This study shows the buffering limitations of Krebs-Ringer-phosphate solution in the presence of acid production by dental pulp and indicates the need for appropriate selection of suspending fluid volume and tissue sample mass in reaction vessel loads.
Get full access to this article
View all access options for this article.
References
1.
Immenkamp, A. : Über den Stoffwechsel der Pulpa, Deutsch Zahnaerztl Wsch37:123-124, 1934.
2.
Pincus, P.: Some Physiological Data on the Human Dental Pulp, Brit Dent J89: 143-148, 1950.
3.
Fisher, A.K. , and Schwabe, C.: The Endogenous Respiratory Quotient of Bovine Dental Pulp, J Dent Res40:346-351, 1961.
4.
Walters, V.E. , and Fisher, A.K.: Anaerobic Glycolysis in Bovine Dental Pulp, abstracted, J Dent Res40:746, 1961.
5.
Schwabe, C., and Fisher, A.K.: The Effect of Glucose on the Respiration of Dentinogenetically Active Bovine Dental Pulp, abstracted, J Dent Res40:746, 1961.
Fisher, A.K. , and Walters, V.E.: Anaerobic Glycolysis in Bovine Dental Pulp , J Dent Res47:717-719, 1968.
8.
Fisher, A.K. , and Schwabe, C.: Respiration and Glycolysis in Bovine Dental Pulp, J Dent Res48:439-443, 1969.
9.
Shalla, C.L. , and Fisher, A.K.: Influence of Hydrogen Ion Concentration on Oxygen Consumption in Bovine Dental Pulp, J Dent Res49:1154-1158, 1970.
10.
Fisher, A.K. ; Belding, J.H.; Opinsky , J.S.; and Spinella , D.J.: The Influence of the Stage of Tooth Development on the Oxygen Quotient of Normal Bovine Dental Pulp, J Dent Res38:208-215, 1959.
