Allergists are becoming increasingly concerned with the action of air pollutants on allergic individuals. Allergic respiratory illness, especially bronchial asthma, is frequently initiated or aggravated by air-borne pollutants. Such agents as isocyanates, beryllium, and metamines are known to exhibit allergenic properties. Others merely tend to irritate the respiratory mucosa. Some atmospheric pollutants cause symptoms which mimic allergic respiratory disseases. Nickel, chromium and formaldehyde present in the atmosphere play an important role in allergic contact dermatitis. Their possible effect in the production of atopic eczema and of urticaria has not as yet been adequately explored. In view of these facts, a review of the mode of action of the principal air pollutants is warranted. To this end the author’s new classification of atmospheric intoxicants based on their effect on human health will be utilized. Usually pollutants are described in alphabetical order as, for instance, in the classical books by Stern1 and Patty2. Other authors have dealt with pollutants on the basis of their prevalence in the atmosphere. Some have distinguished between pollutants whose source is moving and stationary, or between particulates and gases. The National Air Pollution Network, N.A.P.C.A., refers to four groups : “Elements”, LLRadicals”, “Others”, and “Gases” 3. Schroeder4 classifies the metals most commonly involved in pollution “Essential”, Nonessential”, those of “Low Toxicity” and “Innately Poisonous Metals” *. Such cataloging may be useful for certain purposes, particularly for establishing measures for emission control. However, the physician who is eager to acquire knowledge about the health effects of a particular air pollutant may be at a loss to determine which organs are the target of that pollutant. The following classification is presented in an attempt to bridge this gap. Factors Determining Health Effects The kind and degree of damage to human health induced by an air pollutant, whether acute or chronic, reversible or irreversible, systemic or localized, is influenced by numerous factors which pertain either to the pollutant itself or to the human host. With respect to the pollutant, its toxic or irritant properties, its concentration in the atmosphere, its size and shape, it solubility, and its tendency to interact with other airborne agents must be taken into account. Significant factors which pertain to the human host are his constitutional background, the degree of his inherited or acquired resistance, his state of
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