The localization of the inflammatory products not only upon the surface of the air sacs but also in the stroma of the alveoli; the interlobular trabeculæ, and about the vascular channels indicates the intense effect of the virus of this disease. The exudate is largely an indication of the point of action of the irritant upon the tissues, and in influenza with its variety of bacteria in the lung this is not limited to the surface membrane of the air sacs. During this second stage of the reaction the purulent exudate was found occupying all structures of the involved area. Damage upon the component tissues was to be seen in the endothelium of the capillaries, the muscle tissue of the bronchioles and arterioles, the connective tissues and the epithelium. It was seldom that bacteria were demonstrated in the interstitial parts, and it would appear that the damage was the result of their toxins.
Hence, broadly speaking, the end result of the pneumonic process in influenza is far more complex and indefinite than that in lobar pneumonia. Resolution may take place early with the clearing up of the first products of the exudate; or it may be delayed in association with the secondary purulent process which not uncommonly occupies multiple lobes. Where the resolution begins in purulent regions the final outcome is most variable, depending upon the amount of damage which has been imposed upon the lung tissue during the suppurative inflammation, ending either in complete restoration or slight fibrosis of the lung, or passing on to focal scarring of various degrees, sufficient to alter the pulmonary capacity. In other instances the resolution is delayed by the development of abscess, infarct and gangrene. Here the final outcome is determined by the amount of tissue involved in the destructive process, and the persistency with which the infecting micro-organisms attack the local tissues and the constitutional resistance of the individual. Those individuals in whom resolution begins before there is much purulent pneumonia stand the best chance of having the lung return to its normal characteristics.
Pleura
Inflammation of the pleura was a complication which varied in its extent and appearance. It appeared to us that a definite interval lapsed between the development of the lesions in the lung and the appearance of an inflammatory reaction upon the pleural surfaces. Although we have recorded evidence of a pleural reaction in 27 cases, this does not indicate that we have met with that number of pleurisies of clinical severity. In this group we include all gradations of pleural reaction from the merest evidence of irritation and slight dulling of the surface to the cases in which definite and marked inflammatory exudate accumulated within the cavity. In many cases we observed a slight increase in the amount of the fluid present in one or other pleural cavity, while there was little or no macroscopic evidence of a cellular or fibrinous exudate. An examination of the fluid showed the presence of lymphocytes and endothelial cells in small numbers, and sections of the pleural surface at points where a slight dulling of the serous membrane was seen at autopsy showed the presence of a very thin layer of a hyaline fibrin. By taking these reactions as indicative of pleurisy we have recorded 6 cases of acute fibrinous pleurisy, 20 of acute serofibrinous pleurisy, and 1 of acute fibrino-purulent pleurisy.
An increase in the quantity of fluid in the pleural sacs was the most common indication of pleural irritation. The quantity varied from 50 to 500 c.c. of a clear or slightly turbid fluid. Not uncommonly this fluid was blood stained and evidence of superficial extravasation of blood could be recognized directly beneath the pleural membrane. These serous reactions accompanied the early acute stage, while hemorrhage was the accompaniment of the early period of the influenzal pneumonia when similar hemorrhages were found in the lung substance. The pleural reactions were almost entirely confined to the visceral pleura, and only in the very severe responses did we obtain a marked inflammatory reaction with hemorrhage upon the chest wall. Goodpasture and Burnett state that “there is commonly a moderate serous effusion in one or both pleural cavities amounting to 50 or 250 cubic centimeters. The fluid is clear and has the color of blood-stained serum. The pleural surfaces are smooth, shiny and wet, though occasionally a thin, granular fibrinous exudate may be seen by reflected light over limited areas. Often numerous small, red, discrete, or confluent pleural hemorrhages are present over consolidated portions, especially posteriorly on the surface of the lower lobes.” Where organisms other than the influenza bacillus had invaded the pleural sac and had been present for a sufficient time to obtain a reaction, the serous type of exudate observed in the early lesions changed to the turbid type of fluid accompanied by more or less fibrin deposit. There was one case where the intense reaction with fibrin and leucocytes gave rise to a new character to the pleural exudate, a fibrino-purulent pleurisy or empyema.
As we have subsequently learned the pleurisies developing late in the course of the influenza and those which persist after the pulmonary inflammation has passed are prone to be of a purulent kind. There have been a fair number of cases of empyema brought to our attention by the surgical department in the bacteriological laboratory of the hospital, subsequent to the wave of epidemic influenza. If one were to base his finding alone upon observations obtained in the operating room, he would be impressed by the fact that the pleurisy accompanying the epidemic of influenza is of a purulent type. On the other hand, if one were alone to consider the findings at the autopsy table during the five weeks of the epidemic, one would be of the opinion that the pleurisy is of very minor consequence and of a serous type. It is this changing picture which is particularly to be kept in mind. And our experience indicates that during the height of the influenzal lesions of the lung when the pulmonary lesions develop so rapidly that we obtain a pleural reaction closely resembling the inflammatory conditions in the lung and also containing bacteria not unlike the pulmonary flora. Dr. Holman has obtained the influenza bacillus and other varieties from the pleura during these early periods of the pulmonary inflammation. It is more than probable that just as in the infection of the lung tissue where there is a change in the type of the bacteria present, so, too, the flora of the pleura alters in the succeeding stages of the pulmonary reaction. In the late event of empyema we have not observed the influenza bacillus. The majority of the empyemas possess hemolytic streptococci and occasionally pneumococci.
Heart
During the acute epidemic and while the disease was at its height it was remarkable how few cases showed involvement of the heart. It was the common observation that even during intense illness the heart action remained fairly stable and did not indicate an effect by intoxication as might be expected from the severity of the illness. In as much as the majority of deaths occurred within relatively few days of the onset of the severe infection, the type of lesion that would be looked for in the heart would be either bacterial inflammatory products within the pericardium, myocardium or endocardium or toxic lesions of musculature alone.
In our series we have encountered no cases of pericarditis. This lesion in the experience of others has also been unusual, and it would appear that bacterial invasion of this sac is accomplished mainly in the presence of secondary infections localizing in the neighboring pleura. It was not uncommon to find a slight increase in the serous fluid in the sac, but this on no occasion amounted to a hydropericardium. The fluid was always clear and with no evidence of fibrin or cellular exudate. Petechial hemorrhages scattered over the epicardium were noted in seven cases. In the majority of instances these minute hemorrhages were scattered in small numbers over the ventricular walls. In one instance these petechial hemorrhages were also present through the myocardium, suggesting the influence of an intoxication not upon the tissues of the heart as much as upon the finer structures of the vascular channels. This is furthermore borne out in the presence of petechial hemorrhages confined not to one organ, but to various tissues and structures in the body.
More or less cloudy swelling or granular degeneration of the muscle elements of the heart was not uncommon. It was sufficiently pronounced in 12 cases to be readily detected by the naked eye. A lesser amount was also observed in other cases on microscopical examination. In only one instances was the myocardial degeneration of such extent to lead to a definite and recognizable weakening of the musculature. In this instance the autopsy showed a flabby myocardium which was relatively soft and easily broken and in which all the chambers of the heart were decidedly dilated. This was the only case in which we were convinced of a sufficient influence of the toxic effects upon the musculature to permit a stretching of the walls, with failure of function.