Shohei Higashi scite author profile

Using human permanent teeth, structural and distribution patterns of the surface ‘prismless’ enamel with the occasional presence of indistinct and/or stunted prism structures were investigated by scanning electron microscopy. The ‘prismless’ enamel was classified into three shapes: step-like, occurring in mid-coronal enamel; band-like, frequently seen in occlusal and fissure enamel, and island-like, found in occlusal and cuspal-coronal enamel. These three ‘prismless’ shapes were formed by two structural patterns. One was determined by prisms which gradually changed into ‘prismless’ structures via indistinct and stunted prisms (prism-dependent; P type), and another, probably a variance of the P type, was characterized by prisms which abruptly changed into ‘prismless’ structures on the incremental lines of Retzius or the fine laminated striations (Retzius-dependent; R type). The P type pattern clearly forming the band and island-like shapes was found in occlusal and cuspal-coronal enamel, whereas the R type pattern forming some of the band-like shapes as well as the step-like shapes might be observed in almost all surface enamel.

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Dentin resorption mediated by odontoclasts in physiological root resorption of human deciduous teeth

Sasaki

Motegi

Suzuki

et al. 1988

Am. J. Anat.

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Extracted human deciduous teeth undergoing physiological root resorption were fixed with a mixture of formaldehyde and glutaraldehyde and processed for scanning (SEM) and analytical transmission electron microscopy, as well as acid trimetaphosphatase cytochemistry. The granulated tissues, which are rich in multinucleated odontoclasts and capillary vessels, formed various resorption lacunae on the resorbing dentin surfaces. SEM observations of dentin surfaces treated with sodium hypochlorite revealed two types of resorption lacunae: deep, round lacunae in which the peritubular matrix of dentinal tubules was strongly dissolved; and shallow, irregular lacunae with intact peritubular matrix. In trypsin-treated materials, the resorption surfaces were characterized by the presence of numerous collagen fibers in both the peritubular and intertubular matrices, suggesting demineralization of the surface dentin. Odontoclasts were characterized by the presence of abundant mitochondria, perinuclear stacks of Golgi membranes, various lysosomes, numerous endocytotic vacuoles, and a well-developed ruffled border against the resorption lacunae. Most endocytotic vacuoles were distributed in the cytoplasm between the ruffled border and the nuclei. In undemineralized ultrathin sections, the surface dentin of resorption lacunae consisted of collagen fibers and apatite crystals and had a lower packing density than those in unresorbed, deeper dentin. Many apatite crystals were demonstrated to be present in the extracellular channels of the ruffled border and in adjacent endocytotic vacuoles derived from it. Lysosomes located in the perinuclear cytoplasm of odontoclasts contained amorphous dense material and/or a small amount of crystals. An energy-dispersive x-ray microanalysis of apatite crystals in undemineralized sections indicated that the energy spectrum peaks of Ca and P detected from crystals in resorbing dentin were much lower than those in unresorbed dentin. Similarly, lower spectrum peaks of Ca and P were obtained from crystals found in the ruffled border and endocytotic vacuoles of odontoclasts. A slight trace Ca peak also was detected in the amorphous dense material in lysosomes of odontoclasts. The enzyme cytochemistry of lysosomal acid trimetaphosphatase indicated that odontoclasts had intense enzymatic activity in the Golgi membranes, endoplasmic reticulum cisternae, lysosomes, and endocytotic vacuoles. Dense reaction precipitates of enzymatic activity also were found along the dentin surfaces of resorption lacunae occupied by odontoclast ruffled borders.(ABSTRACT TRUNCATED AT 400 WORDS)

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Multinucleated cells formed on calcified dentine from mouse bone marrow cells treated with 1α,25‐dihydroxyvitamin D₃ have ruffled borders and resorb dentine

et al. 1989

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Osteoclast-like multinucleated cells were formed from mouse bone marrow mononuclear cells, and their morphology on coverslips and on calcified dentine slices was compared by means of transmission electron microscopy. Addition of 1 alpha,25-dihydroxyvitamin D3 [1 alpha,25(OH)2D3] to bone marrow cells cultured on coverslips greatly stimulated the formation of multinucleated cells within 8 days. These multinucleated cells had the cytological features of osteoclasts (abundant pleomorphic mitochondria, a large number of vacuoles and lysosomes, many stacks of Golgi membranes, and an extensive canalicular system), but they developed neither ruffled borders nor clear zones. The multinucleated cells appeared to result from direct fusion of mononuclear progenitor cells, whose structural features were similar to those of multinucleated cells. Like isolated osteoclasts, both multinucleated cells and their precursors exhibited an intense reaction for tartrate-resistant acid phosphatase (TRACP) in the cisterns of endoplasmic reticulum and lysosomes. Multinucleated cells formed from alveolar macrophages in the presence of 1 alpha,25(OH)2D3 were totally negative for TRACP reaction. When marrow cells were cultured on dentine slices in the presence of 1 alpha,25(OH)2D3, some of the multinucleated cells were located in the shallow resorption lacunae of dentine surfaces, and they developed the characteristic ruffled borders and clear zones. The narrow extracellular spaces of the ruffled borders, the adjacent pale endocytotic vacuoles, and the dark lysosomes located in the perinuclear cytoplasm of the multinucleated cells contained numerous apatite crystals delete in resorption lacunae. These results indicate that 1) the multinucleated cells formed on coverslips from mouse marrow cells treated with 1 alpha,25(OH)2D3 exhibit non-functional basic features of osteoclast morphology, and 2) differentiation of the multinucleated cells into functional osteoclasts requires some components of calcified dentine.

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Structure of the So-Called ‘Prismless’ Enamel in Human Deciduous Teeth

Kodaka

Nakajima

Higashi³

1989

Caries Res

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The surface enamel of human deciduous teeth showing a more negative birefringence by polarized light was investigated by differential interference contrast microscopy and by scanning electron microscopy (SEM) following EDTA etching. Though this surface enamel has been generally called the ‘prismless’ enamel, in this study, the so-called ‘prismless’ enamel was categorized into ‘false’, ‘moderate’, ‘essential’ and ‘complex’ types according to whether they took the form of distinct prisms which bended at the subsurface, indistinct circularly based prisms or not. Based on the SEM observations some types of the ‘prismless’ enamel showed parallel crystallites and no prism boundaries. However, if indistinct prisms showing centripetal crystallites within the circular boundaries are admitted into the prismless enamel, other types except the ‘false’ one will generally belong to it.

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Ultrastructure of odontoblasts in kitten tooth germs as revealed by freeze-fracture

Sasaki

Nakagawa

Higashi

1982

Archives of Oral Biology

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Shohei Higashi

Structural and Distribution Patterns of Surface ‘Prismless’ Enamel in Human Permanent Teeth

Dentin resorption mediated by odontoclasts in physiological root resorption of human deciduous teeth

Multinucleated cells formed on calcified dentine from mouse bone marrow cells treated with 1α,25‐dihydroxyvitamin D₃ have ruffled borders and resorb dentine

Structure of the So-Called ‘Prismless’ Enamel in Human Deciduous Teeth

Ultrastructure of odontoblasts in kitten tooth germs as revealed by freeze-fracture

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Shohei Higashi

Structural and Distribution Patterns of Surface ‘Prismless’ Enamel in Human Permanent Teeth

Dentin resorption mediated by odontoclasts in physiological root resorption of human deciduous teeth

Multinucleated cells formed on calcified dentine from mouse bone marrow cells treated with 1α,25‐dihydroxyvitamin D3 have ruffled borders and resorb dentine

Structure of the So-Called ‘Prismless’ Enamel in Human Deciduous Teeth

Ultrastructure of odontoblasts in kitten tooth germs as revealed by freeze-fracture

Contact Info

Product

Resources

About

Multinucleated cells formed on calcified dentine from mouse bone marrow cells treated with 1α,25‐dihydroxyvitamin D₃ have ruffled borders and resorb dentine