Establishment of Cryosectioning Method and Histochemical Localization Analysis of Volatile Oil and Coumarin Components of Ferula ferulaeoides / 中国实验方剂学杂志

ObjectiveTo establish the frozen section method of Ferula ferulaeoides， and to study the histochemical localization of volatile oil and coumarins in different organs of F. ferulaeoides. MethodThe roots， stems， petioles and leaves of F. ferulaeoides were used as materials to investigate the concentration of sucrose protectant， liquid nitrogen flash-freezing time， embedding conditions， section thickness， freezing temperature and time and post-treatment methods， the most suitable section conditions were screened by comparing the integrity， microscopic effect， elongation and clarity of frozen sections. Sudan Ⅳ staining method and fluorescence microscopy were used to locate the volatile oil and coumarins of F. ferulaeoides. ResultThe optimal conditions for frozen sections of the roots， stems， petioles and leaves of F. ferulaeoides were as follows：10%， 15% and 20% gradient sucrose as the protectant for roots， 10%， 20% and 30% gradient sucrose as the protectant for stems and petioles， 20%， 25% and 30% gradient sucrose as the protectant for leaves， glue-water （2∶1） as the embedding agent， quick-freeze in liquid nitrogen for 20 s， warmed up at -25 ℃ for 30 min， sliced at -20 ℃ with the thickness of 25 μm， rinsed with the same concentration of sucrose solution （gradient sucrose solution selected the last concentration）， and the slices placed on the ice pack for a period of time and stored at room temperature. Among them， the concentration of sucrose protectant was the most important factor. The results of histochemical localization showed that volatile oil and coumarins in four organs of F. ferulaeoides were mainly distributed in resin canal. ConclusionFrozen section of F. ferulaeoides is established for the first time with high rate of slicing and simplified steps， its volatile oil and coumarins are mainly accumulated in resin canal.

A comparative study on the canal configuration after shaping by ProFile, ProTaper(TM) and K-Flexofile in simulated canals with different angles of curvature / 대한치과보존학회지

The purpose of this study was to evaluate the canal configuration after shaping by ProFile, ProTaper and K-Flexofile in simulated resin canals with different angles of curvature. Three types of instruments were used : ProFile, ProTaper, K-Flexofile. Simulated root canals, which were made of epoxy resin, were prepared by ProFile, ProTaper with rotary instrument using a crown-down pressureless technique, and hand instrumentation was performed by K-Flexofile using a step-back technique. All simulated canals were prepared up to size 25 file at end-point of preparation. Pre and post instrumentation images were recorded with Scanner. Assessment of canal shape was completed with Image Analysis program. Measurements were made at 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10 mm from the apex. At each level, outer canal width, inner canal width, total canal width, and amount of transportation from original axis were recorded. Instrument deformation and fracture were recorded. Data were analyzed by means of one-way ANOVA analysis of variance and the Sheffe's test. The result was that ProFile and ProTaper maintain original canal shape regardless of the increase of angle of curvature than K-Flexofile. ProFile show significantly less canal transportation and maintained original canal shape better than ProTaper.

A comparative study of the canal configuration after shaping by protaper rotary and hand files in resin simulated canals / 대한치과보존학회지

The purpose of this study was to compare the canal configuration after shaping by ProTaper rotary files and ProTaper hand files in resin simulated canals. Forty resin simulated canals with a curvature of J-shape and S-shape were divided into four groups by 10 blocks each. Simulated root canals in resin block were prepared by ProTaper rotary files and ProTaper hand files using a crown-down pressureless technique. All simulated canals were prepared up to size #25 file at end-point of preparation. Pre- and post-instrumentation images were recorded with color scanner. Assessment of canal shape was completed with an image analysis program. Measurements were made at 0, 1, 2, 3, 4, 5, 6 and 7 mm from the apex. At each level, outer canal width, inner canal width, total canal width, and amount of transportation from original axis were recorded. Instrumentation time was recorded. The data were analyzed statistically using independent t-test. The result was that ProTaper hand files cause significantly less canal transportation from original axis of canal body and maintain original canal configuration better than ProTaper rotary files, however ProTaper hand files take more shaping time.