Thomas Tkotz scite author profile

Thomas Tkotz

5Publications

90Citation Statements Received

107Citation Statements Given

How they've been cited

164

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Affiliations

Klinik und Poliklinik für Mund-, Kiefer- und Gesichtschirurgie, University of Münster

Publications

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Magnesium in Newly Formed Dentin Mineral of Rat Incisor

Wiesmann

Tkotz

Joos

et al. 1997

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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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Early mineralization of matrix vesicles in the epiphyseal growth plate

Plate

Tkotz

Wiesmann

et al. 1996

Journal of Microscopy

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Matrix vesicles (MVs) induce the primary mineralization in collagen-rich hard tissues such as bone, mineralizing cartilage and dentine. Calcium and phosphate ions accumulate at the inner MV membrane. This accumulation takes place in association with phospholipids alone and/or in association with Annexin V, which displays Ca ion channel activity when inserted in membranes; consequently, Annexin V may be involved in Ca uptake by matrix vesicles. The first crystal nuclei are formed at these macromolecules of the MV inner membrane. They grow to stable nanometre-sized particles, dots, which coalesce to form chains of dots along the macromolecules of the MV inner membrane. At the same time, or shortly afterwards, chains of these Ca phosphate dots also develop inside the MVs. The measured centre-to-centre distances between these dots represent approximately the distances between the nucleating sites, called active sites, along the MV matrix molecules. The mineralization does not stop at the MV membrane but expands continuously into the extravesicular region in radial directions to form nodules. These radiating Ca phosphate chains, which coalesce to form needles, are composed of such primary dots, which have developed at the nucleating sites of the corresponding macromolecules.

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Expression of p53 protein in oral squamous cell carcinomas and adjacent non‐tumorous mucosa of the floor of the mouth: an archival immunohistochemical study using wet autoclave pretreatment for antigen retrieval

Piffkò

Bànkfalvi

Öfner

et al. 1995

J Oral Pathology Medicine

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Routinely formalin-fixed and paraffin-embedded material of 22 squamous cell carcinomas of the floor of the mouth (T2NoMo, Ro), together with adjacent dysplastic or normal mucosa, were immunohistochemically investigated using a panel of four anti-p53 antibodies (CM1, PAb1801, DO7, PAb240) subsequent to wet autoclave pretreatment for antigen retrieval. p53 immunoreactivity was detected in 9/22 (40%) carcinomas with PAb1801 and DO7 antibodies, and in 8/22 cases using CM1 and PAb 240. p53-positive tumour cells accumulated predominantly at the invasive front of the carcinomas. A focal or scattered p53 immunoreactivity was observed in the adjacent normal and/or dysplastic mucosa in 17/22 (77%) cases using both CM1 and PAb1801 antibodies, in 10/22 with DO7, and in 8/22 with PAb240. This study has demonstrated examples of different p53 immunophenotypes in the non-tumorous and neoplastic oral mucosa of the same patient without significant correlation to the clinicopathological parameters studied.

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Use of a mandibular fracture score to predict the development of complications

Joos¹,

Meyer²,

Tkotz³

et al. 1999

Journal of Oral and Maxillofacial Surgery

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Certain aspects of microstructure and microcomposition of synostotic cranial suture mineralization

Wiesmann¹,

Arnold²,

Kleinheinz³

et al. 1997

International Journal of Oral and Maxillofacial Surgery

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Thomas Tkotz

Magnesium in Newly Formed Dentin Mineral of Rat Incisor

Early mineralization of matrix vesicles in the epiphyseal growth plate

Expression of p53 protein in oral squamous cell carcinomas and adjacent non‐tumorous mucosa of the floor of the mouth: an archival immunohistochemical study using wet autoclave pretreatment for antigen retrieval

Use of a mandibular fracture score to predict the development of complications

Certain aspects of microstructure and microcomposition of synostotic cranial suture mineralization

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