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Philias R. Garant - Oral Cells and Tissues

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Название:
Oral Cells and Tissues
Автор:
Philias R. Garant
Жанр:
unrecognised / на английском языке
Год:
неизвестен
ISBN:
нет данных
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3 / 5. Голосов: 1
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Oral Cells and Tissues: краткое содержание, описание и аннотация

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This unique book describes the highly complex biology of the oral cells and tissues in a refreshingly clear and straightforward style. At the same time, it presents basic science and clinical correlations that demonstrate the significance of traditional basic science to oral biology as well as to clinical dentistry. Extensively documented with references to the current literature, this book will serve equally well as an introductory text for dental students, as a basic science review for dental postdoctoral specialists, and as a useful reference for researchers investigating problems related to the oral cavity.

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89. Bègue-Kirn C, Smith AJ, Loriot M, Kupferle C, Ruch JV, Lesot H. Comparative analysis of TGF-β s , BMP s , IGF, msx s , fibronectin and bone sialoprotein gene expressions during normal and in vitro induced odontoblast differentiation. Int J Dev Biol 1994;38:405–420.

90. Katchburian E. Membrane-bound bodies as initiators of mineralization of dentine. J Anat 1973;116:285–302.

91. Bonucci E. Matrix vesicles: Their role in calcification. In: Linde A (ed). Dentin and Dentinogenesis. Boca Raton, FL: CRC Press, 1984:135–154.

92. Wuthier RE. A review of the primary mechanism of endochondral calcification with special emphasis on the role of cells, mitochondria, and matrix vesicles. Clin Orthop 1982;169:219–242.

93. Kanabe S, Hsu HHT, Cecil RNA. Electron microscopic localization of adenosine triphosphate (ATP)-hydrolyzing activity in isolated matrix vesicles and reconstituted vesicles from calf cartilage. J Histochem Cytochem 1983;31:462–470.

94. Stratmann U, Schaarschmidt K, Wiesmann HP, Plate U, Höhling HJ. Mineralization during matrix-vesicle-mediated mantle dentine formation in molars of albino rats: A microanalytical and ultrastructural study. Cell Tissue Res 1996;284:223–230.

95. Stratmann U, Schaarschmidt K, Wiesmann HP, Plate U, Höhling HJ, Szuwart T. The mineralization of mantle dentine and of circumpulpal dentine in the rat: An ultrastructural and element-analytical study. Anat Embryol (Berl) 1997;195: 289–297.

96. Takano Y, Sakai H, Baba O, Sakamoto Y, Terashima T, Ohya K, Kurosaki N. Demonstration of putative Ca-binding domains in dentin matrix of rat incisors after daily injections of 1-hydroxyethylidene-1,1-bisphosphonate (HEBP). Eur J Oral Sci 1998;106:274–281.

97. Dahlin S, Angstrom J, Linde A. Dentin phosphoprotein sequence motifs and molecular modeling: Conformational adaptations to mineral crystals. Eur J Oral Sci 1998;106:239–248.

98. Goldberg M, Septier D. A comparative study of the transition between predentin and dentin, using various preparative procedures in the rat. Eur J Oral Sci 1996;104:269–277.

99. Plate U, Höhling H-J. Morphological and structural studies of early mineral formation in enamel of rat incisors by electron spectroscopic imaging (ESI) and electron spectroscopic diffraction (ESD). Cell Tissue Res 1994;277:151–158.

100. Plate U, Arnold S, Reimer L, Höhling H-J, Boyde A. Investigation of the early mineralisation on collagen in dentine of rat incisors by quantitative electron spectroscopic diffraction (ESD). Cell Tissue Res 1994;278:543–547.

101. Holland GR. An ultrastructural survey of cat dentinal tubules. J Anat 1976;122:1–13.

102. Holland GR. The dentinal tubule and odontoblastic process in the cat. J Anat 1975;120:169–177.

103. Frank RM, Veogel JC. Ultrastructure of the human odontoblast process and its mineralization during dental caries. Caries Res 1980;14:367–380.

104. Thomas HF. The effect of various fixatives on the extent of the odontoblast process in human dentine. Arch Oral Biol 1983;28:465–469.

105. Thomas HF. The ultrastructure of dentinal tubules from erupted human premolar teeth. J Dent Res 1983;62:532–536.

106. Sasaki T, Tominaga H, Higashi S. Endocytotic activity of kitten odontoblasts in early dentinogenesis. 1. Thin section and freeze-fracture study. J Anat 1984;138:485–492.

107. Thomas HF. The lamina limitans of human dentinal tubules. J Dent Res 1984;63:1064–1066.

108. Thomas HF. The dentin-predentin complex and its permeability: Anatomical overview. J Dent Res 1985;64S:607–612.

109. Scherft JP. The lamina limitans of the organic matrix of calcified cartilage and bone. J Ultrastruct Res 1972;38:318–331.

110. Szabo J, Trombitas K, Szabo I. The odontoblast process and its branches in human teeth observed by scanning electron microscopy. Arch Oral Biol 1984;29:331–334.

111. Holland GR. The odontoblastic process: Form and function. J Dent Res 1985;64S:499–514.

112. Jones SJ, Boyde A. Ultrastructure of dentin and dentinogenesis. In: Linde A (ed). Dentin and Dentinogenesis. Boca Raton, FL: CRC Press, 1984:81–134.

113. Brännström M, Garberoglio R. The dentinal tubules and the odontoblast process. Acta Odontol Scand 1972;30:291–311.

114. Grossman ES, Austin JC. Scanning electron microscope observations on the tubule content of freeze-fractured peripheral velvet monkey dentine ( Cercopithecus pyserythus ). Arch Oral Biol 1983;28:279–281.

115. Kelly KW, Bergenholtz G, Cox CF. The extent of the odontoblast process in Rhesus monkeys ( Macaca mulatta ) as observed by scanning electron microscopy. Arch Oral Biol 1981;26:893–897.

116. Maniatopoulos C, Smith DC. A scanning electron microscopic study of the odontoblast process in human coronal dentine. Arch Oral Biol 1983;28:701–710.

117. Yamada T, Nakamura K, Iwaku M. The extent of the odontoblast process in normal and carious human dentin. J Dent Res 1983;62:798–802.

118. Thomas HF, Carella P. Correlation of scanning and transmission electron microscopy of human dentinal tubules. Arch Oral Biol 1984;29:641–646.

119. Sigal MJ, Aubin JE, ten Cate AR. An immunocytochemical study of the human odontoblast process using antibodies against tubulin, actin and vimentin. J Dent Res 1985;64: 1348–1355.

120. Byers MR, Sugaya A. Odontoblast processes in dentin revealed by fluorescent Di-I. J Histochem Cytochem 1995;43: 159–168.

121. Matthews B, Hughes SHS. The ultrastructure and receptor transduction mechanisms of dentine. Prog Brain Res 1988; 74:69–76.

122. LaFleche RG, Frank RM, Steuer P. The extent of the human odontoblast process as determined by transmission electron microscopy: The hypothesis of a retractable suspensor system. J Biol Buccale 1985;13:293–305.

123. Kabasawa M, Ejiri S, Hanada K, Ozawa H. Histological observations of dental tissues using the confocal laser scanning microscope. Biotech Histochem 1995;70:66–69.

124. Mjör IA, Nordahl I. The density and branching of dentinal tubules in human teeth. Arch Oral Biol 1996;41:401–412.

125. Fosse G, Saele PK, Eide R. Numerical density and distributional pattern of dentin tubules. Acta Odontol Scand 1992; 50:201–210.

126. Tronstad L. Ultrastructural observations on human coronal dentin. Scand J Dent Res 1973;81:101–111.

127. Thomas HF, Carella P. A scanning electron microscope study of dentinal tubules from un-erupted human teeth. Arch Oral Biol 1983;28:1125–1130.

128. Pashley DH. Dentin-predentin complex and its permeability: Physiologic overview. J Dent Res 1985;64S:613–620.

129. Lindén LÅ, Källskog Ö, Wolgast M. Human dentine as a hydrogel. Arch Oral Biol 1995;40:991–1004.

130. Okamura K. Histological study on the origin of dentinal immunoglobulins and the change in their localization during caries. J Oral Pathol 1985;14:680–689.

131. Pashley DH. Dynamics of the pulpo-dentin complex. Crit Rev Oral Biol Med 1996;7:104–133.

132. Knutsson G, Jontell M, Bergenholtz G. Determination of plasma proteins in dentinal fluid from cavities prepared in healthy young human teeth. Arch Oral Biol 1994;39:185–190.

133. Olgart L, Edwall L, Gazelius B. Involvement of afferent nerves in pulpal blood-flow reactions in response to clinical and experimental procedures in the cat. Arch Oral Biol 1991; 36:575–581.

134. Hahn CL, Overton B. The effects of immunoglobulins on the convective permeability of human dentine in vitro. Arch Oral Biol 1997;42:835–843.

135. Lundgren T, Nannmark U, Linde A. Calcium ion activity and pH in the odontoblast-predentin region. Ion-selective microelectrode measurements. Calcif Tissue Int 1992;50:134–136.

136. Linde A. Dentin mineralization and the role of odontoblasts in calcium transport. Connect Tissue Res 1995;33:163–170.