Pulmonary edema in fatal heroin overdose: immunohistological investigations with IgE, collagen IV and laminin — no increase of defects of alveolar-capillary membranes
Introduction
Heroin-induced pulmonary edema (‘heroin-lung’) was first described by Osler [1] in 1880. The clinical manifestation is characterized by pulmonary congestion, edema, hemorrhages and respiratory insufficiency. Although the cause for the increase in the permeability of alveolar capillary membranes remains obscure, several mechanisms have been suggested. Increased pulmonary capillary permeability in fatal drug addiction due to defects of the basement membrane is discussed as one reason for so called ‘heroin-lung’ [2]. One of the most discussed causes remains the profound hypoxemia that is found secondary to the heroin-induced hypoventilation and coma [3]. However, the same degree of hypoxemia was found in patients undergoing overdosage of barbiturates but without developing pulmonary edema, and when it does occur, it usually develops after several hours to days after hospitalization [4]. This suggests, that other factors may be important. To verify the hypothesis of primary toxic effects with defects/interruptions of the alveolar capillary membranes, antibodies against laminin and collagen IV as components of the normal basement membrane were used. To verify the hypothesis of acute anaphylactic reaction, the number of IgE-positive cells was counted. The normal basement membrane, as a blood–gas barrier (Fig. 1), can be separated into different zones ultrastructurally and immunohistochemically. The electron-lucent zone (lamina lucida) and the electron-dense zone (lamina densa) contain components such as collagen IV, laminin, nidogen, proteoglycans and fibronectin which help to bind epithelial cells to the basement membrane [5], [6], [7]. Type IV collagen is suggested to be responsible for much of the strength of the blood–gas barrier [8]. As a cause of pulmonary edema in cases of acute heroin fatalities, hypoxia-induced increase of pulmonary capillary permeability [9], depressed myocardial contractility [10], centrally induced respiratory depression, primary toxic effects on the alveolar capillaries that proved lethal [11] and acute anaphylactic shock [12] are discussed. In 1972 Katz et al. reported increased protein levels in heroin pulmonary edema in contrast to cardiac edema [13]. Also disturbances of lung functions are known in cases of pulmonary edema associated with heroin overdose [3], [14], [15].
Section snippets
Materials
In a retrospective case-control study, in which two groups of subjects were selected, a total number of 35 cases were studied: 23 acute heroin fatalities, after toxicological investigations revealed morphine intoxication and 12 controls including cases of sudden cardiac death with acute cardiac pulmonary edema revealed by autopsy. Final diagnoses from these 35 deaths were made by evaluating the scene circumstances, post-mortem, histological and toxicological findings. The post-mortem intervals
Results
The conventional hematoxylin–eosin sections demonstrate acute and partly hemorrhagic pulmonary edema, prussian blue staining some focal groups of hemosiderin-loaded macrophages in the heroin-group (four cases out of 23) (Fig. 2), as described in other studies [16] and only single hemosiderin-loaded macrophages in the cases of left ventricular heart insufficiency of the control-group. The mean numbers of IgE-expressing cells (cells/mm2) are listed in Table 2. IgE-positive cells were found in the
Discussion
A number of drugs reported to cause pulmonary edema are known and in opiates the effects appear to be dose-related in causing pulmonary edema, usually in the setting of drug overdose [17] but pulmonary edema is also reported after inhaling freebase cocaine [18], [19]. Carlson et al. suggested, that when a high content of protein is found in pulmonary edema fluid, as reported by Katz et al. in cases of heroin overdosage [13], the pulmonary microvascular membrane is damaged and edema is more
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