Hard-tissue Substrates for Evaluation of Cariogenic and Anti-cariogenic Activity in situ

Hard-tissue substrates include primarily human and bovine enamel and human dentin. They have been used for in situ studies in a natural or sound condition, as well as flattened or containing an in vitro-formed caries-like lesion. Human enamel and dentin are generally the substrates of choice for studies of coronal and root-surface caries, respectively, but bovine enamel appears to offer a suitable alternative for many studies of enamel caries. Substrates with caries-like lesions will respond more rapidly to changes in the intra-oral mineral equilibrium and will allow both demineralization and remineralization to be determined. Findings from some studies suggest that caries-like lesions may respond somewhat differently, depending upon the degree of mineralization of the surface layer. Because in vitro findings with dentin show it to be significantly more soluble in acid than enamel, results from a study that used dentin may not be directly applicable to enamel. Both enamel and dentin substrates can be used in thin-section models. Hard-tissue substrates can also differ, depending upon their intra-oral location. Locations that result in the accumulation of plaque will behave differently from those that are plaque-free. So that plaque would accumulate, substrates have been placed approximally, beneath a fabric or steel mesh, in a protected trough, beneath a metal band or within a depression on the buccal surface. For studies requiring a determination of both demineralization and remineralization, human enamel or dentin containing a surface-softened caries-like lesion and covered with a uniform natural plaque are the substrates of choice.

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Viability of using enamel and dentin from bovine origin as a substitute for human counterparts in an intraoral erosion model

Brazilian Dental Journal ◽

10.1590/s0103-64402010000400008 ◽

2010 ◽

Vol 21 (4) ◽

pp. 332-336 ◽

Cited By ~ 25

Author(s):

Cecilia Pedroso Turssi ◽

Danielle Furtado Messias ◽

Silmara Milori Corona ◽

Mônica Campos Serra

Keyword(s):

Mineral Water ◽

Real Life ◽

Dental Erosion ◽

Human Enamel ◽

Erosion Models ◽

Human Counterpart ◽

Real Life Situation ◽

Root Dentin ◽

Bovine Enamel

This study ascertained whether under dental erosion models that closely mimics the real-life situation enamel and root dentin from bovine origin would be reliable substitutes for human counterparts. Through a 2x2 crossover design, in a first trial, 14 volunteers wore a palatal device containing slabs of bovine and human enamel. Half of the participants ingested (4x daily, for 10 days) orange juice first, crossing over to mineral water, while the remainder received the reverse sequence. In a second trial, volunteers wore devices with slabs of bovine and human root dentin. Except for the duration of each intraoral phase, which lasted 2 rather 10 days, the experiment with root dentin run exactly as for enamel. Dental substrates were analyzed for surface microhardness. Two-way ANOVAs (α=0.05) indicated no difference between the microhardness values recorded for human and bovine enamel (p=0.1350), but bovine root dentin had lower microhardness compared to its human counterpart (p=0.0432). While bovine enamel can reliably substitute its human counterpart in in situ dental erosion models, bovine root dentin does not seem to be a viable alternative to the corresponding human tissue.

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1.14 Structure Determination of Macromolecular Complexes by Cryo-Electron Microscopy in vitro and in situ

Comprehensive Biophysics ◽

10.1016/b978-0-12-374920-8.00118-1 ◽

2012 ◽

pp. 245-276

Author(s):

F. Förster ◽

E. Villa ◽

D. Thomas ◽

A. Korinek ◽

W. Baumeister

Keyword(s):

Electron Microscopy ◽

Structure Determination ◽

Macromolecular Complexes ◽

Cryo Electron Microscopy

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Intra-oral Models: Comparison of in situ Substrates

Journal of Dental Research ◽

10.1177/002203459207100s26 ◽

1992 ◽

Vol 71 (3_suppl) ◽

pp. 920-923 ◽

Cited By ~ 14

Author(s):

B. øgaard ◽

G. Rølla

Keyword(s):

Clinical Effects ◽

Hard Tissue ◽

In Vivo Models ◽

Caries Model ◽

Models Comparison ◽

Risk Patients ◽

Oral Conditions ◽

Bovine Enamel

Numerous intra-oral caries models have been designed for clinical and mechanistic purposes. Several factors—such as human vs. bovine enamel, sound vs. demineralized tissues, lesion type, dentin vs. enamel, the severity of the cariogenic challenge, and the microflora—may influence the reactivity of the hard tissue and hence lesion development and progression. Some models use unextracted teeth and are true in vivo models, whereas in situ models are based on hard-tissue substrates in the form of slabs or sections. Models producing a moderate cariogenic challenge usually show a fluoride dose response. However, caries is increasingly becoming a problem limited to some high-risk patients and to lesions located to areas where severe challenges exist (e.g., fissures and pits). There is thus need for models that could mimic such situations. One of the requirements for intra-oral models producing severe cariogenic challenge conditions should probably be that it should be able to demineralize fluorapatite. A challenge for future caries research is to develop agents that have a better clinical effect in fissures and pits than those presently available. Because, in the past, much emphasis has been placed on remineralization of artificial lesions, more research on the demineralization process should be performed in the future, since this may give improved clinical effects. Ideally, an intra-oral caries model should take into account as many of the natural oral conditions as possible and minimize the degree of artificiality.

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Electroretinographic Determination of Spectral Sensitivity in Albino and Pigmented Brook Trout (Salvelinus fontinalis, Mitchill)

Canadian Journal of Physiology and Pharmacology ◽

10.1139/y71-146 ◽

1971 ◽

Vol 49 (12) ◽

pp. 1030-1037 ◽

Cited By ~ 7

Author(s):

H. Kobayashi ◽

M. A. Ali

Keyword(s):

Absorption Spectrum ◽

Spectral Sensitivity ◽

Brook Trout ◽

Salvelinus Fontinalis ◽

Narrow Band ◽

Visible Spectrum ◽

The Difference

A technique for recording electroretinograms from the unpunctured eyes in situ of living, anesthetized fish is described. This technique permits the use of the same fish in a number of experiments over a period of weeks, months, or years. Using this technique the spectral sensitivity of dark-adapted (scotopic) and light-adapted (photopic) fish was measured at 13 bands of the visible spectrum. The scotopic curves of albino and pigmented trout thus obtained in the winter have their maxima around 525 nm which differ from that of the absorption spectrum of the scotopic pigment in situ and in vitro of older fish obtained in the summer. The photopic curve of the pigmented fish is a broad one with humps around 425 nm, 545 nm, and 595 nm. The albino's curve has a relatively narrow band with a peak around 630 nm and a shoulder at about 550 nm. The difference between the shapes of the two curves may be ascribed to the increase in the intensity of light of longer wavelengths within the eyeball of the albino, due to reflection from blood vessels and sclera caused by the absence of pigmentation.

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Determination of mosquito bloodmeal pH in situ by ion-selective microelectrode measurement: implications for the regulation of malarial gametogenesis

Parasitology ◽

10.1017/s0031182099005946 ◽

2000 ◽

Vol 120 (6) ◽

pp. 547-551 ◽

Cited By ~ 38

Author(s):

O. BILLKER ◽

A. J. MILLER ◽

R. E. SINDEN

Keyword(s):

Xanthurenic Acid ◽

Mosquito Vector ◽

Dependent Manner ◽

Ph Increase ◽

Ph Range ◽

Dose Dependent

Malarial gametocytes circulate in the peripheral blood of the vertebrate host as developmentally arrested intra-erythrocytic cells, which only resume development into gametes when ingested into the bloodmeal of the female mosquito vector. The ensuing development encompasses sexual reproduction and mediates parasite transmission to the insect. In vitro the induction of gametogenesis requires a drop in temperature and either a pH increase from physiological blood pH (ca pH 7·4) to about pH 8·0, or the presence of a gametocyte-activating factor recently identified as xanthurenic acid (XA). However, it is unclear whether either the pH increase or XA act as natural triggers in the mosquito bloodmeal. We here use pH-sensitive microelectrodes to determine bloodmeal pH in intact mosquitoes. Measurements taken in the first 30 min after ingestion, when malarial gametogenesis is induced in vivo, revealed small pH increases from 7·40 (mouse blood) to 7·52 in Aedes aegypti and to 7·58 in Anophěles stephensi. However, bloodmeal pH was clearly suboptimal if compared to values required to induce gametogenesis in vitro. Xanthurenic acid is shown to extend the pH-range of exflagellation in vitro in a dose-dependent manner to values that we have observed in the bloodmeal, suggesting that in vivo malarial gametogenesis could be further regulated by both these factors.

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In Vitro Studies of the Calculus-Inhibiting Properties of Tooth Surface Polishing Agents and Chelating Agents

Journal of Dental Research ◽

10.1177/00220345710500042901 ◽

1971 ◽

Vol 50 (4) ◽

pp. 966-975 ◽

Cited By ~ 8

Author(s):

George P. Barnes ◽

George K. Stookey ◽

Joseph C. Muhler

Keyword(s):

Chelating Agents ◽

Magnesium Silicate ◽

In Vitro Studies ◽

Tooth Surface ◽

Surface Polishing ◽

Zirconium Silicate ◽

Human Dentin ◽

Calculus Formation ◽

Bovine Enamel

A series of in vitro studies was conducted to determine the effects of flour of pumice, magnesium silicate-zirconium silicate, and zirconium silicate on the deposition of calculuslike material on bovine enamel sections or human dentin-cementum sections. Flour of pumice used as a "prophylaxis type" agent did not have any effect on the deposition of calculuslike material. Zirconium silicate used as a prophylactic agent on bovine enamel reduced in vitro calculus formation by 32.0 to 38.0%. Daily rinses with a 5.0% aqueous solution of an amidopolyphosphate reduced calculus formation significantly on bovine enamel by 57.0 to 68.2% when compared with nontreated enamel sections.

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