1. FD( Working Group 10. Saliva: Its rule in health and disease. Tilt Dent .1 1992;4:;291-304,
2 Wellington PB. Risk factors in dental caries. Tnt De.nl j 1998; 38:21 1-217.
3,
Güven Y. Dış Hekimliğinde pH'ıun önemi ve tampnnlar.Tubilak Ağız Biyolojisi Uygulamalı F.aitim IVograray L 998; 1-6.
4/riıylfitnıp A and Fejerskov O. Textbook of Cli Cariology 2nd cd Copenhagen, Munsgard 1994; 17-31.
5.Sreebny LM. Saliva in health and disease: anappraisal and update. Int Dent J 2000;59: 140-161.
6-Etîgar WM. Süliva:
It
s secretion, composition and functions. Br Dent J 1992;172:305-312.
7 .Roth G.I, Calnıcs R. Oral Biology. The CV Mosby Company, St Louis J 981:209-228.
8.Kcdjarune U, Migasena Pf Changbtimrung S ct al. Flow rate and composition ol whole saliva in children from rural and urban Thailand with different caries prevalence and dietary intake. Caries Res 1997;31:148-154.
9 Tukia-KuJmala H, Tenovuo J. Intra- and inter individual variation in salivary flow rate, buffer effect, laeLobacilli, and tmitans streptococci among II-to 12- year-old school children. Acta Odontol Scand 1993;51:31-37,
JOJohansun 1, Lenandcr-Lumikari M, Saellström K. Saliva composition indian children wj(h chronic protein-encrgy malnutrition. J lîcjıt Res I994;73( I): [ [-19.
1 l.Navazesh M, Mulligan JİA, Kipnis V, Denny PA, Denny PC. Comparison of whole saliva flow rates and mucin concentrations in hcalty Caueasion youn" and aged adults. J Dent Res 1992;71(6}: 1275-1278.
l2.Gandara BK, fzulsu KT, Truclove HI., et al. Age related salivary flow rale changes in controls and patients with oral lichen planus. J Dent Res 1985-64 (9): 1149-1151.
13.La.ine M, Tenovuo Lehtoncn OP, Üjaııotko-Harri A. ct al. Pregnancy GRclaled changes in human whole saliva. Archs Oral Biol 1988;33(I2);9J3-917.
14. Lain* M, Pienihakkinen K. Salivary buffer elTect in relation to lale pregnancy and postpartum. Acta odontol scand 2000;58:8-10.
15. Kinırons
MJ
. lncreasad salivary buffering in association with alow caries experience in children suffering from cystic fibrosis, j Dent Res J 983; 62 (7):815-8!7.
16.1'arvincn T, Lamias M. Age dependency of slimtilated salivary flow rate, pH, and lactobncilius and yeast concentrations. J Dent Res 1982; 61(9J:1052-105S.
17.Larsen MJ, Jensen AF, Madscn DM, Fearcc EIF. Individual variations of pli, buffer capacity, and concentrations of calcium and phosphate in unstimulated whole saliva, Arch, oral bıol 1999;44:1 I 1-117
18-Crossner CO, Holm K. Saüva tests in the prognosis of caries in children Acta Odonlol Scand !977;35:!3>I39.
19.Lamberts BL, Pedcrson KD, Sliklair İL. Salivary pH-rise activities in caries-free and eanes-activc naval resruits. Arch Oral Biol 1983, 28(7);605-608.
20.Shafer WG, Hine MK, Levi BM. A textbook of Oral Pathology 4cd. W.B Saunders company Philadelphia., 1983; 422.
2LBrambilla E, Garcia Gtxloy F. Strohmcngcr L. Principles of diagnosis and treatment of high-caries risk subjects. Pediatric Dent 2000;44(3}:507-540.
22.Tcnovuo j. Salivary secretion rate, buffer capacity and pH. lfi:Tenovuo J. (Rd).Human saliva: Clinical chemistry and microbiology, vol. CRC Press, Boca Raion PL, pp. 46-59.
23Larmas M. Saliva and dental caric.i:diagnoslic tests for normal dental practice. Inl Dent J 1992-42¬199 2(18.
24, Messer LB. Assessing caries risk in children. Aust DcntJ2000;4.5( 11:10-16.
25. FD1 Technical report. Review of methods of identification of high caries risk groups and individuals Tnt DcutJ 1988:38:177-189.
26.1 agcrlöf F, Dawes R, Dawes C. Salivary clearence of sugar and its effects on pi I changes hy streptococcus mitior in an artificial mouth. J Dent Res 1984 ;63(J1):1266-I270.
^.Twctmau S. Fritzon B, Jensen B ct al. Pre-and post Ctrcatmenl levels of sahvajy miilans streptococci and laclobacilli in pre-school children. Int .1 Pediatr Dent 1999;9:93-98.
28.Gabris K, Nagy G, Madlena M et ai. Associations between microbiological and salivary caries activity tests and caries experience it! Hungarian adolescents. Caries Res 1999;33:191-195.
Thank you for copying data from http://www.arastirmax.com