SouthM.A.; CooperM.D.; WollheimF.A.; HongR.; and GoodR.A.: The IgA System. I. Studies of the Transport and Immunochemistry of IgA in Saliva, J Exp Med123: 615–626, 1966.
2.
GoodR.A.: Impressions, Summary and Questions Raised by the IgA Symposium, in MestechyJ., and LawtonA.R. (eds): The Immunoglobulin A System, New York: The Plenum Press, 1974, p 520.
3.
UehlingD.T., and SteihmE.R.: Elevated Urinary Secretory IgA in Children with Urinary Tract Infection, Pediatrics, 47: 40–46, 1971.
4.
ShannonI.L.: Secretory IgA in Human Oral Fluids, J Indiana Dent Assoc, in press.
5.
JayP.; CrowleyM.; HadleyF.P.; and BuntingR.W.: Bacteriologic and Immuno-logic Studies on Dental Caries, JADA20: 2130–2148, 1933.
6.
RoseburyT.; FoleyG.; and GreenbergS.: Studies of Lactobacilli in Relation to Caries in Rats. II. Attempt to Immunize Rats on Caries-Producing Diets Against Lactobacilli, J Dent Res14: 231–232, 1934, abstract.
7.
FitzgeraldR.J., and KeyesP.H.: Attempted Immunization of Albino Hamsters Against Induced Dental Caries, abstracted, IADR Program and Abstracts of Papers, No. 40, 1962.
8.
TaubmanM.A.: Role of Immunization in Dental Disease, in MergenhagenS.E., and ScherpH.W. (eds): Comparative Immunology of the Oral Cavity, DHEW Publication No. (NIH) 73-438, 1973, pp 138–158.
9.
EmmingsF.G.; EvansR.T.; and GencoR.J.: Induction of Salivary IgA Antibody to S mutans in Macaca irus, J Dent Res (Special Issue): Abstract No. 517, 1974.
10.
ShannonI.L.; FellerR.P.; and SuddickR.P.: Light Deprivation and Parotid Flow in the Human, J Dent Res51: 1642–1645, 1972.
11.
ShannonI.L., and SuddickR.P.: Effects of Light and Darkness on Human Salivary Flow Rate and Chemical Composition, Arch Oral Biol18: 601–608, 1973.
12.
WurtmanR.J.; AxelrodJ.; and KellyD.E.: The Pineal, New York: Academic Press, 1968, pp 108, 109.
13.
MooreR.Y., and SmithR.A.: Postnatal Development of a Norepinephrine Response to Light in the Rat Pineal and Salivary Glands, Neuropharmacology10: 315–323, 1971.
14.
TaylorA.N., and WilsonR.W.: Electro-physiological Evidence for the Action of Light on the Pineal Gland in the Rat, Experientia26: 267–269, 1970.
15.
ShannonI.L.: Response of the Human Submaxillary Gland to Light and Darkness, unpublished manuscript.
16.
HoltzgreveH.; MartinezJ.R.; and VogelA.: Micropuncture and Histologic Study of Submaxillary Glands of Young Rats, Pfluegers Arch290: 134–143, 1966.
17.
MangosJ.A., and BraunG.: Micropuncture Study of the Rat Parotid Gland, in RossiE., and StrollE. (eds): Moderne Probleme der Paediatrie, Vol 10, Basel, Switzerland: S. Karger Press, 1967, pp 107–117.
18.
MancosJ.A., and BraunG.: Excretion of Total Solute, Sodium and Potassium in the Saliva of the Rat Parotid Gland, Pfluegers Arch290: 184–192, 1966.
19.
MartinC.J., and YoungJ.A.: A Micropuncture Investigation of the Effects of Sympathomimetic and a Parasympathomimetic Drug on Water and Electrolyte Fluxes in the Main Excretory Duct of the Submaxillary Gland, Pfluegers Arch327: 303–323, 1971.
20.
MartinezJ.R.: Water and Electrolyte Secretion by Submaxillary Gland, in BotelhoS.Y.; BrooksF.P.;, and ShelleyW.B. (eds): Exocrine Glands, Philadelphia: University of Pennsylvania Press, 1969, pp 20–30.
21.
MartinezJ.R.: Action of Ouabain on Sub-maxillary Secretion in the Dog, J Pharmacol Exp Ther178: 616–624, 1971.
22.
MartinezJ.R.; HoltzgreveH.; and FrickA.: Micropuncture Study of Submaxillary Glands of Adult Rats, Pfluegers Arch290: 124–133, 1966.
23.
MartinezJ.R., and UllrichK.J.: Micro-puncture Studies of Rat Submaxillary Gland, in DiSant'Agnese Research on Pathogenesis of Cystic Fibrosis, Bethesda, Md.: National Institute of Arthritis and Metabolic Diseases, 1964, pp 129–135.
24.
SchogelE., and YoungJ.A.: Micropuncture and Perfusion Investigation of Sodium and Potassium Transport in the Rat Submaxillary Gland, J Physiol (Lond)183:73–75, 1966.
25.
YoungJ.A.: Microperfusion Investigation of Chloride Fluxes Across the Epithelium of the Main Excretory Duct of the Rat Submaxillary Gland, Pfluegers Arch303: 366–374, 1968.
26.
YoungJ.A.; FromterE.; and SchogelE.: Electrolyte Fluxes and Potential Differences in the Main Excretory Duct of the Rat Sub-maxillary Gland, Pfluegers Arch289: 81, 1966.
27.
YoungJ.A.; FromterE.; SchogelE.; and HammanK.F.: Micropuncture and Perfusion Studies of Fluid and Electrolyte Transport in the Rat Submaxillary Gland, in SchneyerL.H., and SchneyerC.A. (eds): Secretory Mechanisms of Salivary Glands, New York: Academic Press, 1967, pp 11–31.
28.
YoungJ.A.; FromterE.; SchogelE.; and HammanK.F.: A Microperfusion Investigation of Sodium Readsorption and Potassium Secretion by the Main Excretory Duct of the Rat Submaxillary Gland, Pfluegers Arch295: 157–172, 1967.
29.
YoungJ.A.; FromterE.; SchogelE.; and HammanK.F.: Micropuncture and Perfusion Investigation of Active Sodium and Potassium Transport in the Rat Submaxillary Gland, Bulletin of the Post-Graduate Committee in Medicine, University of Sydney523: 181–198, 1967.
30.
YoungJ.A., and MartinJ.C.: Effects of Sympatho- and Parasympathomimetic Drugs on the Electrolyte Concentration of Primary and Final Saliva in the Rat Submandibular Gland, Pfluegers Arch327: 285–302, 1971.
31.
YoungJ.A., and SchogelE.: Micropuncture Investigation of Sodium and Potassium Excretion in Rat Submaxillary Saliva, Pfluegers Arch291: 85–98, 1966.
32.
JanowitzH.D.: Pancreatic Secretion of Fluid and Electrolytes, in CodeC.F., and HeidelW. (eds): Handbook of Physiology, section 6: Alimentary Canal, Vol 2: Secretion, Baltimore: Williams and Wilkins, 1967, p 925.
33.
PittsR.F.: Physiology of the Kidney and Body Fluids, Chicago: Yearbook Publishers, 1966, p 94.
34.
HokinL.E.: Effects of Calcium Omission on Acetylcholine Stimulated Amylase Secretion and Phospholipid Synthesis in Pidgeon Pancreas Slices, Biochim Biophys Acta115: 219–221, 1966.
35.
DunsonW.A.: Reptilian Salt Glands, in BotelhoS.Y.; BrooksF.P.;, and ShelleyW.B. (eds): Exocrine Glands, Philadelphia: University of Pennsylvania Press, 1969, pp 83–101.
36.
HendryE.B.: Osmolarity of Human Serum and of Chemical Solutions of Biologic Importance, Clin Chem7: 156–164, 1961.
37.
ShannonI.L., and SegretoV.A.: Variability in Human Parotid Fluid Osmolality, Specific Gravity, Amylase, Acid Phosphatase, and Glucose, USAF School of Aerospace Medicine Technical Report 68-3, 1968.
38.
ShannonI.L.; SuddickR.P.; and ChaunceyH.H.: Effect of Atropine-Induced Flow Rate Depression on the Composition of Unstimulated Human Parotid Fluid, Arch Oral Biol14: 761–770, 1969.
39.
ShannonI.L., and SuddickR.P.: Effects of Light and Darkness on Human Parotid Salivary Flow Rate and Chemical Composition, Arch Oral Biol18: 601–608, 1973.
40.
SuddickR.P.: Does Transepithelial Hydro-static Pressure Provide Energy for Fluid Secretion?, in HanS.S.; SreebnyL.;, and SuddickR.P. (eds): Symposium on the Mechanism of Exocrine Secretion, Ann Ar-bor: University of Michigan Press, 1973.
41.
SuddickR.P.; DowdF.J.; and ShannonI.L.: Effects of Arterial and Venous Occlusion on Submaxillary Gland Secretion in Rats, Arch Oral Biol16: 509–516, 1971.
42.
ShannonI.L.; SuddickR.P.; and DowdF.J.: Saliva: Composition and Secretion (Monograph in Oral Science), Basel, Switzerland: S. Karger Press, 1974, pp 1–103.
