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5. Population nutrient intake goals for preventing diet-related chronic diseases: Previous page | 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27

91. Gibney M et al. Consumption of sugars. American Journal of Clinical Nutrition, 1995, 62(Suppl.1):178-194 (erratum appears in American Journal of Clinical Nutrition, 1997, 65:1572-1574).

92. Alexy U, Sichert-Hellert W, Kersting M. Fifteen-year time trends in energy and macronutrient intake in German children and adolescents: results of the DONALD study. British Journal of Nutrition, 2002, 87:595-604.

93. Fletcher ES, Adamson AJ, Rugg-Gunn AJ. Twenty years of change in the dietary intake and BMI of Northumbrian adolescents. Proceedings of the Nutrition Society, 2001, 60:171A-237A.

94. Cole-Hamilton I et al. A study among dietitians and adult members of their households of the practicalities and implications of following proposed dietary guidelines for the UK. British Dietetic Association Community Nutrition Group Nutrition Guidelines Project. Human Nutrition - Applied Nutrition, 1986, 40:365-389.

95. Fluorides and oral health. Report of a WHO Expert Committee on Oral Health Status and Fluoride Use. Geneva, World Health Organization, 1994 (WHO Technical Report Series, No. 846).

96. Künzel W, Fischer T. Rise and fall of caries prevalence in German towns with different F concentrations in drinking water. Caries Research, 1997, 31:166-173.

97. Beighton D, Adamson A, Rugg-Gunn A. Associations between dietary intake, dental caries experience and salivary bacterial levels in 12-year-old English schoolchildren. Archives of Oral Biology, 1996, 41:271-280.

98. Burt BA, Pai S. Sugar consumption and caries risk: a systematic review. Journal of Dental Education, 2001, 65: 1017-1023.

99. Sutcliffe P. Oral cleanliness and dental caries. In: Murray JJ, ed. The prevention of oral disease. Oxford, Oxford University Press, 1996:68-77.

100. Bellini HT, Arneberg P, von der Fehr FR. Oral hygiene and caries. A review. Acta Odontologica Scandinavica, 1981, 39:257-265.

101. Russell AL et al. Dental surveys in relation to nutrition. Public Health Reports, 1960, 75:717-723.

102. Afonsky D. Some observations on dental caries in central China. Journal of Dental Research, 1951, 30:53-61.

103. Brudevold F et al. Intraoral demineralisation and maltose clearance from wheat starch. Caries Research, 1985, 19:136-144.

104. Grenby TH. Effects of starch and sugar diets on dental caries. A comparison of two different methods of assessing caries in rodents. British Dental Journal, 1970, 128:575-578.

105. Grenby TH. The effects of some carbohydrates on experimental dental caries in the rat. Archives of Oral Biology, 1963, 8:27-30.

106. Bowen WH et al. A method to assess cariogenic potential of foodstuffs. Journal of the American Dental Association, 1980, 100:677-681.

107. Koulourides T et al. Cariogenicity of nine sugars tested with an intraoral device in man. Caries Research, 1976, 10:427-441.

108. Firestone AR, Schmid R, Muhlemann HR. Cariogenic effects of cooked wheat starch alone or with sucrose and frequency-controlled feeding in rats. Archives of Oral Biology, 1982, 27:759-763.

109. Grenby TH, Mistry M. Properties of maltodextrins and glucose syrups in experiments in vitro and in the diets of laboratory animals, relating to dental health. British Journal of Nutrition, 2000, 84:565-574.

110. Moynihan PJ et al. Effect of glucose polymers in water, milk and a milk substitute on plaque pH in vitro. International Journal of Paediatric Dentistry, 1996, 6:19-24.

111. Grenby TH. The effect of glucose syrup on dental caries in the rat. Caries Research, 1972, 6:52-69.

112. Koga T et al. Effects of panose on glucan synthesis and cellular adherence by Streptococcus mutans. Microbiology and Immunology, 1988, 32:25-31.

113. Ooshima T et al. The caries inhibitory effect of GOS-sugar in vitro and rat experiments. Microbiology and Immunology, 1988, 32:1093-1105.

114. Roberts KR, Hayes ML. Effects of 2-deoxy-D-glucose and other sugar analogues on acid production from sugars by human dental plaque bacteria. Scandinavian Journal of Dental Research, 1980, 88:201-209.

115. Moynihan PJ et al. Acidogenic potential of fructo-oligosaccharides: incubation studies and plaque pH studies. Caries Research, 2001, 35:265-316.

116. Hartemink R et al. Degradation and fermentation of fructo-oligosaccharides by oral streptococci. Journal of Applied Bacteriology, 1995, 79:551-557.

117. Clancy KL et al. Snack food intake of adolescents and caries development. Journal of Dental Research, 1977, 56:568-573.

118. Martinsson T. Socio-economic investigation of school children with high and low caries frequency. 3. A dietary study based on information given by the children. Odontologisk Revy, 1972, 23:93-113.

119. Savara BS, Suher T. Dental caries in children one to six years of age as related to socio-economic level, food habits and toothbrushing. Journal of Dental Research, 1955, 34:870-875.

120. Hussein I, Pollard MA, Curzon ME. A comparison of the effects of some extrinsic and intrinsic sugars on dental plaque pH. International Journal of Paediatric Dentistry, 1996, 6:81-86.

121. Imfeld TN. Identification of low caries risk dietary components. Zurich, Karger, 1983 (Monographs in Oral Science, Vol. 11).

122. Ludwig TG, Bibby BG. Acid production from different carbohydrate foods in plaque and saliva. Journal of Dental Research, 1957, 36:56-60.

123. Imfeld T et al. Cariogenicity of Milchschnitte (Ferrero-GmbH) and apple in program-fed rats. Caries Research, 1991, 25:352-358.

124. Stephan RM. Effects of different types of human foods on dental health in experimental animals. Journal of Dental Research, 1966, 45:1551-1561.

125. Grobler SR, Blignaut JB. The effect of a high consumption of apples or grapes on dental caries and periodontal disease in humans. Clinical Preventive Dentistry, 1989, 11:8-12.

126. Moynihan PJ, Ferrier S, Jenkins GN. The cariostatic potential of cheese: cooked cheese-containing meals increase plaque calcium concentration. British Dental Journal, 1999, 187:664-667.

127. Rugg-Gunn AJ et al. The effect of different meal patterns upon plaque pH in human subjects. British Dental Journal, 1975, 139:351-356.

128. Gedalia I et al. Dental caries protection with hard cheese consumption. American Journal of Dentistry, 1994, 7:331-332.

129. Rugg-Gunn AJ, Roberts GJ, Wright WG. Effect of human milk on plaque pH in situ and enamel dissolution in vitro compared with bovine milk, lactose and sucrose. Caries Research, 1985, 19:327-334.

130. Frostell G. Effects of milk, fruit juices and sweetened beverages on the pH of dental plaques. Acta Odontologica Scandinavica, 1970, 28:609-622.

131. Bowen WH et al. Influence of milk, lactose-reduced milk, and lactose on caries in desalivated rats. Caries Research, 1991, 25:283-286.

132. Reynolds EC, Johnson IH. Effect of milk on caries incidence and bacterial composition of dental plaque in the rat. Archives of Oral Biology, 1981, 26:445-451.

133. Nizel AE, Harris RS. The effects of phosphates on experimental dental caries: a literature review. Journal of Dental Research, 43(Suppl. 6):1123-1136.

134. Craig GC. The use of a calcium sucrose phosphates-calcium orthophosphate complex as a cariostatic agent. British Dental Journal, 1975, 138:25-28.

135. Lingstrom P, Wu CD, Wefel JS. In vivo effects of black tea infusion on dental plaque. Journal of Dental Research, 2000, 79:594.

136. Linke HAB et al. Effect of black tea on caries formation in hamsters. Journal of Dental Research, 2000, 79:594.

137. Silver DH. A longitudinal study of infant feeding practice, diet and caries, related to social class in children aged 3 and 8-10 years. British Dental Journal, 1987, 163:296-300.

138. Holt RD, Joels D, Winter GB. Caries in pre-school children. The Camden study. British Dental Journal, 1982, 153:107-109.

139. Meurman JH, ten Cate JM. Pathogenesis and modifying factors of dental erosion. European Journal of Oral Sciences, 1996, 104:199-206.

140. Millward A et al. The distribution and severity of tooth wear and the relationship between erosion and dietary constituents in a group of children. International Journal of Paediatric Dentistry, 1994, 4:151-157.

141. Järvinen VK, Rytomaa II, Heinonen OP. Risk factors in dental erosion. Journal of Dental Research, 1991, 70:942-947.

142. Linkosalo E, Markkanen H. Dental erosions in relation to lactovegetarian diet. Scandinavian Journal of Dental Research, 1985, 93:436-441.

143. Stabholz A et al. Tooth enamel dissolution from erosion or etching and subsequent caries development. Journal of Pedodontics, 1983, 7:100-108.

144. Thomas AE. Further observations on the influence of citrus fruit juices on human teeth. New York State Dental Journal, 1957, 23:424-430.

145. Gedalia I et al. Enamel softening with Coca-Cola and rehardening with milk or saliva. American Journal of Dentistry, 1991, 4:120-122.

146. Gedalia I et al. Tooth enamel softening with a cola type drink and rehardening with hard cheese or stimulated saliva in situ. Journal of Oral Rehabilitation, 1991, 18:501-506.

147. Holloway PJ, Mellanby M, Stewart RJC. Fruit drinks and tooth erosion. British Dental Journal, 1958, 104:305-309.

148. Grenby TH, Mistry M, Desai T. Potential dental effects of infants fruit drinks studied in vitro. British Journal of Nutrition, 1990, 64:273-283.

149. Miller CD. Erosion of molar teeth by acid beverages. Journal of Nutrition, 1950, 41:63-71.

150. Edgar WM. Prediction of the cariogenicity of various foods. International Dental Journal, 1985, 35:190-194.

151. Ruxton CH, Garceau FJ, Cottrell RC. Guidelines for sugar consumption in Europe. Is a quantitative approach justified? European Journal of Clinical Nutrition, 1999, 53:503-513.

152. Rodrigues CS. Dietary guidelines, sugar intake and caries increment. A study in Brazilian nursery school children [Thesis]. London, University of London, 1997.

153. Sheiham A. Sugars and dental decay. Lancet, 1983, 1:282-284.

154. Buttner. Zuckeraufnahme und Karies. [Sugar intake and caries.] In: Cremer HD, ed. Grundfragen der Ernährungswissenschaft. [Basics of nutrition.] Freiburg im Breisgau, Rombach, 1971:175-191. [Cited by Marthaler TM. In: Guggenheim B, ed. Health and sugar substitutes. Proceedings of the European Research Group for Oral Biology Conference on Sugar Substitutes, Geneva, Switzerland, 30 October - 1 November, 1978. Basel, Karger, 1979:27-34.]

155. Takeuchi M. On the epidemiological principles in dental caries attack. Bulletin of the Tokyo Dental College, 1962, 3:96-111.

156. Takahashi K. Statistical study on caries incidence in the first molar in relation to the amount of sugar consumption. Bulletin of the Tokyo Dental College, 1961, 2:44-57.

157. Schulerud A. Dental caries and nutrition during wartime in Norway. Oslo, Fabritius og Snners Trykkeri, 1950.

158. Knowles EM. The effects of enemy occupation on the dental condition of children in the Channel Islands. Monthly Bulletin of the Ministry of Health and the Public Health Laboratory Service, 1946:161-172.

5. Population nutrient intake goals for preventing diet-related chronic diseases: 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27 | Next page

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