The City school-tooth-clinic in Strassburg, Alsace and its activity : presented by the city of Strassburg to the visitors of the exposition ...

Also published in German as Die Städtische Schulzahnklinik in Strassburg im Elsass und ihre Tätigkeit : den Besuchern der Ausstellung überreicht von der Stadt Strassburg.

The development of an apparatus for cutting tooth structure by means of ultrasonic vibrations. research progress report.

"Project no. NM 008 015.08"

The fur-seal's tooth : a story of Alaskan adventure /

Sequel: Snow-shoes and sledges.

Snow-shoes and sledges : a sequel to The fur-seal's tooth /

Mode of access: Internet.

The tooth-ache; or, Mistakes of a morning. A petit comedy, in one act.

Performed with the greatest applause, at the theatre, Philadelphia.

Tooth Fairy Sculpture

Photograph of sculpture in courtyard of Dental School. Untitled, but known as the Tooth Fairy. Bill Barrett, 1960 MFA, sculptor. Gift in 1971 of the Dental Class of 1944. Photo creased upper left. On verso: Dental School

Salivary Gland and Tooth Abnormalities Massively Increase Caries Susceptibility in A Mouse Model of Cleft Lip/Palate

Thesis (Ph.D.)--University of Washington, 2016-04

Tooth Viability Following Distraction Osteogenesis in Patients with Maxillary Hypoplasia

Thesis (Master's)--University of Washington, 2016-06

Erosive effects of common beverages on extracted premolar teeth

Background: Dental erosion is highly prevalent today, and acidic drinks are thought to be an important cause. The aim of the present investigation was to determine the erosive potential of a range of common beverages on extracted human teeth. Methods: The beverages were tested for their individual pHs using a pH meter. The clinical effects of the most erosive beverages were determined by the degree of etching and Vickers microhardness of enamel. Results: The results showed that many common beverages have pHs sufficiently low to cause enamel erosion. Lime juice concentrate (pH 2.1) had the lowest pH, followed by Coca-cola and Pepsi (both with pH 2.3) and Lucozade (pH 2.5). The erosive potential of these beverages was demonstrated by the deep etching of the enamel after five minutes. The Vickers Hardness of enamel was reduced by about 50 per cent is the case of lime juice (p < 0.001) and 24 per cent in the case of Coca-cola (p < 0.004). Addition of saliva to 50 per cent (v/v) of Coca-cola completely reversed the erosive effects on the enamel. Conclusion: Although only a few of the beverages with the lowest pHs were tested, the present study showed that the most acidic drinks had the greatest erosive effects on enamel. While saliva was protective against erosion, relatively large volumes were required to neutralize the acidity.