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| 2544 |
9:00 AM | Effect of Milk in an Experimental Dental Biofilm on Demineralization
W.H. ARNOLD1, S. FORER1, J. HEESEN1, K. YUDOVICH2, D. STEINBERG3, and P. GAENGLER4, 1University of Witten/Herdecke, Germany, 2Hospital Pulido Valente, Jerusalem, Israel, 3Hebrew University - Hadassah School of Medicine, Jerusalem, Israel, 4University of Witten, Germany |
| 2545 |
9:15 AM | An in vitro De/Remineralization Model Demonstrates Excellent Fluoride Dose Response
M.L. RAPOZO-HILO1, J.D.B. FEATHERSTONE1, and A.M. PFARRER2, 1University of California - San Francisco, USA, 2Proctor and Gamble Company, Mason, OH, USA |
| 2546 |
9:30 AM | In Vitro Human Enamel Remineralization Using Bioactive Glass Containing Dentifrice
S.S. ALAUDDIN1, D. GREENSPAN2, K.J. ANUSAVICE1, and J. MECHOLSKY1, 1University of Florida, Gainesville, USA, 2U.S. Biomaterials Corp, Alachua, FL, USA |
| 2547 |
9:45 AM | Wet/dry nanomechanical properties and mineral content of dentin carious lesions
M. BALOOCH, L. ZHENG, J. STROTHER, S.P. HO, S.J. MARSHALL, and G.W. MARSHALL, University of California - San Francisco, USA |
| 2548 |
10:00 AM | Development of an in vitro Bovine Enamel pH-cycling Model
A. JENSEN1, S. TODA2, M. RAPOZO-HILO1, and J.D.B. FEATHERSTONE1, 1University of California - San Francisco, USA, 2Kanagawa Dental College, Yokosuka, Japan |
| 2549 |
10:15 AM | Nanoscale Mechanical and Chemical Mapping of Artificial Caries-like Lesions
M.E. DICKINSON1, K.V. WOLF2, and A.B. MANN1, 1Rutgers University, Piscataway, NJ, USA, 2Evans East, East Windsor, NJ, USA |
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