded round with iron palisades, tastefully
painted, make excellent outdoor grounds for every house. In some instances
flowers are cultivated on them.
The housewife must not be shocked
when she hears that the kitchens of our model city, and all the kitchen offices,
are immediately beneath these garden roofs; are, in fact, in the upper floor of
the house instead of the lower. In every point of view, sanitary and economical,
this arrangement succeeds admirably. The kitchen is lighted to perfection, so
that all uncleanliness is at once detected. The smell which arises from cooking
is never disseminated through the rooms of the house. In conveying the cooked
food from the kitchen, in houses where there is no lift, the heavy weighted
dishes have to be conveyed down, the emptied and lighter dishes upstairs. The
hot water from the kitchen boiler is distributed easily by conducting pipes into
the lower rooms, so that in every room and bedroom hot and cold water can at all
times be obtained for washing or cleaning purposes; and as on every floor there
is a sink for receiving waste water, the carrying of heavy pails from floor to
floor is not required. The scullery, which is by the side of the kitchen, is
provided with a copper and all the appliances for laundry work; and when the
laundry work is done at home the open place on the roof above makes an excellent
drying ground.
In the wall of the scullery is the
upper opening to the dust-bin shaft. This shaft, open to the air from the roof,
extends to the bin under the basement of the house. A sliding door in the wall
opens into the shaft to receive the dust, and this plan is carried out on every
floor. The coal-bin is off the scullery, and is ventilated into the air through
a separate shaft, which also passes through the roof.
On the landing in the second or
middle stories of the three-storied houses there is a bathroom, supplied with
hot and cold water from the kitchen above. The floor of the kitchen and of all
the upper stories is slightly raised in the centre, and is of smooth, grey tile;
the floor of the bath-room is the same. In the living-rooms, where the floors
are of wood, a true oak margin of floor extends two feet around each room. Over
this no carpet is ever laid. It is kept bright and clean by the old-fashioned
bees'-wax and turpentine, and the air is made fresh and is ozonised by the
process.
Considering that a third part of the
life of man is, or should be, spent in sleep, great care is taken with the
bed-rooms, so that they shall be thoroughly lighted, roomy, and ventilated.
Twelve hundred cubic feet of space is allowed for each sleeper, and from the
sleeping apartments all unnecessary articles of furniture and of dress are
rigorously excluded. Old clothes, old shoes, and other offensive articles of the
same order, are never permitted to have residence there. In most instances the
rooms on the first floor are made the bed-rooms, and the lower the living-rooms.
In the larger houses bed-rooms are carried out in the upper floor for the use of
the domestics.
To facilitate communication between
the kitchen and the entrance-hall, so that articles of food, fuel, and the like
may be carried up, a shaft runs in the partition between two houses, and carries
a basket lift in all houses that are above two stories high. Every heavy thing
to and from the kitchen is thus carried up and down from floor to floor and from
the top to the basement, and much unnecessary labour is thereby saved. In the
two-storied houses the lift is unnecessary. A flight of outer steps leads to the
upper or kitchen floor.
The warming and ventilation of the
houses is carried out by a common and simple plan. The cheerfulness of the
fireside is not sacrificed; there is still the open grate in every room, but at
the back of the firestove there is an air-box or case which, distinct from the
chimney, communicates by an opening with the outer air, and by another opening
with the room. When the fire in the room heats the iron receptacle, fresh air is
brought in from without, and is diffused into the room at the upper part on a
plan similar to that devised by Captain Galton.
As each house is complete within
itself in all its arrangements, those disfigurements called back premises are
not required. There is a wide space consequently between the back fronts of all
houses, which space is, in every instance, turned into a garden square, kept in
neat order, ornamented with flowers and trees, and furnished with playgrounds
for children, young and old.
The houses being built on arched
subways, great convenience exists for conveying sewage from, and for conducting
water and gas into, the different domiciles. All pipes are conveyed along the
subways, and enter each house from beneath. Thus the mains of the water pipe and
the mains of the gas are within instant control on the first floor of the
building, and a leakage from either can be immediately prevented. The officers
who supply the commodities of gas and water have admission to the subways, and
find it most easy and economical to keep all that is under their charge in
perfect repair. The sewers of the houses run along the floors of the subways,
and are built in brick. They empty into three cross main sewers. They are
trapped for each house, and as the water supply is continuous, they are kept
well flushed. In addition to the house flushings there are special openings into
the sewers by which, at any time, under the direction of the sanitary officer,
an independent flushing can be carried out. The sewers are ventilated into tall
shafts from the mains by means of a pneumatic engine.
The water-closets in the houses are
situated on the middle and basement floors. The continuous water-supply flushes
them without danger of charging the drinking water with gases emanating from the
closet; a danger so imminent in the present method of cisterns, which supply
drinking as well as flushing water.
As we walk the streets of our model
city, we notice an absence of places for the public sale of spirituous liquors.
Whether this be a voluntary purgation in goodly imitation of the National
Temperance League, the effect of Sir Wilfrid Lawson's Permissive Bill and most
permissive wit and wisdom, or the work of the Good Templars, we need not stay to
inquire. We look at the fact only. To this city, as to the town of
And, as smoking and drinking go
largely together, as the two practices were, indeed, original exchanges of
social degradations between the civilised man and the savage, the savage getting
very much the worst of the bargain, so the practices largely disappear together.
Pipe and glass, cigar and sherry-cobbler, like the Siamese twins, who could only
live connected, have both died out in our model city. Tobacco, by far the most
innocent partner of the firm, lived, as it perhaps deserved to do, a little the
longest; but it passed away, and the tobacconist's counter, like the dram
counter, has disappeared.
The streets of our city, though
sufficiently filled with busy people, are comparatively silent. The subways
relieve the heavy traffic, and the factories are all at short distances from the
town, except those in which the work that is carried on is silent and free from
nuisance. This brings me to speak of some of the public buildings which have
relation to our present studies.
It has been found in our towns,
generally, that men and women who are engaged in industrial callings, such as
tailoring, shoe-making, dressmaking, lace-work and the like, work at their own
homes amongst their children. That this is a common cause of disease is well
understood. I have myself seen the half-made riding-habit that was ultimately to
clothe some wealthy damsel rejoicing in her morning ride act as the coverlet of
a poor tailor's child stricken with malignant scarlet fever. These things must
be, in the ordinary course of events under our present bad sanitary system. In
the model city we have in our mind's eye, these dangers are met by the simple
provision of workmen's offices or workrooms. In convenient parts of the town
there are blocks of buildings, designed mainly after the manner of the houses,
in which each workman can have a work-room on payment of a moderate sum per
week. Here he may work as many hours as he pleases, but he may not transform the
room into a home. Each block is under the charge of a superintendent, and also
under the observation of the sanitary authorities. The family is thus separated
from the work, and the working man is secured the same advantages as the lawyer,
the merchant, the banker now possesses: or to make the parallel more correct, he
has the same advantage as the man or woman who works in a factory, and goes home
to eat and to sleep.
In most towns throughout the kingdom
the laundry system is dangerous in the extreme. For anything the healthy
householder knows, the clothes he and his children wear have been mixed before,
during, and after the process of washing, with the clothes that have come from
the bed or the body of some sufferer from a contagious malady. Some of the most
fatal outbreaks of disease I have met with have been communicated in this
manner. In our model community this danger is entirely avoided by the
establishment of public laundries, under municipal direction. No person is
obliged to send any article of clothing to be washed at the public laundry; but
if he does not send there he must have the washing done at home. Private
laundries that do not come under the inspection of the sanitary officer are
absolutely forbidden. It is incumbent on all who send clothes to the public
laundry from an infected house to state the fact. The clothes thus received are
passed for special cleansing into the disinfecting rooms. They are specially
washed, dried and prepared for future wear. The laundries are placed in
convenient positions, a little outside the town; they have extensive drying
grounds, and, practically, they are worked so economically, that homewashing
days, those invaders of domestic comfort and health, are
abolished.
Passing along the main streets of
the city we see in twenty places, equally distant, a separate building
surrounded by its own grounds, a model hospital for the sick. To make these
institutions the best of their kind, no expense is spared. Several elements
contribute to their success. They are small, and are readily removable. The old
idea of warehousing diseases on the largest possible scale, and of making it the
boast of an institution that it contains so many hundred beds, is abandoned
here. The old idea of building an institution so that it shall stand for
centuries, like a Norman castle, but, unlike the castle, still retain its
original character as a shelter for the afflicted, is abandoned here. The still
more absurd idea of building hospitals for the treatment of special organs of
the body, as if the different organs could walk out of the body and present
themselves for treatment, is also abandoned.
It will repay us a minute of time to
look at one of these model hospitals. One is the fac simile of the other,
and is devoted to the service of every five thousand of the population. Like
every building in the place, it is erected on a subway. There is a wide central
entrance, to which there is no ascent, and into which a carriage, cab, or
ambulance can drive direct. On each side the gateway are the houses of the
resident medical officer and of the matron. Passing down the centre, which is
lofty and covered in with glass, we arrive at two sidewings running right and
left from the centre, and forming cross-corridors. These are the wards: twelve
on one hand for male, twelve on the other for female patients. The
cross-corridors are twelve feet wide and twenty feet high, and are roofed with
glass; The corridor on each side is a framework of walls of glazed brick, arched
over head, and divided into six segments. In each segment is a separate, light,
elegant removable ward, constructed of glass and iron, twelve feet high,
fourteen feet long, and ten feet wide. The cubic capacity of each ward is 1,680
feet. Every patient who is ill enough to require constant attendance has one of
these wards entirely to himself, so that the injurious influences on the sick,
which are created by mixing up, in one large room, the living and the dying;
those who could sleep, were they at rest, with those who cannot sleep, because
they are racked with pain; those who are too nervous or sensitive to move, or
cough, or speak, lest they should disturb others; and those who do whatever
pleases them: these bad influences are absent.
The wards are fitted up neatly and
elegantly. At one end they open into the corridor, at the other towards a
verandah which leads to a garden. In bright weather those sick persons, who are
even confined to bed, can, under the direction of the doctor, be wheeled in
their beds out into the gardens without leaving the level floor. The wards are
warmed by a current of air made to circulate through them by the action of a
steam-engine, with which every hospital is supplied, and which performs such a
number of useful purposes, that the wonder is, how hospital management could go
on without the engine.
If at any time a ward becomes
infectious, it is removed from its position and is replaced by a new ward. It is
then taken to pieces, disinfected, and laid by ready to replace another that may
require temporary ejection.
The hospital is supplied on each
side with ordinary baths, hot-air baths, vapour baths, and saline
baths.
A day sitting-room is attached to
each wing, and every reasonable method is taken for engaging the minds of the
sick in agreeable and harmless pastimes.
Two trained nurses attend to each
corridor, and connected with the hospital is a school for nurses, under the
direction of the medical superintendent and the matron. From this school, nurses
are provided for the town; they are not merely efficient for any duty in the
vocation in which they are always engaged, either within the hospital or out of
it, but from the care with which they attend to their own personal cleanliness,
and the plan they pursue of changing every garment on leaving an infectious
case, they fail to be the bearers of any communicable disease. To one hospital
four medical officers are appointed, each of whom, therefore, has six resident
patients under his care. The officers are called simply medical officers, the
distinction, now altogether obsolete, between physicians and surgeons being
discarded.
The hospital is brought, by an
electrical wire, into communication with all the fire-stations, factories,
mills, theatres, and other important public places. It has an ambulance always
ready to be sent out to bring any injured persons to the institution. The
ambulance drives straight into the hospital, where a bed of the same height on
silent wheels, so that it can be moved without vibration into a ward, receives
the patient.
The kitchens, laundries, and
laboratories are in a separate block at the back of the institution, but are
connected with it by the central corridor. The kitchen and laundries are at the
top of this building, the laboratories below. The disinfecting-room is close to
the engine-room, and superheated steam, which the engine supplies, is used for
disinfection.
The out-patient department, which is
apart from the body of the hospital, resembles that of the Queen's Hospital,
The medical officers attached to the
hospital in our model city are allowed to hold but one appointment at the same
time, and that for a limited period. Thus every medical man in the city obtains
the equal advantage of hospital practice, and the value of the best medical and
surgical skill is fairly equalised through the whole
community.
In addition to the hospital building
is a separate block, furnished with wards, constructed in the same way as the
general wards, for the reception of children suffering from any of the
infectious diseases. These wards are so planned that the people, generally, send
sick members of their own family into them for treatment, and pay for the
privilege.
Supplementary to the hospital are
certain other institutions of a kindred character. To check the terrible course
of infantile mortality of other large cities, the 76 in the 1,000 of mortality
under five years of age, homes for little children are abundant. In these the
destitute young are carefully tended by intelligent nurses; so that mothers,
while following their daily callings, are enabled to leave their children under
efficient care.
In a city from which that grand
source of wild mirth, hopeless sorrow and confirmed madness, alcohol, has been
expelled, it could hardly be expected that much insanity would be found. The few
who are insane are placed in houses licensed as asylums, but not different in
appearance to other houses in the city. Here the insane live, in small
communities, under proper medical supervision, with their own gardens and
pastimes.
The houses of the helpless and aged
are, like the asylums, the same as the houses of the rest of the town. No large
building of pretentious style uprears itself for the poor; no men badged and
badgered as paupers walk the place. Those poor who are really, from physical
causes, unable to work, are maintained in a manner showing that they possess yet
the dignity of human kind; and that, being worth preservation, they are
therefore worthy of respectful tenderness. The rest, those who can work, are
employed in useful labours, which pay for their board. If they cannot find work,
and are deserving, they may lodge in the house and earn their subsistence; or
they may live from the house and receive pay for work done. If they will not
work, they, as vagrants, find a home in prison, where they are compelled to
share the common lot of mankind.
Our model city is of course well
furnished with baths, swimming baths, Turkish baths, playgrounds, gymnasia,
libraries, board schools, fine-art schools, lecture halls, and places of
instructive amusement. In every board-school drill forms part of the programme.
I need not dwell on these subjects, but must pass to the sanitary officers and
offices.
There is in the city one principal
sanitary officer, a duly qualified medical man elected by the Municipal Council,
whose sole duty it is to watch over the sanitary welfare of the place. Under
him, as sanitary officers, are all the medical men who form the poor law medical
staff. To him these make their reports on vaccination and every matter of health
pertaining to their respective districts; to him every registrar of births and
deaths forwards copies of his registration returns; and to his office are sent,
by the medical men generally, registered returns of the cases of sickness
prevailing in the district. His inspectors likewise make careful returns of all
the known prevailing diseases of the lower animals and of plants. To his office
are forwarded, for examination and analysis, specimens of foods and drinks
suspected to be adulterated, impure, or otherwise unfitted for use. For the
conduction of these researches the sanitary superintendent is allowed a
competent chemical staff. Thus, under this central supervision, every death,
every disease of the living world in the district, and every assumable cause of
disease, comes to light and is subjected, if need be, to
inquiry.
At a distance from the town are the
sanitary works, the sewage pumping works, the water and gas works, the
slaughter-houses and the public laboratories. The sewage, which is brought from
the town partly by its own flow and partly by pumping apparatus, is conveyed
away to well-drained sewage farms belonging to, but at a distance from, the city
where it is utilised.
The water supply, derived from a
river which flows to the south-west of the city, is unpolluted by sewage or
other refuse, is carefully filtered, is tested twice daily, and if found
unsatisfactory is supplied through a reserve tank, after it has been made to
undergo further purification. It is carried through the city everywhere by iron
pipes. Leaden pipes are forbidden. In the sanitary establishment are
disinfecting rooms, a mortuary, and ambulances for the conveyance of persons
suffering from contagious disease. These are at all times open to the use of the
public, subject to the few and simple rules of the
management.
The gas, like the water, is
submitted to regular analysis by the staff of the sanitary officer, and any
fault which may be detected, and which indicates a departure from the standard
of purity framed by the Municipal Council, is immediately remedied, both gas and
water being exclusively under the control of the local
authority.
The inspectors of the sanitary
officer have under them a body of scavengers. These, each day, in the early
morning, pass through the various districts allotted to them, and remove all
refuse in closed vans. Every portion of manure from stables, streets, and yards
is in this way removed daily, and transported to the city farms for
utilisation.
Two additional conveniences are
supplied by the scientific work of the sanitary establishment. From steam-works
steam is condensed, and a large supply of distilled water is obtained and
preserved in a separate tank. This distilled water is conveyed by a small main
into the city, and is supplied at a moderate cost for those domestic purposes
for which hard water is objectionable.
The second sanitary convenience is a
large ozone generator. By this apparatus ozone is produced in any required
quantity, and is made to play many useful purposes. It is passed through the
drinking water in the reserve reservoir whenever the water shows excess of
organic impurity, and it is conveyed into the city for diffusion into private
houses, for purposes of disinfection.
The slaughter-houses of the city are
all public, and are separated by a distance of a quarter of a mile from the
city. They are easily removable edifices, and are under the supervision of the
sanitary staff. The Jewish system of inspecting every carcase that is killed is
rigorously carried out, with this improvement, that the inspector is a man of
scientific knowledge.
All animals used for food, cattle,
fowls, swine, rabbits, are subjected to examination in the slaughter-house, or
in the market, if they be brought into the city from other depôts. The
slaughter-houses are so constructed that the animals killed are relieved from
the pain of death. They pass through a narcotic chamber, and are brought to the
slaughterer oblivious of their fate. The slaughter-houses drain into the sewers
of the city, and their complete purification daily, from all offal and refuse,
is rigidly enforced.
The buildings, sheds, and styes for
domestic food-producing animals are removed a short distance from the city, and
are also under the supervision of the sanitary officer; the food and water
supplied for these animals comes equally, with human food, under proper
inspection.
One other subject only remains to be
noticed in connection with the arrangements of our model city, and that is the
mode of the disposal of the dead. The question of cremation and of burial in the
earth has been considered, and there are some who advocate cremation. For
various reasons the process of burial is still retained. Firstly, because the
cremation process is open to serious medico-legal objections; secondly, because,
by the complete resolution of the body into its elementary and inodorous gases
in the cremation furnace, that intervening chemical link between the organic and
inorganic worlds, the ammonia, is destroyed, and the economy of nature is
thereby dangerously disturbed; thirdly, because the natural tendencies of the
people lead them still to the earth, as the most fitting resting-place into
which, when lifeless, they should be drawn.
Thus the cemetery holds its place in
our city, but in a form much modified from the ordinary cemetery. The burial
ground is artificially made of a fine carboniferous earth. Vegetation of rapid
growth is cultivated over it. The dead are placed in the earth from the bier,
either in basket work or simply in the shroud; and the monumental slab, instead
of being set over or at the head or foot of a raised grave, is placed in a
spacious covered hall or temple, and records simply the fact that the person
commemorated was recommitted to earth in those grounds. In a few months, indeed,
no monument would indicate the remains of any dead. In that rapidly-resolving
soil the transformation of dust into dust is too perfect to leave a trace of
residuum. The natural circle of transmutation is harmlessly completed, and the
economy of nature conserved.
Omitting, necessarily, many minor
but yet important details, I close the description of the imaginary health city.
I have yet to indicate what are the results that might be fairly predicted in
respect to the disease and mortality presented under the conditions
specified.
Two kinds of observation guide me in
this essay: one derived from statistical and sanitary work; the other from
experience, extended now over thirty years, of disease, its phenomena, its
origins, its causes, its terminations.
I infer, then, that in our model
city certain forms of disease would find no possible home, or, at the worst, a
home so transient as not to affect the mortality in any serious degree. The
infantile diseases, infantile and remittent fevers, convulsions, diarrhoea,
croup, marasmus, dysentery, would, I calculate, be almost unknown. Typhus and
typhoid fevers and cholera could not, I believe, exist in the city except
temporarily, and by pure accident; small-pox would be kept under entire control;
puerperal fever and hospital fever would, probably, cease altogether; rheumatic
fever, induced by residence in damp houses, and the heart disease subsequent
upon it, would be removed. Death from privation and from purpura and scurvy
would certainly cease. Delirium tremens, liver disease, alcoholic phthisis,
alcoholic degeneration of kidney and all the varied forms of paralysis,
insanity, and other affections due to alcohol, would be completely effaced. The
parasitic diseases arising from the introduction into the body, through food, of
the larvae of the entozoa, would cease. That large class of deaths from
pulmonary consumption, induced in less favoured cities by exposure to impure air
and badly ventilated rooms, would, I believe, be reduced so as to bring down the
mortality of this signally fatal malady one third at
least.
Some diseases, pre-eminently those
which arise from uncontrollable causes, from sudden fluctuations of temperature,
electrical storms, and similar great variations of nature, would remain as
active as ever; and pneumonia, bronchitis, congestion of the lungs, and summer
cholera, would still hold their sway. Cancer, also, and allied constitutional
diseases of strong hereditary character, would yet, as far as I can see,
prevail. I fear, moreover, it must be admitted that two or three of the epidemic
diseases, notably scarlet fever, measles, and whooping cough, would assert
themselves, and, though limited in their diffusion by the sanitary provisions
for arresting their progress, would claim a considerable number of
victims.
With these last facts clearly in
view, I must be careful not to claim for my model city more than it deserves;
but calculating the mortality which would be saved, and comparing the result
with the mortality which now prevails in the most favoured of our large English
towns, I conclude that an average mortality of eight per thousand would be the
maximum in the first generation living under this salutary régime. That
in a succeeding generation Mr. Chadwick's estimate of a possible mortality of
five per thousand would be realised, I have no reasonable doubt, since the
almost unrecognised, though potent, influence of heredity in disease would
immediately lessen in intensity, and the healthier parents would bring forth the
healthier offspring.
As my voice ceases to dwell on this
theme of a yet unknown city of health, do not, I pray you, wake as from a mere
dream. The details of the city exist. They have been worked out by those
pioneers of sanitary science, so many of whom surround me to-day, and specially
by him whose hopeful thought has suggested my design. I am, therefore, but as a
draughtsman, who, knowing somewhat your desires and aspirations, have drawn a
plan, which you in your wisdom can modify, improve, perfect. In this I know we
are of one mind, that though the ideal we all of us hold be never reached during
our lives, we shall continue to work successfully for its realisation. Utopia
itself is but another word for time; and some day the masses, who now heed us
not, or smile incredulously at our proceedings, will awake to our conceptions.
Then our knowledge, like light rapidly conveyed from one torch to another, will
bury us in its brightness.
By swift degrees the love of Nature
works
And warms the bosom: till at last,
sublimed
To rapture and enthusiastic
heat,
We feel the present DEITY, and
taste
The joy of GOD to see a happy
world!