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_Chicken pox._

Chicken pox is the mildest of eruptive diseases. It has no relation to smallpox, so that the theory sometimes held, that an attack of chicken pox prevents any attack of smallpox later, is a mistake. Instances are on record where a person has had both diseases almost at the same time.

The appearance of the eruption is the characteristic feature of this disease, and it is so well distinguished that there is no danger of failing to recognize it. It is not common in grown people, and while it should not arouse suspicion in children, it is so uncommon in adults that a suspected case is probably a mild case of smallpox, and should always be quarantined as such.

With children, the accompanying cold and fever is often very mild, so that the appearance of the rash is the first and only symptom of the disease. The eruption is a progressive thing, each day's crop coming to full bloom and dying out as the next day's crop develops. This is, by the way, a distinguishing characteristic of this disease, differentiating it from smallpox where the pustules are more persistent and where the breaking out is more general. The pustules are sometimes extremely irritating, and it is very hard to keep children from scratching, the results of which may leave deep scars and so should be avoided. An antiseptic ointment should be used as with scarlet fever and measles, carbolized vaseline being suitable, although sometimes a strong solution of soda is subst.i.tuted. It is not common to disinfect in chicken pox to the same extent as in the other diseases, the contagion being apparently in the air rather than in clothing and short lived. In New York State, in 1908, no deaths are recorded from chicken pox, and it is because of this lack of fatal results that the disease is regarded so indifferently and no particular pains taken to prevent its spread.

CHAPTER XIX



_PARASITICAL DISEASES (MALARIA, YELLOW FEVER, HOOKWORM, BUBONIC PLAGUE, AND PELLAGRA)_

_Malaria._

From time immemorial, malaria (or fever-and-ague) has been one of the great plagues of humanity. No advance outpost of civilization but has suffered, more or less severely, from this disease. d.i.c.kens, in one of his novels, describes graphically the disease as it existed in the early American settlements, and vividly portrays its ravages, both mental and physical, among the pioneer settlers. Certain sections of the world have been especially noted for the prevalence of this disease, making extensive regions practically uninhabitable. The vicinity of Rome, with its swampy marshes and low-lying areas, has been one of these plague spots. The jungles and swamps of the equator and the coastline of Africa and South America and the valley lands of the Mississippi River have all been noted as most dangerous districts for human beings to live in. Even in civilized communities the ravages of the disease have, under conditions most conducive to malaria, been fearful, so that only most urgent requirements of mining, manufacturing, or similar material processes have prevented the obliteration of entire communities.

The cause of the heavy death roll resulting from a bold defiance of the reputation of these localities--a defiance bravely adopted by hardy pioneers, by agents of trading companies, and by representatives of governments--has been, up to the last ten years, a.s.signed to the water-laden condition of low-lying ground. Swamps and stagnant pools, moisture-laden air, and a hot climate have been universally considered to be the cause of the fever, and the transmission of the disease has been supposed to be due to the pa.s.sage through the moist air of the germs of the disease, although the exact form and behavior of these germs was unknown. Certain specifics have been proved by experience to have some value. For instance, it has been found that planting a row of trees between the house and a pool from which malaria might come has been of aid in warding off the disease. In a number of cases a thick row of eucalyptus trees, so a.s.sociated in the popular mind with this purpose that they are known as the malaria tree, have been planted as a tight hedge with apparently very useful results. Drainage or filling up the low lands has always been found to reduce the prevalence of the disease.

Many years ago the use of quinine in large doses was found to be a specific, and the writer well remembers, on the occasion of his visit to a malarial region, buying quinine at the grocery store by the ounce in the same way that one would buy spices or tea, the dose being a teaspoonful. Why quinine should prevent the daily or periodical chills characteristic of the disease was not known, or why a row of eucalyptus trees interfered with the development of the disease was not known, and people generally were content to rest with the knowledge of these facts only.

_Mosquitoes and malaria._

[Ill.u.s.tration: FIG. 78.--Resting positions for ordinary mosquito (left) and malarial mosquito (right).]

In the year 1900, however, English scientists, working in the Roman Campagna, demonstrated conclusively that which had been vaguely suggested before, namely, that the cause of malaria is a parasite composed of little more than an unformed ma.s.s of protoplasm, not floating in the air at all, but transmitted only by the bite of a mosquito. By a series of most interesting experiments, conducted by them and by other scientists in other parts of the world, it has been definitely proved that when a mosquito bites an individual suffering from malaria, the mosquito draws up into his body, along with the blood of the bitten person, some of the malarial parasites. In the body of the mosquito, the parasite develops, requiring for a full-grown specimen about seven days; then, if the mosquito bites another person, the parasite is injected into the skin of the victim, and in the course of about a week a good case of malaria ensues.

Fortunately, only a small proportion of the number of mosquitoes in the world are capable of nourishing the malaria parasite. Under ordinary conditions about 5 per cent of all mosquitoes found are malarial, and a particular name has been given to those capable of transmitting the disease. The ordinary mosquito is known as the "culex," while the malarial kind is known as "anopheles." Figure 78 shows the characteristic att.i.tude of the two kinds by which the one can be distinguished from the other when resting on a wall or ceiling. As will be noticed in the drawing, the culex carries his body parallel to the wall with his hind legs crossed over his back. The harmful mosquito, the female anopheles, always hangs on by her front legs and has her body at an angle of about forty-five degrees to the surface to which she clings, her hind legs hanging down. The wings of the harmless mosquito are usually mottled, while the wings of the malarial mosquito are of an even color. The details of the behavior of the parasite on its long journey from the original malarial patient through the body of the mosquito and into the body of the person bitten is full of interest to the scientist, who must, however, be provided with a good microscope to follow such minute bodies; but the methods of avoiding the disease are more pertinent to our present purpose.

While quinine is still recognized as the particular antidote for the malarial poison, efficient as we know now because it is poisonous to the parasite and not because it has any particular effect on the person, of late years more and more stress is being laid on the elimination of the mosquito. Naturally, if the mosquito can be destroyed and the transmission of the disease thus prevented, there will be no further need of quinine. The general impression that swampy land is favorable to the development of malaria is correct, but not because the damp air is itself pernicious. The significance of the damp ground lies solely in the fact that mosquitoes in one stage of their existence require water for their development. They breed only in water and always deposit their eggs in water, on the surface of which the eggs float in very small layers. The eggs hatch into larvae or wrigglers, which also must remain in water for development, and it is not until the third stage, that of the full-grown mosquito, that the animal leaves the water which was his birthplace. Obviously, therefore, if there is no water there can be no mosquitoes.

_Elimination of mosquitoes._

Another pertinent fact discovered by scientific research is that the development of the malarial mosquito is confined to the vicinity of stagnant pools, because in fresh water, where fish are to be found, the eggs and larvae of the mosquito are a most acceptable fish food. One of the most practical ways, therefore, of getting rid of possible mosquitoes is to make sure that the pond always contains a number of fish. Woods Hutchinson gives the following interesting description of the way this fact was discovered:--

"It was early noted that mosquitoes would not breed freely in open rivers or in large ponds or lakes, but why this should be the case was a puzzle. One day an enthusiastic mosquito student brought home a number of eggs of different species, which he had collected from the neighboring marshes, and put them into his laboratory aquarium for the sake of watching them develop and identifying their species. The next morning, when he went to look at them, they had totally disappeared.

Thinking that perhaps the laboratory cat had taken them, and overlooking a most contented twinkle in the corner of the eyes of the minnows that inhabited the aquarium, he went out and collected another series. This time the minnows were ready for him, and before his astonished eyes promptly pounced on the raft of eggs and swallowed them whole. Here was the answer at once: mosquitoes would not develop freely where fish had free access; and this fact is an important weapon in the crusade for their extermination. If the pond be large enough, all that is necessary is simply to stock it with any of the local fish,--minnows, killies, perch, dace, ba.s.s,--and presto! the mosquitoes practically disappear."

[Ill.u.s.tration: FIG. 79.--Top view is of larva of Anopheles. Bottom view is of larva of Culex.]

Another factor in the development of the mosquito from the egg to full-grown mosquitohood is that in the larvae stage air must be supplied, curiously enough, through the tail which projects slightly above the surface of the water as the larvae hang head downwards (see Fig. 79). If the surface of the water is covered with some impervious material, the mosquito larvae will be suffocated, and it has been found that oil lends itself most readily to this desirable purpose, applied at the rate of one ounce per fifteen square feet of water surface. The oil spreads out over the surface in a very thin film, but persistent enough to keep off the air supply from the mosquito larvae. This method, about which much has been written and said, is perhaps the one most commonly employed, and its results have been most satisfactory. In the vicinity of the city of Newark, New Jersey, for instance, is an area of about 3500 acres, 8 miles long and about 3 miles wide, practically all marshland. In 1903 ditches were dug throughout this marsh in such a way that the surface water was drained off, drying the ground so that hay can now be cut where formerly rubber boots were necessary to get onto the ground at all. The consequence has been that the mosquitoes have practically disappeared from this region, formerly frightfully infested, and the cost of the 70 miles of small ditches dug has been amply repaid by the freedom from malaria as well as from the nuisance of the ordinary mosquito.

Other campaigns have been waged, using kerosene or crude petroleum for the coating of ponds or pools. Wherever clear water exists the kerosene treatment is probably best. Where marshland is found, through which the kerosene penetrates with difficulty, drainage is a more useful method.

The size of the pools required for the development of the mosquito is very small. Thousands of mosquitoes may be formed in the amount of water contained in an old tomato can, and barrels half full of rain water or pools of water in the vicinity of an old pump or in the barnyard will afford golden opportunities for mosquitoes looking for a place to lay their eggs. While the ordinary culex requires from one to two weeks only for the complete transition from egg to mosquito, so that a pool filled with rain water and not dried up within that period will be sufficient to develop a brood, the malarial mosquito requires much longer--two or three months--for the full completion of her development. It is, therefore, a simple problem for an individual householder to search out the pools which remain filled with water for a period of two months, and either stock them with fish, drain them entirely, or coat them with kerosene. No hesitation need be felt about the result of this treatment.

It will positively eliminate all malaria in the vicinity if the work is thoroughly done.

_Limitation of mosquito infection._

The distance that the malarial mosquito can fly is of interest as indicating the distance which one must go from a house, hunting for available pools. All mosquitoes are unable to fly against the wind, so that, as already noted, one side of a swamp may be comparatively free from malaria, while the other side may be overrun with it, merely on account of the direction of the prevailing winds. Some mosquitoes that breed in salt marshes may be carried for miles, so that a land breeze will bring millions of the pests to seash.o.r.e cottages which, with a sea breeze, are quite free from them. The anopheles has a habit of clinging to weeds, shrubs, and bushes when the wind blows, so that it is seldom carried more than about two hundred yards from the place where it is hatched. If all pools of water, therefore, within this radius are disposed of, the elimination of malaria will logically follow.

If one is obliged to be in a region where malaria is common, the disease can be avoided absolutely by protecting one's self from mosquitoes, and since the anopheles prefer the early morning and evening hours, it is at those times of the day particularly when precautions must be taken. It was once thought that the night air caused malaria, and this had some foundation in fact, because it is in the early evening that the anopheles is on the wing. By staying in the house after sundown and by carefully screening the doors and windows, one may live in a malarial country with perfect immunity. Volunteers have lived for months in the worst malarial regions in the world without a trace of the disease, the only precaution being to keep the doors and windows screened and to prevent mosquitoes from biting.

An interesting experiment was made some years ago by sending a malarial mosquito by mail from Italy to England, where an enthusiast allowed himself to be bitten by the insect. He had had no trace of malaria before, but a week after the mosquito's bite he came down with the disease. It has also been noted that in such parts of the country as Greenland and Alaska, where mosquitoes are as thick as in the far-famed New Jersey marshes, malaria does not result from the mosquito bites unless a malaria patient from other countries starts the infection.

The disease itself may be mild or severe. It takes about a week after the mosquito bites before the symptoms appear, and sometimes the attack is postponed for weeks or months. Chills are the usual accompaniment of the disease; in children under six, convulsions are more common. The chill lasts from a few minutes to an hour, and directly after the chill comes the fever, which lasts three or four hours. The attacks usually occur every other day and sometimes every two days, generally at the same time of day. When persons have lived for a long time in malarial regions, the intermittency of the chill and fever is less noticeable and the continuous character of the fever often leads the disease to be mistaken for typhoid. The intermittent regularity of the fever, however, although between attacks the temperature never falls to normal, distinguishes this type of malarial fever from true typhoid. The positive determination of the disease is possible by an examination of the patient's blood, in which the malarial parasite can readily be found. Quinine is the remedy and the only remedy, and, fortunately, it does no harm, even before the character of the disease is positively known. The chill seems to be due to the development of a new brood of parasites in the blood of the malarial patient, and in order that the quinine shall have its effect on the blood, it must be swallowed three or four hours before the time of the expected chill, and then it will probably prevent, not the next chill but the one after. If the quinine cannot be taken directly with reference to an expected chill, then it must be taken regularly, sometimes for months before the chills cease.

_Yellow fever._

Yellow fever, although not common in this country, is interesting as being almost exactly similar in its mode of infection to malaria. It is transmitted through a parasite, as is malaria, and can only be pa.s.sed along through the agency of another kind of mosquito, known as stegomyia. In 1899 there was a serious outbreak of this pestilence in the cities of our southern coast, and the terrors of the plague of the Middle Ages were revived for a number of months. Trains going out of the infected regions were stopped by crowds armed with guns and the pa.s.sengers prevented from proceeding, lest the disease might spread. No goods or freight were allowed to pa.s.s out from the infected area, and the prejudice against intercourse with the outside world went so far that guards even forbade the carrying of disinfectants to the victims.

Like malaria, the disease is one requiring a hot climate, generally because it is favorable to mosquito growth. It is most common in the seacoast cities of the South, and is probably transmitted often by mosquitoes brought on board ship. Since Havana has been cleaned up by Americans, the danger formerly existing from intercourse with that city has ceased, although only three years ago the writer stopped in a hotel at Havana, where two persons had died of yellow fever a week before. The smell of disinfectants in the hotel was so great that not a fly or insect of any sort was visible, and no other hotel in the city could have been safer or more comfortable. It has been proved positively that yellow fever cannot be transmitted by direct contact, since, in the interests of science, volunteers have slept in beds from which the dead from yellow fever had just been removed without contracting the disease.

That the infection is due only to mosquitoes is proved by the fact that later, when bitten by mosquitoes, they succ.u.mbed to the disease. It requires about two weeks for the disease to pa.s.s through its regular stages in the body of the mosquito, so that there is no possibility of its transmission for that time after the mosquito has come in contact with a yellow fever patient.

The symptoms of yellow fever are characteristic and very severe. The eyes first become bloodshot and, in the course of two days, yellow, whence the name of the disease. Severe vomiting is also characteristic, the discharge being sometimes discolored like coffee or even tar and known as black vomit. The skin appears yellow, a condition which lasts for some time and is particularly noticeable if by the pressure of the finger on the skin the blood is made to recede. Among persons previously in good health, the death-rate is about that of typhoid fever, but among those in unfavorable surroundings and among those given to the use of alcohol, the rate will be much higher. Practically, it may be expected that this disease, like malaria, will disappear from the face of the earth. When the only requirement is the destruction of the mosquitoes and when mosquitoes can be so easily killed as already explained, it is only a question of time before mosquitoes and the diseases they cause will be stamped out. In Havana, before 1901, the number of the deaths yearly was about 750. In the year after the American intervention, when Colonel Gorgas, by military command, insisted on the thorough cleaning of the houses and the general use of kerosene in all drains and cesspools, there was not one single death.

_Hookworm disease._

The third parasitical disease common in some parts of the United States has received much attention during this last year and is known as the hookworm disease. It is a new discovery in medical science, and whereas the physical condition of the victim is usually a clear indication of the disease, a positive diagnosis is always obtained by the use of the microscope. Several years ago it was announced in the United States that the laziness and shiftlessness of the poor whites living in the sand lands and pine barrens of the South was due, not to any inherent cussedness but to the presence of a parasite in the intestine, known in Italy and Germany as the hookworm, the disease being called Uncinariasis.

The development of the disease is interesting. The worm, which is about an inch long and looks not unlike a bit of thread, lays eggs by the thousand in the intestinal tract of a human victim. Afterwards they pa.s.s out in the excreta and, favored by heat and moisture, develop in the soil in about three days into minute larvae. These larvae have a most extraordinary power of attaching themselves to and penetrating into the human skin and body. They may also enter the human body in a drink of water or on unwashed vegetables. In infected regions the soil becomes fairly alive with these larvae, and it is hardly possible for a child to walk barefoot outdoors without becoming infected. When the larvae have penetrated the hand or foot, they begin a long and circuitous journey through the body, moving from the extremities through the veins to the heart and thence to the lungs. From here they are carried through air cells into the bronchial tubes, thence along the mucous membrane up the windpipe and down into the stomach and finally, from the stomach, they pa.s.s out into the intestines, the goal of their long journey.

This all takes time, and probably from the time they enter the skin to the time they begin their murderous work on the lining of the intestines requires about two months. In the intestine the larvae develop into adults; but before this final stage an intermediate existence is reached, at which time they attach themselves to the mucous lining and bore into it, presumably for the purpose of making a nest in which later to lay their eggs. The burrowing parasite causes a great loss of blood, and it is on account of the resulting anaemia that the poor whites show always such incapacity, indifference, and apparent laziness. That this disease is of importance in considering the hygienic condition of the country is apparent when it is pointed out that in the southern part of the United States, chiefly in the rural districts, there are at least two million persons at present infected with the disease, and that should these hookworms be blotted out of existence, two million incapables would be changed into two million active Americans, ready to raise the southern districts to a commercial elevation which their natural resources seem to justify.

The treatment of the hookworm disease is simple, and the donation by Mr.

Rockefeller of $2,000,000 is intended to be sufficient to furnish the opportunity at least for a complete cure of all the cases. It has been found that a small dose of a preparation of thyme known as thymol stupefies the parasites with which it comes in contact, so that they unloose their claws and are set free in the intestine after its use. A dose of epsom salts shortly after clears them out, and except for the loss of blood, the disease is finished. Sometimes, however, in long-continued cases the worms have penetrated so far into the membrane that the use of thymol cannot withdraw them. In fact, in autopsies, it has been found necessary to take tweezers and to use considerable force in order to pull them out.

The prevention of the disease is really the cure of the disease, an apparently simple matter, as already described. An improvement of sanitary conditions so as to make impossible further pollution of the soil should be also undertaken. Wherever the disease has prevailed in this country or in Europe, it has been because of an utter neglect and disregard of what are now known as ordinary sanitary conveniences, and the report of the Country Life Commission, although many charges were made against the conditions of living in different parts of the country, was far from telling the whole story in the matter of the shortcomings in parts of the southern states. There is, therefore, every reason why the farmer and others living in the country should be urged to make themselves comfortable with all known modern sanitary appliances. This is desirable, first, for the sake of others on whom their sins of unhygienic living might be visited, and then for their own sake, because there such sins would also have an effect to a degree tenfold more severe.

_Pellagra._

Another disease peculiar to country life, and which has only within the last few years been recognized, is known as pellagra. Not yet is it even known through what agency the disease is transmitted, but it has been beyond question established that in some way corn is responsible for its spread. Apparently, spoiled corn is necessary, and while presumably the corn itself is not the agent, the parasite or organism that is responsible lives only on corn which has been spoiled. Scientists have long worked on the disease, and it would be a merely speculative pursuit, one of interest to scientists and medical men only, except for the fact that within the last few years it has broken out in this country and is increasing to a most alarming degree. The disease itself is almost hopeless when once established, physicians being yet utterly unable to grapple with it; and while in Italy, Spain, and Egypt it has been known for a century, there is still a death-rate of over 60 per cent, and these deaths occur after most horrible suffering and agony.

As in rabies, the parasite, if it is a parasite, acts through a poison which penetrates to the nervous centers, producing mental disturbances culminating in an active insanity. At the same time, the agent attacks the skin, whence its name "pell'agra," which means "rough skin," so that the body appears as if it were affected with a severe attack of eczema, large patches of skin peeling off and leaving the raw surface. In fact, in one of the Illinois hospitals, only a few years ago, some insane persons, infected with this disease, died, and because the effect of the disease on the skin was not known, the nurse in charge was accused of scalding the patients with boiling water, the appearance of the skin being the only proof. The nurse was discharged, although, without doubt, she was innocent, and the appearance of the skin was due solely to the disease. It has been estimated that there are at present in the United States five thousand victims of pellagra, with the number constantly increasing, although physicians of standing make estimates largely in excess of this.

Apparently preventive measures must consist in eliminating the possibility of the use of spoiled corn. Indications are that the disease appears only when such corn has been used, and in parts of Mexico where corn is always roasted before being used, pellagra is never known. It has been described as a disease of the poor, because the disease has flourished chiefly in districts where poverty is so extreme that corn, and spoiled corn at that, is the only food within reach. Usually, where a mixed diet with meat is possible, pellagra never appears. In other places, as in Italy, where the peasants live on a porridge of corn meal cooked in great potfuls, a week's supply at a time, and during the week exposed to dirt and flies and often spoiled before eating, pellagra is most common. Experiments have shown that in these districts, by excluding corn from the diet and furnishing a substantial fare, the disease has been banished. Unfortunately, the taint of the disease pa.s.ses from parent to child and even to the third and fourth generation, and the physical deformities commonly seen in pellagrous districts are due to this hereditary taint. Dr. Babc.o.c.k, Superintendent of the City Hospital at Columbia, South Carolina, after discussing the disease, sums up by saying, "Pellagra is a fact, and the United States is facing one of the great sanitary problems of modern times."

_Bubonic plague._

The bubonic plague, or "The plague," as the importance of the disease has caused it to be called, is one of the oldest of known epidemics. In the third century it spread through the Roman Empire, destroying in many portions of the country nearly one-half of the people. Its immediate origin is a bacillus causing symptoms similar to blood poisoning, although in some cases, where the lungs are attacked, the disease has some of the characteristics of pneumonia.

A description of this disease is included here because, while bacterial in its nature, it is transmitted largely, if not entirely, by fleas and by a particular species of flea known as the rat flea. These fleas harbor the plague bacilli in their stomachs and inject them into the bodies of those they bite, in the same way that the anopheles or stegomyia mosquito transmits malaria or yellow fever. Elaborate experiments made in India in 1906 show conclusively that close contact of plague-infected animals with healthy animals does not give rise to any epidemic, so long as the pa.s.sage of fleas from infected to healthy animals is prevented. When opportunity, however, was given for fleas to pa.s.s from one animal to another, the bacillus and the disease was generally carried over. It has also been found that while this species of fleas have their normal residence on the body of rats, they will also desert a rat for man, if the infected rat is dying and no healthy rat is in the vicinity to receive them. It is, then, obvious that to eliminate the disease, the most direct and positive course is to destroy the rats which are the home of the disease.

In India, where the plague appeared in 1896, causing about 300 deaths, it rapidly increased in virulence until in 1907 it caused 1,200,000 deaths. The ports of the Pacific coast became much alarmed, and when cases of the disease were actually found in San Francisco in 1906, the matter was so terrifying that the United States Marine Hospital Service was at once instructed to stamp out the disease if possible. This procedure was directed almost entirely against rats. Deposits of garbage on which rats might feed were removed, rat runs and burrows were destroyed and filled in, and stables, granaries, markets, and cellars where rats might abound were made ratproof by means of concrete. Rats were trapped and poisoned by the thousand, nearly a million being thus disposed of. As a result of such thorough work, the plague was stayed, and in 1909 not a single case of the disease among human beings was found, and although 93,558 rats captured were examined, only four cases of rat plague were found.

In southern California, however, the fleas deserted the rats for ground squirrels, and one county in particular, Contra Costa County, had an epidemic which caused the squirrels to die by the thousands. The attention of the scientists was thus turned to the squirrel as a host of the flea, and a warfare similar to that against the rat has been for a year past carried on against the infected squirrels. Between September 24, 1908, and April 12, 1909, 4722 ground squirrels were killed and examined for plague infection, and from June 4 to August 13, 1909, the work being continued, 178 squirrels were found to have the plague.

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Rural Hygiene Part 24 summary

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