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Appl Environ Microbiol. 1967 March; 15(2): 296-299
Copyright © 1967 American Society for Microbiology. All Rights Reserved.

Permeability of Oral Tissues to Blood-borne Coxsackievirus B-1

Department of Microbiology, Northwestern University Dental School, Chicago, Illinois

ABSTRACT

The ability of coxsackievirus B-1 to pass the barriers of the circulatory system into whole saliva has been shown previously. In this investigation, the major salivary glands and the oral mucosa were studied, and their role as participants in the excretion of coxsackievirus B-1 during viremia was evaluated. The effect of the salivary-gland stimulant pilocarpine nitrate on both the salivary flow rate and the recovery of virus during viremia was determined. A comparison was made between the amount of virus recovered from whole saliva during viremia in animals deficient in one or both of the major salivary-gland pairs and animals with a complete complement of salivary glands. The salivary glands in other animals were cannulated, and pure glandular secretions were collected during viremia and assayed for the presence of virus The amount of virus passing from the capillaries of the oral mucosa to the surface was also determined to evaluate this route as a possible site for the excretion of virus into saliva during viremia. The major salivary glands did not excrete appreciable quantities of virus during viremia. The submaxillary-gland secretions did not contain virus, and the parotid-gland secretions showed virus only at extremely high blood virus levels. Either removal of the major salivary glands or decreased salivary flow rates increased the concentration of virus in whole saliva. This observation suggested that the production of saliva by the major salivary glands tends to dilute the virus in the oral cavity. A 0.88-cm² sample of the oral mucosa excreted significantly large amounts of virus during viremia and suggested that the passage of virus through the oral mucosa was the major route for the excretion of virus into saliva during viremia.

¹ Present address: Microbiology Department, School of Dentistry, Loyola University, Chicago, Ill.