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Fluorine mapping in sound and carious fissures of human teeth using PIGE

2005; Elsevier BV; Volume: 231; Issue: 1-4 Linguagem: Inglês

10.1016/j.nimb.2005.01.074

1872-9584

Hiroko Yamamoto, M. Nomachi, Keisuke Yasuda, Y Iwami, S. Ebisu, Takuro Sakai, M. Fukuda,

Radiation Shielding Materials Analysis

By using the PIGE technique at JAERI Takasaki, we measured fluorine (F) distribution in a micro area of occlusal fissures in the enamel of human teeth. The fissures were classified into three groups: Group I, no caries; Group II, incipient caries; Group III, advanced caries. The extracted teeth were embedded in epoxy resin and cut along the longitudinal axis through the fissures. The F concentration in the fissure at the cut surface was measured. A 1.7 MeV proton beam accelerated by the TIARA single-ended accelerator was delivered to a micro-beam apparatus. The beam spot size was about 1 μm with a beam current of about 100 pA. A nuclear reaction, 19F (p,αγ)16O, was used to measure the F concentration and gamma-rays from this reaction were detected with a 4″ NaI(Tl) detector. X-rays induced by proton were detected with a Ge detector to measure calcium concentration and the beam intensity was monitored with the X-ray yield from a copper foil for quantitative analysis. The obtained results were shown as two-dimensional mapping. In all specimens, an F concentration was observed around the fissure. The F concentration varied depending on the location of the fissure and decreased towards the inner part of the tooth. The maximum F concentration values in the measured area ranged from 3500–11700 ppm (mean = 6000 ppm) in Group I, 2400–10700 ppm (mean = 6300 ppm) in Group II, and 5200–16900 ppm (mean = 9300 ppm) in Group III. Although high F concentrations tended to be measured in the carious fissures, high values were also recognized in the sound fissures. More studies are necessary to clarify the relationship between F and carious lesions.