Antoine Dhem scite author profile

The resin-dentin interdiffusion zone produced by a dentin-adhesive system that removes the smear layer and concurrently decalcifies superficial dentin was morphologically examined by both scanning and transmission electron microscopy. Cross-sectioned resin-bonded dentin discs were etched with an argon-ion beam to make the resin-dentin interface observable by SEM. For the TEM examination, the sections were partly decalcified by an aqueous EDTA solution to facilitate ultramicrotomy and to disclose the ultrastructure of the interdiffusion zone. Both SEM and TEM confirmed the presence of the resin-dentin interdiffusion zone as the junction between the deep unaltered dentin structure and the restorative resin. Within the interdiffusion zone, three sublayers with characteristic ultrastructure and staining were identified by TEM. An upper diffuse black layer contained few structural features. Underneath, partially-altered collagen fibrils were closely packed, mostly running parallel with the interface and perpendicular to the dentinal tubules. Their outline was electron-dense, forming tunnel-like structures. At the base of the upper layer, several stained projections were found to bulge out into the underlying collagen network and appeared to be confined by obstructive, parallel-running collagen fibrils. Finally, the third dense layer, containing hydroxyapatite crystals, demarcated the superficially demineralized dentin layer from the deeper unaltered dentin. Resin diffusion into the decalcified dentin surface layer was evident, but diminished with depth, presumably reducing deeper resin impregnation into the interfibrillar spaces. The citric acid dentin-pretreatment probably caused denaturation of the superficial collagen fibrils. Its decalcifying effect gradually weakened with depth, leaving behind hydroxyapatite crystals at the base of the interdiffusion zone.(ABSTRACT TRUNCATED AT 250 WORDS)

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Physical and histomorphological characteristics of iliac crest bone differ according to the grade of osteoarthritis at the hand

Gevers

Dequeker

Geusens

et al. 1989

Bone

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Ossification of the Human Fetal Ilium

Delaere

Kok²,

Behets³

et al. 1992

Cells Tissues Organs

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Ossification of the ilium is similar to that of a long bone. It possesses three cartilaginous epiphyses and one cartilaginous process. Moreover, it undergoes peculiar osteoclastic resorption, comparable with that of the cranium bones. Asymmetrical ossification of the ilium, haversian bone remodelling and apposition of chondroid tissue posterosuperiorly to the acetabulum most probably emphasize the importance of mechanical factors in the morphogenesis of the hip bone during fetal life.

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Haversian Bone Remodelling in Human Fetus

Burton¹,

Behets²,

Dhem³

1989

Cells Tissues Organs

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Haversian bone remodelling used to be considered an attribute of adult bone. In the present paper, typical haversian remodelling was observed in the humerus, ulna, radius, femur, tibia, fibula and 6th and 7th ribs as soon as the 24th week. Its aspect suggests an already ancient occurrence. Remodelling was found in the same bone pieces of the neonate as well as in the clavicle and the other ribs. Mechanical factors may be responsible for starting the remodelling but their effects could be modulated by metabolic needs. Other still unknown factors might play a role too.

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Presence of Chondroid Tissue in the Symphyseal Region of the Growing Human Mandible

Goret-Nicaise¹,

Dhem²

1982

Cells Tissues Organs

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The mandibular symphysis studied by histology and microradiography in the fetus and in the newborn shows a mineralized tissue different from the calcified cartilage observed in endochondral ossification and also different from bone aspects. In 1888, Schaffer coined it ‘chondroid bone’, but this tissue derives from secondary cartilage. We therefore suggest the term ‘chondroid tissue’ to designate it.

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Antoine Dhem

Comparative SEM and TEM Examination of the Ultrastructure of the Resin-Dentin Interdiffusion Zone

Physical and histomorphological characteristics of iliac crest bone differ according to the grade of osteoarthritis at the hand

Ossification of the Human Fetal Ilium

Haversian Bone Remodelling in Human Fetus

Presence of Chondroid Tissue in the Symphyseal Region of the Growing Human Mandible

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