about
[Effect of differences in guide plane configuration on abutment tooth displacement during clasp insertion].Heating methods for reducing unevenness softening of mouthguard sheets in vacuum-pressure formation.Thickness and fit of mouthguards according to a vacuum-forming process.Difference in the thickness of mouthguards fabricated from ethylene-vinyl acetate co-polymer sheets with differently arranged v-shaped grooves.Formation of vacuum-formed and pressure-formed mouthguards.Pressure-forming method using a single-mouthguard sheet.Appropriate fabrication method for pressure-formed mouthguards using ethylene vinyl acetate sheets.Influence of color difference of mouthguard sheet on thickness after forming.Evaluation of reliability of perioral muscle pressure measurements using a newly developed device with a lip piece.Shape change in mouthguard sheets during thermoforming.Optimal heating condition of ethylene-vinyl acetate co-polymer mouthguard sheet in vacuum-pressure formation.Thickness of mouthguard sheets after vacuum-pressure formation: influence of mouthguard sheet material.Optimal heating condition of mouthguard sheet in vacuum-pressure formation: part 2 Olefin-based thermoplastic elastomer.Variation in mouthguard thickness according to heating conditions during fabrication Part 2: sheet shape and effect of thermal shrinkage.New fabrication method to maintain proper mouthguard thickness.Difference in pressure-formed mouthguard thickness according to heating condition.Difference in vacuum-formed mouthguard thickness according to heating condition.Variations in mouthguard thickness according to fabrication method.Differences in the thickness of mouthguards fabricated from ethylene vinyl acetate copolymer sheets with differently arranged v-shaped grooves: part 2 - effect of shape on the working model.Variation in mouthguard thickness due to different heating conditions during fabrication: part 2.Assessing change in mouthguard thickness according to the thickness of the original mouthguard sheet.Optimal heating conditions for forming a mouthguard using a circle tray: effect of different conditions on the thickness and fit of formed mouthguards.Influence of sheet material shape on the thickness and fit of mouthguards.Influence of working model angle on the formation of a pressure-formed mouthguard.Method for effectively maintaining the thickness of mouthguards fabricated using EVA sheets and a circle tray: influence of grooved sheet and heating conditions.[Selection and establishment criteria for occlusal form in complete dentures].Mouthguard sheet temperature after heatingAppropriate fabrication method for vacuum-formed mouthguardsInfluence of working model position on the formation of a pressure-formed mouthguardDifference in vacuum-formed mouthguard thickness according to timing of vacuum applicationInvestigation of vacuum forming techniques for reduction of loss in mouthguard thickness: part 2—effects of sheet grooving and thermal shrinkageThickness and fit of mouthguards adjusted by notching thermoplastic sheets under different heating conditionsThickness and fit of mouthguard according to changing the holding conditions and the heating conditions of the mouthguard sheetThickness and fit of mouthguards according to heating methodsVariation in mouthguard thickness due to different heating conditions during fabricationDifference in the thickness of mouthguards fabricated from step-type polyolefin-polystyrene copolymer sheets differently arranged v-shaped groovesA method to maintain the thickness of the mouthguard after the vacuum forming process: changes of the holding conditions of the mouthguard sheetThe influence of horizontal cephalic rotation on the deviation of mandibular position
P50
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P50
name
Kaoru Koide
@en
Kaoru Koide
@nl
type
label
Kaoru Koide
@en
Kaoru Koide
@nl
prefLabel
Kaoru Koide
@en
Kaoru Koide
@nl