Mortality. The mortality among grown hogs averages eighty per cent.

Morbid Anatomy. The most prominent lesion is the general congestion of the capillary blood vessels, and the numerous minute extravasations or petechiæ. The skin shows in the red patches a general dilatation of the capillaries which have become at the same time elongated and tortuous, with minute, often microscopic, ruptures and extravasations at frequent intervals. This usually extends to the whole thickness of the cutis, and to a considerable depth in the subcutaneous fat. Where swelling occurred or pitting on pressure, a serous infiltration of the tissues is found. The lymph glands are uniformly enlarged and discolored, of a dark red, almost black, color, the congestion and extravasation being extreme in the cortical substance, while the medullary is paler, soft and cellular. The lungs are usually gorged with black blood suggesting death by asphyxia. In tardy cases there may, though rarely, be centres of broncho-pneumonia. The spleen is enlarged, with dark color and uneven surface from rounded swellings, and is filled by a soft black, bloody pulp. The liver is congested, the kidneys congested, enlarged and petechiated, and the gastric and intestinal mucosa congested and thickened, with desquamating epithelium, and swollen solitary and agminated glands, the degree of alteration usually bearing a ratio to the duration of the disease. The serosæ are usually extensively petechiated and serous effusions occur into the serous cavities. The muscular substance of the heart and the endocardium are also the seats of petechial extravasations. Unless in some protracted cases the blood appears to be unaltered as regards its power of taking up oxygen, or coagulating.

Bacillus of Rouget. The germ of this disease is found in small numbers only, in the blood and vascular tissues, but very abundantly in the lymph glands, the spleen, the kidneys, and the red marrow of the bone. It is also present in enormous quantities in the urine and the bowel dejections, the former (urine) offering a ready means of diagnosing the disease microscopically.

The bacillus is 1µ to 1.5µ long by 0.1µ to 0.15µ broad, is nonmotile, and stains readily even in Gram’s solution. They occur either solitary or in pairs tending to unite at an angle. In old artificial cultures chains of considerable length may be formed. In the blood the bacillus is usually found in the leucocytes, as many as 20 or more being often present in a single cell. In the lymph networks of organs they also invade the leucocytes but are found in free masses as well. The bacillus is anærobic, but facultative ærobic, its preference being manifestly for the absence of oxygen. It is non-liquefying. In gelatine cultures no development takes place on the surface, but along the line of puncture a delicate cloud-like branching growth takes place which extends horizontally in parallel masses from the central puncture. This resembles but is not quite so delicate as that formed by the bacillus of mouse septicæmia with which it is supposed to be identical. It grows scantily on the surface of nutrient agar or blood serum, but not at all on bouillon, in the bottom of which, however, it forms a slight grayish white deposit. It does not grow on potato. The bacillus sometimes shows refrangent granules which have been supposed to be spores, but this idea appears to be negatived by the ease with which its vitality is destroyed by heat and disinfectants. The thermal death point is 68° C. (137° F.) maintained for 10 minutes (Sternberg). Boulton found that it was killed in 2 hours by mercuric chloride (1:10000), by carbolic acid solution (1:100), and by sulphate of copper solution (1:100).

It is killed by desiccation, by quick lime and by chloride of lime. At a temperature of 18° to 27° F. it perished in 13 days. In salted pork it lost vitality in one month.

Pathogenesis. The bacillus is pathogenic to swine, rabbits, white mice, house mice, white rats, pigeons and sparrows. Field mice, guinea pigs and chickens are immune.

Mice and pigeons take the disease most certainly, and die in three days to five, the whole body swarming with bacilli. Rabbits take the disease less certainly or rapidly, inoculation in the ear causing first an erysipelatoid inflammation and recovery with immunity often takes place.

Immunization. When inoculated continuously from rabbit to rabbit it encreases its potency for that animal, which it comes to kill in 24 to 48 hours, but in the same ratio it loses its virulence for swine upon which it can then be inoculated without danger to their life.

It was on this basis that Pasteur and Thuillier established in 1883, their preventive inoculation for rouget. The method has been most extensively employed in Europe, and where intelligently employed has prevented this disease. From the laboratory at Buda-Pest alone, there was sent out in one year material for 249,816 swine.

The objections to the method are: the danger of mistaking hog cholera and swine plague respectively for rouget, as the rouget mitigated germ would be in no sense protective against these; and the danger of spreading the germs of rouget in fresh localities and thus introducing a new plague instead of controlling and preventing an old one. In the Baden experiments 5.4 per cent. of inoculated pigs died, and of 118 unprotected pigs exposed to them 62 per cent. contracted the disease and one died. In France and Hungary, on the other hand, 1 to 1.45 per cent. died of the operation, instead of 20 per cent. when the disease was contracted in the ordinary way.