With few exceptions, purulent bronchitis was diffusely distributed in the lungs; occasionally it was observed in one lung alone, and in several instances was limited to the bronchi at the base of a lung, usually of the left lung.
In a considerable proportion of instances of purulent bronchitis abnormal distention of the lungs was noted. On removal from the chest the lungs fail to collapse and retain the size and shape of the thorax. Even after section is made through the organ, parts of the lung fail to collapse and have a resistant cushion-like consistency. This condition is present where the lung tissue is air containing and dry, and occurs when very small bronchi contain tenacious mucous exudate which becomes apparent upon the cut surface after the sectioned lung is squeezed. Microscopic examination shows that the alveolar ducts and infundibula are distended with air, though the respiratory bronchioles contain inflammatory exudate. Complete obstruction of the bronchi is followed by absorption of air from the tributary pulmonary tissue with atelectasis. It is not improbable that partial obstruction, permitting the penetration of air with inspiration, produces distention of air containing tissue.
It is furthermore probable that cyanosis, which is a conspicuous feature of many instances of pneumonia following influenza, is referable, in part at least, to obstruction of the bronchi by mucopurulent exudate.
The term pneumonia will refer to those inflammatory changes in the lung which are found within the alveoli; it will include inflammatory changes in the alveoli surrounding the respiratory bronchioles, in the alveolar ducts and infundibula and in their tributary alveoli. Bronchitis will be described by defining the changes which occur (a) in the small bronchi with no cartilage or mucous glands, and (b) in the large bronchi including the primary branches of the trachea.
For convenience of description those bronchi may be designated small, which have no cartilaginous plates in their wall. Larger bronchi have cartilage and mucous glands, the latter situated in considerable part outside the cartilaginous plates. These bronchi, of which the largest are the right and left bronchi formed by bifurcation of the trachea, diminish with repeated branching to a caliber of about 1 mm. Small bronchi are lined by columnar ciliated epithelium; their wall consists of very vascular connective tissue containing a layer of smooth muscle and their caliber varies approximately from 1 to 0.5 mm. It is convenient to designate as respiratory bronchioles[[80]] the terminal ramifications of the bronchi; they are lined by a single layer of columnar ciliated cells passing over into cuboidal nonciliated epithelium and are beset with small air sacs lined by flat cells or epithelial plates similar to those of the alveoli elsewhere. Not infrequently these alveoli occur along only one side of the bronchiole, the remainder of the circumference being covered by a continuous layer of cubical epithelium. The respiratory bronchiole by branching along its course or at its end is continued into several alveolar ducts which unlike the respiratory bronchioles have no cubical or columnar epithelium but are closely beset by alveoli lined by flat epithelial plates. The alveolar duct is recognized by the absence of cubical epithelium and the presence of bundles of smooth muscle which occur in the wall. The infundibula or alveolar sacs arise as branches from the alveolar ducts and like them are beset with alveoli, but smooth muscle does not occur in their walls. The base of the infundibulum is wider than its orifice, which Miller states is surrounded by a sphincter-like bundle of smooth muscle.
Changes in the main bronchi and their primary branches are usually less severe than those in bronchi of smaller size. The epithelium is often intact, the superficial cells being columnar and ciliated, but not infrequently desquamation of superficial cells has occurred and the lower layers alone remain. Occasionally (Autopsy 471) there is necrosis of epithelium with which, although the architecture of cells is preserved, nuclei have disappeared. Accumulation of blood or serum may separate epithelium from the underlying basement membrane (Fig. 1). Complete loss of epithelium occurs, usually in small patches.
Polynuclear leucocytes are numerous upon the surface of the epithelium and are sometimes fixed in process of migration through epithelium and basement membrane.
Fig. 1.—Acute bronchitis showing engorgement of blood vessels of mucosa and elevation of epithelium by serum and blood. Autopsy 352.
The blood vessels of the mucosa are engorged. There is sometimes edema or hemorrhage, and in the superficial part of the mucosa polynuclear leucocytes are often fairly abundant. When superficial epithelium has been lost, polynuclears are numerous immediately below the surface of the exposed tissue. Fibrin is often present upon the denuded surface and extends for a short distance into the tissue below. In the deeper part of the mucosa, about the muscularis and especially about and between the acini of the mucous glands, the tissue is infiltrated with lymphoid and plasma cells.