FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2067823317> ?p ?o ?g. }

• W2067823317 endingPage "163" @default.
• W2067823317 startingPage "147" @default.
• W2067823317 abstract "Annals of the New York Academy of SciencesVolume 153, Issue 1 p. 147-163 CALCULUS PRODUCTION IN VITRO William J. King, William J. King Colgate-Palmolive Research Center, Piscataway, N.J.Search for more papers by this authorEdward Eigen, Edward Eigen Colgate-Palmolive Research Center, Piscataway, N.J.Search for more papers by this authorNorman Fine, Norman Fine Colgate-Palmolive Research Center, Piscataway, N.J.Search for more papers by this author William J. King, William J. King Colgate-Palmolive Research Center, Piscataway, N.J.Search for more papers by this authorEdward Eigen, Edward Eigen Colgate-Palmolive Research Center, Piscataway, N.J.Search for more papers by this authorNorman Fine, Norman Fine Colgate-Palmolive Research Center, Piscataway, N.J.Search for more papers by this author First published: December 1968 https://doi.org/10.1111/j.1749-6632.1968.tb11733.xAboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References 1 LEUNG, S. W. & T. JENSEN. 1958. A. Factors controlling the deposition of calculus. Int. Dent. J. 8: 613. 2 MANDEL, I. D., B. M. LEVY & B. H. WASSERMAN. 1957. Histochemistry of calculus formation. J. Periodont. 28: 132. 3 MUHLEMANN, H. R. & U. K. SCHNEIDER. 1959. Early calculus formation. Helv. Odont. Acta. 3: 22. 4 ZANDER, H. A., S. P. HAZEN & D. B. SCOTT. 1960. Mineralization of dental calculus. Proc. Soc. Exp. Biol. Med. 103: 257. 5 TURESKY, S., G. RENSTRUP & I. GLICKMAN. 1961. Histologic and histochemical observations regarding early calculus formation in children and adults. J. Periodont. 32: 7. 6 TURESKY, S., G. RENSTRUP & I. GLICKMAN. 1962. The effect of changing the salivary environment upon the progress of calculus formation. J. Periodont. 33: 45. 7 TURESKY, S., I. GLICKMAN & G. RENSTRUP. 1963. Calcification of calculus in vivo and in vitro. J. Periodont. 34: 322. 8 MUHLEMANN, H. R. & H. E. SCHROEDER. 1964. Dynamics of Supragingival Calculus formation. In Advances in Oral Biology. P. H. Staple, Ed.: 1: 175. Academic Press, New York , N.Y . 9 WAERHAUG, J. 1955. Source of mineral salts in subgingival calculus. J. Dent. Res. 34: 563. 10 LITTLE, M. F. & S. P. HAZEN. 1964. Inorganic composition of subgingival calculus. J. Dent. Res. 43: 645. 11 SCHROEDER, H. E. & H. U. BAMBAUER. 1966. Stages of calcium phosphate crystallization during calculus formation. Arch. Oral Biol. 11: 1. 12 JENSEN, A. T. & M. DANO. 1952. X-ray crystallographic examination of calculi from salivary glands. J. Dent. Res. 31: 620. 13 JENSEN, A. T. & M. DANO. 1954. Crystallography of dental calculus and the precipitation of certain calcium phosphates. J. Dent. Res. 33: 741. 14 HODGE, H. C. & S. W. LEUNG. 1950. Calculus formation. J. Periodont. 21: 211. 15 GRESSL Y. F. 1963. Experimental calculus formation. Periodontics 1: 53. 16 JENKINS, G. N. 1966. The Physiology of the Mouth. 3rd edit. Blackwell Scientific Publications. Oxford , England . 17 STRATES, B. S., W. F. NEUMANN & A. J. LEVINSKAS. 1957. The solubility of bone mineral. II. Precipitation of near-neutral solutions of calcium phosphate. J. Phys. Chem. 61: 279. 18 PRINZ, H. 1921. Origin of salivary calculus. Dental Cosmos. 63: 619. 19 ADAMSON, K. T. 1929. The role of enzyme action in the formation of dental calculus. Aust. J. Exp. Biol. Med. Sci. 6: 215. 20 SMITH, G. H. 1930. Factors affecting the deposition of dental calculus. Aust. J. Exp. Biol. Med. Sci. 7: 45. 21 BIBBY, B. G. 1935. Formation of salivary calculus. Dental Cosmos. 77: 668. 22 LEUNG, S. W. 1957. A new method for the in vitro production of artificial calculus. J. Periodont. 28: 217. 23 WASSERMAN, B. H., I. MANDEL & B. M. LEVY. 1958. In vitro calcification of dental calculus. J. Periodont. 29: 144. 24 JENKINS, G. N. 1965. The chemistry of plaque. Ann. N.Y. Acad. Sci. 131: 786. 25 DRAUS, F. J. & S. W. LEUNG. 1960. A bovine gland extract for calculus formation. Oral Surg. 13: 224. 26 DRAUS, F. J., S. W. LEUNG & F. MIKLOS. 1963. Toward a chemical inhibitor of calculus. Dental Progr. 3: 19. 27 KEMMELMAN, B. B. 1960. Modified method for in vitro production of salivary deposits. J. Dent. Res. 39: 1076. 28 McCONNELL, D., W. J. FRAJOLA & D. D. DEAMER. 1960. Relation between inorganic chemistry and biochemistry of bone mineralization. Science 133: 281. 29 VON DER FEHR, F. & F. BRUDEVOLD. 1960. In vitro calculus formation. J. Dent. Res. 39: 104. 30 EILBERG, R. G., D. GOULD & A. E. SOBEL. 1965. Nucleating substance(s) in human saliva. Nature 207: 481. 31 YANKELOWITZ, S., S. WEISS, D. H. GOULD & V. R. ALTARELLI. 1965. A method and apparatus for studying in vitro calculus. J. Dent. Res. 44: 648. 32 URIST, M. R. & J. M. ADAMS, JR. 1966. Effects of various blocking reagents upon local mechanism of calcification. Arch. Path. 81: 325. 33 DRAUS, F. J., F. L. MIKLOS & B. WEST. 1966. Mucoid alteration effects on synthetic calculus formation. Arch. Oral Biol. 11: 521. 34 LITTLE, M. F., C. A. CASCIANI & J. ROWLEY. 1963. Dental calculus composition. 1. Supragingival calculus: ash, calcium, phosphorus, sodium and density. J. Dent. Res. 42: 781. 35 YANKELOWITZ, S. 1963. Unpublished reports. Colgate-Palmolive Co. Research Reports. 36 HARRIS, D. N. 1964. Unpublished reports. Colgate-Palmolive Co. Research Reports. 37 BELTING, C. M. & D. L. GORDON. 1966. In vitro effect of urea on artificial calculus formation. J. Periodont. 37: 20. 38 BELTING, C. M. & D. L. GORDON. 1966. In vivo effect of a urea containing dentifrice on dental calculus formation. J. Periodont. 37: 26. 39 MIDDLETON, J. D. 1965. Human salivary proteins and artificial calculus formation in vitro. Arch. Oral Biol. 10: 227. 40 HAZEN, S. P. & H. A. ZANDER. 1959. Four-week old calculus, (abstr.) J. Dent Res. 38: 710. 41 TURESKY, S., I. GLICKMAN & M. KRASNOFF. 1965. Crystal seeding by salivary calculus and its inhibition in vitro. Arch. Oral Biol. 10: 255. 42 BAER, P. N. & W. L. NEWTON. 1959. The occurrence of periodontal disease in germ free mice. J. Dent. Res. 38: 1238. 43 FITZGERALD, R. J. & E. G. McDANIELS. 1960. Dental calculus in the germ free rat. Arch. Oral Biol. 2: 1147. 44 GLAS, J. & B. KRASSE. 1962. Biophysical studies on dental calculus from germ free and conventional rats. Acta Odont. Scand. 20: 127. 45 GUSTAFSSON, B. E. & B. KRASSE. 1962. Dental calculus in germ free rats. Acta Odontol. Scand. 20: 135. 46 ENNEVER, J. 1961. Intracellular calcification by filamentous microorganisms. J. Periodont. 31: 304. 47 ENNEVER, J. 1963. Microbiologic calcification. Ann. N.Y. Acad. Sci. 109: 4. 48 RIZZO, A. A., D. B. SCOTT & H. A. BLADEN. 1963. Calcification of oral bacteria. Ann. N.Y. Acad. Sci. 109: 14. 49 BOWEN, W. H. T. & M. N. GILMOUR. 1961. The formation of calculuslike deposits by pure cultures of bacteria. Arch. Oral Biol. 5: 145. 50 HOFFMAN, D. L., R. E. STALLARD & E. M. SCHAFFER. 1963. An in vitro attempt to inhibit calculus formation using an ion exchange resin. J. Periodont. 34: 344. 51 MELIA, T. P & W. P. MOFFITT. 1964. Crystallization from aqueous solution. J. Colloid Sci. 19: 433. 52 SOBEL, A. E., M. BURGER & S. NOBEL. 1960. Mechanisms of nuclei formation in mineralizing tissue. In Clinical Orthopaedics. A. F. Palma, Ed. 17: 103. J. P. Lippincott Co. Philadelphia , Pa. 53 VOLMER, M. 1939. Kinetik der Phasenbildung. T. Steinkopff. Dresden and Leipzig , Germany . 54 TURNBULL, D. & B. VONNEGUT. 1951. Nucleation catalysis. Ind. Eng. Chem. 44: 1292. 55 SAVARA, B. S., P. M. NILKANTH, J. DE MENT, B. SCHMALING & M. KRAKOWSKI. 1959. Effects of different preservatives and silicone dentifrices on contact angle of water on tooth enamel. J. Dent. Res. 38: 422. 56 DRAUS, F. J. & F. L. MIKLOS. 1965. Microradiographic analysis of synthetic salivary calculus. Arch. Oral Biol. 10: 317. 57 SHERMAN, B. S. & A. E. SOBEL. 1965. Differentiating between nucleation and crystal growth in mineralizing tissues and macromolecules. Arch. Oral Biol. 10: 323. 58 VOREADIS, EL. G. & H. A. ZANDER. 1958. Cuticular calculus attachment. Oral Surg. 11: 1120. 59 BAER, P. N. & M. S. BURSTONE. 1959. Esterase activity associated with formation of deposit on teeth. Oral Surg. 12: 1147. 60 HOWELL, A. JR., A. RIZZO & F. PAUL. 1965. Cultivable bacteria in developing and mature human dental calculus. Arch. Oral Biol. 10: 307. 61 WEINSTEIN, E. & I. D. MANDEL. 1964. The present status of anti-calculus agents. J. Oral Ther. 1: 327. Volume153, Issue1Evaluation of Agents Used in the Prevention of Oral DiseasesDecember 1968Pages 147-163 ReferencesRelatedInformation" @default.
• W2067823317 created "2016-06-24" @default.
• W2067823317 creator A5033330865 @default.
• W2067823317 creator A5073302842 @default.
• W2067823317 creator A5076067342 @default.
• W2067823317 date "1968-12-01" @default.
• W2067823317 modified "2023-09-26" @default.
• W2067823317 title "CALCULUS PRODUCTION IN VITRO" @default.
• W2067823317 cites W1848836171 @default.
• W2067823317 cites W1924561466 @default.
• W2067823317 cites W1970051342 @default.
• W2067823317 cites W1971607150 @default.
• W2067823317 cites W1974484803 @default.
• W2067823317 cites W1978835594 @default.
• W2067823317 cites W1988264550 @default.
• W2067823317 cites W1991249630 @default.
• W2067823317 cites W1996765483 @default.
• W2067823317 cites W2001040243 @default.
• W2067823317 cites W2001448407 @default.
• W2067823317 cites W2012233324 @default.
• W2067823317 cites W2021367691 @default.
• W2067823317 cites W2033098594 @default.
• W2067823317 cites W2036137043 @default.
• W2067823317 cites W2041107859 @default.
• W2067823317 cites W2041773478 @default.
• W2067823317 cites W2047735351 @default.
• W2067823317 cites W2048287412 @default.
• W2067823317 cites W2049151937 @default.
• W2067823317 cites W2058902668 @default.
• W2067823317 cites W2059230453 @default.
• W2067823317 cites W2061089535 @default.
• W2067823317 cites W2065683436 @default.
• W2067823317 cites W2074363446 @default.
• W2067823317 cites W2074839697 @default.
• W2067823317 cites W2085911300 @default.
• W2067823317 cites W2090453566 @default.
• W2067823317 cites W2093115282 @default.
• W2067823317 cites W2106932075 @default.
• W2067823317 cites W2113397995 @default.
• W2067823317 cites W2131177974 @default.
• W2067823317 cites W2143829278 @default.
• W2067823317 cites W2178711421 @default.
• W2067823317 cites W2210974015 @default.
• W2067823317 cites W2212551371 @default.
• W2067823317 cites W2327079540 @default.
• W2067823317 cites W2386577268 @default.
• W2067823317 cites W2394084634 @default.
• W2067823317 cites W4205200206 @default.
• W2067823317 cites W4241137673 @default.
• W2067823317 cites W4248768311 @default.
• W2067823317 cites W2092184767 @default.
• W2067823317 doi "https://doi.org/10.1111/j.1749-6632.1968.tb11733.x" @default.
• W2067823317 hasPublicationYear "1968" @default.
• W2067823317 type Work @default.
• W2067823317 sameAs 2067823317 @default.
• W2067823317 citedByCount "0" @default.
• W2067823317 crossrefType "journal-article" @default.
• W2067823317 hasAuthorship W2067823317A5033330865 @default.
• W2067823317 hasAuthorship W2067823317A5073302842 @default.
• W2067823317 hasAuthorship W2067823317A5076067342 @default.
• W2067823317 hasConcept C139719470 @default.
• W2067823317 hasConcept C162324750 @default.
• W2067823317 hasConcept C185592680 @default.
• W2067823317 hasConcept C199343813 @default.
• W2067823317 hasConcept C202751555 @default.
• W2067823317 hasConcept C2777686260 @default.
• W2067823317 hasConcept C2778348673 @default.
• W2067823317 hasConcept C41008148 @default.
• W2067823317 hasConcept C55493867 @default.
• W2067823317 hasConcept C71924100 @default.
• W2067823317 hasConceptScore W2067823317C139719470 @default.
• W2067823317 hasConceptScore W2067823317C162324750 @default.
• W2067823317 hasConceptScore W2067823317C185592680 @default.
• W2067823317 hasConceptScore W2067823317C199343813 @default.
• W2067823317 hasConceptScore W2067823317C202751555 @default.
• W2067823317 hasConceptScore W2067823317C2777686260 @default.
• W2067823317 hasConceptScore W2067823317C2778348673 @default.
• W2067823317 hasConceptScore W2067823317C41008148 @default.
• W2067823317 hasConceptScore W2067823317C55493867 @default.
• W2067823317 hasConceptScore W2067823317C71924100 @default.
• W2067823317 hasIssue "1 Evaluation of" @default.
• W2067823317 hasLocation W20678233171 @default.
• W2067823317 hasOpenAccess W2067823317 @default.
• W2067823317 hasPrimaryLocation W20678233171 @default.
• W2067823317 hasRelatedWork W2130043461 @default.
• W2067823317 hasRelatedWork W2350741829 @default.
• W2067823317 hasRelatedWork W2358668433 @default.
• W2067823317 hasRelatedWork W2376932109 @default.
• W2067823317 hasRelatedWork W2382290278 @default.
• W2067823317 hasRelatedWork W2390279801 @default.
• W2067823317 hasRelatedWork W2571073775 @default.
• W2067823317 hasRelatedWork W2748952813 @default.
• W2067823317 hasRelatedWork W2899084033 @default.
• W2067823317 hasRelatedWork W3004735627 @default.
• W2067823317 hasVolume "153" @default.
• W2067823317 isParatext "false" @default.
• W2067823317 isRetracted "false" @default.
• W2067823317 magId "2067823317" @default.

• next