Ulrich Plate scite author profile

Small amounts of magnesium are always detectable in addition to calcium and phosphorus in mineralized tissues such as dentin or bone. Magnesium has been considered to influence the mineralization process, especially crystal growth. The present study reports on the location and enrichment of magnesium in the newly mineralized dentin by using the high lateral resolution of energy dispersive X-ray microanalysis combined with scanning transmission electron microscopy. To this end, we have used the continuously growing rat incisor as a model for a collagenous mineralizing system. Dental tissue was dissected free and cryofixed in liquid nitrogen-cooled propane. The distribution of elements was measured in freeze-dried ultrathin cryosections. The magnesium distribution of the newly formed dentin area near the predentin area was found to be inhomogeneous. In certain small dentin areas, characteristical magnesium enrichments were observed. Further, high magnesium-to-phosphate molar ratios were found in these areas, and these were correlated with low calcium-to-phosphate molar ratios. Our results support the theory that magnesium is involved in the process of biological apatite crystal formation. (J Bone Miner Res 19 97;12:380-383)

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An in vitro study of osteoblast vitality influenced by the vitamins C and E

Urban

Höhling

Lüttenberg

et al. 2012

Head Face Med

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Vitamin C and vitamin E are known as important cellular antioxidants and are involved in several other non-antioxidant processes. Generally vitamin C and vitamin E are not synthesized by humans and therefore have to be applied by nutrition. The absence or deficiency of the vitamins can lead to several dysfunctions and even diseases (e.g. scurvy). The main interest in this study is that vitamin C and E are known to influence bone formation, e.g. vitamin C plays the key role in the synthesis of collagen, the major component of the extracellular bone matrix.In the present study we evaluate the effect of ascorbic acid (vitamin C) and α-tocopherol (vitamin E) on the proliferation and differentiation of primary bovine osteoblasts in vitro. Starting from standard growth medium we minimized the foetal calf serum to reduce their stimulatory effect on proliferation.An improved growth and an increased synthesis of the extracellular matrix proteins collagen type I, osteonectin and osteocalcin was observed while increasing the ascorbic acid concentration up to 200 μg/ml. Furthermore the effects of α-tocopherol on cell growth and cell differentiation were examined, whereby neither improved growth nor increased synthesis of the extracellular matrix proteins collagen type I, osteonectin and osteocalcin were detected.Further investigations are necessary to target at better supportive effect of vitamins on bone regeneration, and healing.

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Potassium is Involved in Apatite Biomineralization

et al. 1998

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The biogenetic formation of mineral crystals, one aspect of biomineralization, is a multistep process of apatite formation throughout the growth of dentin tissue. An important step is the transformation of the non-mineralized predentin matrix to mineralizing dentin matrix and its biological control. In this study, the high capacity of elemental mapping is combined with single x-ray point measurements to elucidate whether special elements are involved in initiation or regulation of mineral nucleation. Directly at the mineralization front, micro-areas with a strong co-enrichment of phosphorus (e.g., as phosphate) and potassium are found. During the beginning of the calcium enrichment and the subsequent apatite mineral formation in the characteristic micro-areas, the content of potassium decreases significantly. These findings indicate that potassium is involved in the process of dentin mineralization.

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Branched Wires of CdTe Nanocrystals Using Amphiphilic Molecules as Templates

Zhang

Gaponik²,

Müller

et al. 2005

Small

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One‐dimensional wires with widths of several nanometers and lengths of several micrometers are a technologically relevant structural motif as connectors in future electronic devices. By means of an interfacial assembly process at the air–water interface, water‐soluble luminescent CdTe nanocrystals were assembled into branched wires. Organic molecular aggregates (see image) formed in Langmuir monolayers are used as templates to organize the nanocrystals.

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Ulrich Plate

Aspects of Collagen Mineralization in Hard Tissue Formation

Magnesium in Newly Formed Dentin Mineral of Rat Incisor

An in vitro study of osteoblast vitality influenced by the vitamins C and E

Potassium is Involved in Apatite Biomineralization

Branched Wires of CdTe Nanocrystals Using Amphiphilic Molecules as Templates

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