D G Stone scite author profile

D G Stone

4Publications

68Citation Statements Received

53Citation Statements Given

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120

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Northwestern University

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High and low torque handpieces: cutting dynamics, enamel cracking and tooth temperature

Watson¹,

Flanagan²,

Stone³

2000

Br Dent J

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Objective The aim of these experiments was to compare the cutting dynamics of high-speed high-torque (speed-increasing) and high-speed low-torque (air-turbine) handpieces and evaluate the effect of handpiece torque and bur type on sub-surface enamel cracking. Temperature changes were also recorded in teeth during cavity preparation with high and low torque handpieces with diamond and tungsten carbide (TC) burs. The null hypothesis of this study was that high torque handpieces cause more damage to tooth structure during cutting and lead to a rise in temperature within the pulp-chamber. Materials and methods Images of the dynamic interactions between burs and enamel were recorded at video rate using a confocal microscope. Central incisors were mounted on a specially made servomotor driven stage for cutting with a type 57 TC bur. The two handpiece types were used with simultaneous recording of cutting load and rate. Sub-surface enamel cracking caused by the use of diamond and TC burs with high and low torque was also examined. Lower third molars were sectioned horizontally to remove the cusp tips and then the two remaining crowns cemented together with cyanoacrylate adhesive, by their flat surfaces. Axial surfaces of the crowns were then prepared with the burs and handpieces. The teeth were then separated and the original sectioned surface examined for any cracks using a confocal microscope. Heat generation was measured using thermocouples placed into the pulp chambers of extracted premolars, with diamond and TC burs /high-low torque handpiece variables, when cutting occlusal and cervical cavities. Results When lightly loaded the two handpiece types performed similarly. However, marked differences in cutting mechanisms were noted when increased forces were applied to the handpieces with, generally, an increase in cutting rate. The air turbine could not cope with steady heavy loads, tending to stall. 'Rippling' was seen in the interface as this stall developed, coinciding with the bur 'clearing' itself. No differences were noted between different handpieces and burs, in terms of sub-surface enamel cracking. Similarly, no differences were recorded for temperature rise during cavity preparation. Conclusions Differences in cutting mechanisms were seen between handpieces with high and low torque, especially when the loads and cutting rates were increased. The speed increasing handpiece was better able to cope with increased loading. [1][2][3] are being advocated for the removal of dental hard tissue during cavity preparation, it seems probable that the use of rotary instruments will continue for some considerable time. Practising dentists routinely use rotary cutting instruments, but seldom question the mechanisms of cutting that are central to their use. Since the introduction of hand-driven rotary dental instruments in 1728 there has been a quest for ever greater cutting efficiency. This has usually been achieved by increasing rotational speeds, but at the cost of reduced torque. Air driven turbines will generally ha...

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Microtensile bond strengths to enamel of self‐etching and one bottle adhesive systems

Pilecki¹,

Stone²,

Sherriff³

et al. 2005

J of Oral Rehabilitation

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Long-term Durability of One-step Adhesive-composite Systems to Enamel and Dentin

Foxton

Melo

Stone³

et al. 2008

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SUMMARYThis study evaluated the long-term durability of three one-step adhesive-composite systems to ground enamel and dentin. Twenty-seven teeth were randomly divided into three groups of nine. The first group had its crowns sectioned to expose superficial dentin, which was then ground with 600 grit SiC paper. One of three onestep adhesives: a trial bonding agent, OBF-2; i Bond or Adper Prompt L-Pop was applied to the dentin of three teeth and built-up with the corresponding resin composite (Estelite Σ, Venus or Filtek Supreme). The second group of nine teeth had their enamel approximal surfaces ground with wet 600-grit SiC paper, then one of the three one-step adhesives was applied and built-up with resin composite. The bonded specimens were sliced into 0.7 mm-thick slabs. After 24 hours and one year of water storage at 37°C, the slabs were sectioned into beams for the microtensile bond strength test. Failure modes were observed using optical and electron scanning microscopy. The third group of nine teeth had approximal wedgeshaped cavities prepared above the CEJ intoResin-enamel and resin-dentin bonds formed by one-step adhesive-composite systems from the same manufacturer were not hydrolytically stable after accelerated aging in water. Operative Dentistry dentin. Two-to-three grains of rhodamine B were added to each of the three adhesives prior to restoring the cavities with resin composite. After 24 hours storage, the teeth were sectioned and their interfaces examined with a laser scanning confocal microscope. The bond strengths of the three adhesive-composite systems to both enamel and dentin significantly lessened after one year of water storage, however, there was no significant difference between the materials.

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Properties and characteristics of a resin die material

Moser

Stone

Willoughby

1975

The Journal of Prosthetic Dentistry

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D G Stone

High and low torque handpieces: cutting dynamics, enamel cracking and tooth temperature

Microtensile bond strengths to enamel of self‐etching and one bottle adhesive systems

Long-term Durability of One-step Adhesive-composite Systems to Enamel and Dentin

Properties and characteristics of a resin die material

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