剤型別フッ化物配合歯磨剤使用後の唾液中フッ素イオンの経時的変化

フッ化物配合歯磨剤にはペースト状,ジェル状,フォーム状,液状など種々の剤型があり,各々の特徴を生かした用途がある.今回,剤型の違いによる歯磨剤使用後の唾液中フッ素イオン濃度に差が認められるか否かを明らかにするために,11名の健康な成人を対象に,ペースト,ジェル,フォームタイプの950 ppm F,NaF配合歯磨剤を用いて,同量(0.5 g),同用法(スクラッビンク法で2分間磨いた後,15 mLの蒸留水で5秒間洗口)で磨いた場合の唾液中フッ素イオン濃度について,ブラッシング直後から4時間後までの値を測定し比較検討した.その結果,唾液中フッ素イオン濃度に有意差が認められ,フォームタイプが最も高く,...

Full description

Saved in:
Bibliographic Details
Published in口腔衛生学会雑誌 Vol. 71; no. 1; pp. 36 - 45
Main Authors 八幡, 祥子, 藤田, 裕介, 廣瀬, 弥奈, 村田, 幸枝, 福田, 敦史
Format Journal Article
LanguageJapanese
Published 一般社団法人 口腔衛生学会 01.01.2021
日本口腔衛生学会
Subjects
フッ化物配合歯磨剤
剤型
唾液中フッ素イオン濃度
経時的変化
Online AccessGet full text
ISSN0023-2831
2189-7379
DOI10.5834/jdh.71.1_36

Cover

Abstract フッ化物配合歯磨剤にはペースト状,ジェル状,フォーム状,液状など種々の剤型があり,各々の特徴を生かした用途がある.今回,剤型の違いによる歯磨剤使用後の唾液中フッ素イオン濃度に差が認められるか否かを明らかにするために,11名の健康な成人を対象に,ペースト,ジェル,フォームタイプの950 ppm F,NaF配合歯磨剤を用いて,同量(0.5 g),同用法(スクラッビンク法で2分間磨いた後,15 mLの蒸留水で5秒間洗口)で磨いた場合の唾液中フッ素イオン濃度について,ブラッシング直後から4時間後までの値を測定し比較検討した.その結果,唾液中フッ素イオン濃度に有意差が認められ,フォームタイプが最も高く,4時間後も歯質の脱灰抑制効果や再石灰化効果があるといわれる0.09 ppm F付近を維持していた.また,唾液中フッ素イオン濃度-時間曲線下面積(AUC)を比較した結果,フォームタイプの総フッ素イオン量(AUC0‒240min)が有意に高い値を示し,発泡剤を含まないジェルタイプが最も低かった.したがって,フォームタイプは他の剤型よりもブラッシング後の唾液中へのフッ素イオンの停滞性が高いことが明らかになった.これは,フォームタイプは発泡剤の他に可溶化剤や発泡補助剤を含むため,泡によりFイオンが短時間に素早く口腔内全体に広がり,それらが粘膜などの口腔組織に吸着もしくは取り込まれた後,徐々に唾液中に遊離するためと考えられた.
AbstractList 「概要」: フッ化物配合歯磨剤にはペースト状, ジェル状, フォーム状, 液状など種々の剤型があり, 各々の特徴を生かした用途がある. 今回, 剤型の違いによる歯磨剤使用後の唾液中フッ素イオン濃度に差が認められるか否かを明らかにするために, 11名の健康な成人を対象に, ペースト, ジェル, フォームタイプの950ppm F, NaF配合歯磨剤を用いて, 同量(0.5g), 同用法(スクラッビンク法で2分間磨いた後, 15mLの蒸留水で5秒間洗口)で磨いた場合の唾液中フッ素イオン濃度について, ブラッシング直後から4時間後までの値を測定し比較検討した. その結果, 唾液中フッ素イオン濃度に有意差が認められ, フォームタイプが最も高く, 4時間後も歯質の脱灰抑制効果や再石灰化効果があるといわれる0.09ppm F付近を維持していた. また, 唾液中フッ素イオン濃度-時間曲線下面積(AUC)を比較した結果, フォームタイプの総フッ素イオン量(AUC0-240min)が有意に高い値を示し, 発泡剤を含まないジェルタイプが最も低かった. したがって, フォームタイプは他の剤型よりもブラッシング後の唾液中へのフッ素イオンの停滞性が高いことが明らかになった. これは, フォームタイプは発泡剤の他に可溶化剤や発泡補助剤を含むため, 泡によりFイオンが短時間に素早く口腔内全体に広がり, それらが粘膜などの口腔組織に吸着もしくは取り込まれた後, 徐々に唾液中に遊離するためと考えられた.
フッ化物配合歯磨剤にはペースト状,ジェル状,フォーム状,液状など種々の剤型があり,各々の特徴を生かした用途がある.今回,剤型の違いによる歯磨剤使用後の唾液中フッ素イオン濃度に差が認められるか否かを明らかにするために,11名の健康な成人を対象に,ペースト,ジェル,フォームタイプの950 ppm F,NaF配合歯磨剤を用いて,同量(0.5 g),同用法(スクラッビンク法で2分間磨いた後,15 mLの蒸留水で5秒間洗口)で磨いた場合の唾液中フッ素イオン濃度について,ブラッシング直後から4時間後までの値を測定し比較検討した.その結果,唾液中フッ素イオン濃度に有意差が認められ,フォームタイプが最も高く,4時間後も歯質の脱灰抑制効果や再石灰化効果があるといわれる0.09 ppm F付近を維持していた.また,唾液中フッ素イオン濃度-時間曲線下面積(AUC)を比較した結果,フォームタイプの総フッ素イオン量(AUC0‒240min)が有意に高い値を示し,発泡剤を含まないジェルタイプが最も低かった.したがって,フォームタイプは他の剤型よりもブラッシング後の唾液中へのフッ素イオンの停滞性が高いことが明らかになった.これは,フォームタイプは発泡剤の他に可溶化剤や発泡補助剤を含むため,泡によりFイオンが短時間に素早く口腔内全体に広がり,それらが粘膜などの口腔組織に吸着もしくは取り込まれた後,徐々に唾液中に遊離するためと考えられた.
Author 八幡, 祥子
福田, 敦史
廣瀬, 弥奈
村田, 幸枝
藤田, 裕介
Author_xml – sequence: 1
  fullname: 八幡, 祥子
  organization: 北海道医療大学歯学部口腔構造・機能発育学系小児歯科学分野
– sequence: 1
  fullname: 藤田, 裕介
  organization: 北海道医療大学歯学部口腔構造・機能発育学系小児歯科学分野
– sequence: 1
  fullname: 廣瀬, 弥奈
  organization: 北海道医療大学歯学部口腔構造・機能発育学系小児歯科学分野
– sequence: 1
  fullname: 村田, 幸枝
  organization: 北海道医療大学歯学部口腔構造・機能発育学系小児歯科学分野
– sequence: 1
  fullname: 福田, 敦史
  organization: 北海道医療大学歯学部口腔構造・機能発育学系小児歯科学分野
BookMark eNo1jc9q20AQxpfiQF3Hpz6H3J0dSauFXopJ3YIhl_QYlpW0qqXacpCdQ46xU7CpCzk4heQQAnHAKbiF_qOXug8jy6JvURm3h5lvmPm-3zwipbgba0IeA61ZDppPIr9V41ADifYDUmbgCIMjFyVSppShwRyEh6Ta64UuZdR00OG8TA6z8Sy7fpeN7tLhRTocZpMP-fj-z9v32flovfic384Lw-rX73w6z5aT9PRTNl2uf3xZ_Vxs_fm3m3QwSwcf0-HX4pp_n6wvB_nVWTYbF6hdshOodk9X_2mFvHq-d1B_YTT3Gy_rz5pGxASAgZYGbdqCBR4EggYKPKZsLZgphFbaBCoshq4bWD7jLgJwRNPmyiwSgXIpVkhjy-1oP_RUuxu3w1jLqHucxMVf6b8BX7e0kowykJRyoBsxi0J7M1jIUdi4IT3dkqJeX73W8igJOyo5kSrph167QPotyUHCphXR_2uvpRIZKfwLEsOWRA
ContentType Journal Article
Copyright 2021 一般社団法人 口腔衛生学会
Copyright_xml – notice: 2021 一般社団法人 口腔衛生学会
CorporateAuthor 北海道医療大学歯学部口腔構造・機能発育学系小児歯科学分野
CorporateAuthor_xml – name: 北海道医療大学歯学部口腔構造・機能発育学系小児歯科学分野
DOI 10.5834/jdh.71.1_36
DatabaseTitleList

DeliveryMethod fulltext_linktorsrc
EISSN 2189-7379
EndPage 45
ExternalDocumentID dk1dehea_2021_007101_004_0036_00453739630
article_jdh_71_1_71_36_article_char_ja
GroupedDBID ALMA_UNASSIGNED_HOLDINGS
F5P
JSF
MOJWN
RJT
ID FETCH-LOGICAL-j2911-35e1e4692fc1f90fa1c2a6e92499eae4109523bbf5d27b311733467a492ffab03
ISSN 0023-2831
IngestDate Thu Jul 10 16:15:09 EDT 2025
Wed Sep 03 06:31:08 EDT 2025
IsDoiOpenAccess true
IsOpenAccess true
IsPeerReviewed false
IsScholarly true
Issue 1
Language Japanese
LinkModel OpenURL
MergedId FETCHMERGED-LOGICAL-j2911-35e1e4692fc1f90fa1c2a6e92499eae4109523bbf5d27b311733467a492ffab03
OpenAccessLink https://www.jstage.jst.go.jp/article/jdh/71/1/71_36/_article/-char/ja
PageCount 10
ParticipantIDs medicalonline_journals_dk1dehea_2021_007101_004_0036_00453739630
jstage_primary_article_jdh_71_1_71_36_article_char_ja
PublicationCentury 2000
PublicationDate 20210100
PublicationDateYYYYMMDD 2021-01-01
PublicationDate_xml – month: 01
  year: 2021
  text: 20210100
PublicationDecade 2020
PublicationTitle 口腔衛生学会雑誌
PublicationTitleAlternate 口腔衛生会誌
PublicationYear 2021
Publisher 一般社団法人 口腔衛生学会
日本口腔衛生学会
Publisher_xml – name: 一般社団法人 口腔衛生学会
– name: 日本口腔衛生学会
References 33) Zero DT, Raubertas RF, Pedersen AM et al.: Studies of fluoride retention by oral soft tissues after the application of home-use topical fluorides. J Dent Res 71: 1546‒1552, 1992.
52) Herlofson BB, Barkvoll P: Desquamative effect of sodium lauryl sulfate on oral mucosa. A preliminary study. Acta Odont Scand 51: 39‒43, 1993.
38) Sjögren K, Birkhed D: Effect of various postbrushing activities on salivary fluoride concentration after toothbrushing with a sodium fluoride dentifrice. Caries Res 28: 127‒131, 1994.
1) Whelton HP, Spencer AJ, Do LG et al.: Fluoride revolution and dental caries: Evolution of policies for global use. J Dent Res 98: 837‒846, 2019.
31) Dawes C: 5 Salivary clearance and its effects on oral health. In: Edgar M, Dawes C, O’Mullane D editor, Saliva and oral health. Stephen Hancocks Limited, UK, 2012, pp.81‒96.
14) 荒川浩久,宮澤忠蔵編:口腔保健実践ガイドブック第2版,学建書院,東京,第2版,2010,96‒98頁
45) Larsen LS, Baelum V, Richards A et al.: Fluoride in saliva and oral mucosa after brushing with 1,450 or 5,000 ppm fluoride toothpaste. Caries Res 53: 675‒681, 2019.
20) Duckworth RM and Morgan SN: Oral fluoride retention after use of fluoride dentifrices. Caries Res 25: 123‒129, 1991.
19) Ekstrand J, Spak C-J and Vogel G: Pharmacokinetics of fluoride in man and its clinical relevance. J Dent Res 69: 550‒555, 1990.
30) Duckworth RM, Jones S: On the relationship between salivary fluoride clearance and the rate of salivary flow. Caries Res 23: 437‒438, 1989.
32) Duckworth RM, Jones S: On the relationship between the rate of salivary flow and salivary fluoride clearance. Caries Res 49: 141‒146, 2015.
3) Twetman S, Axelsson S, Dahlgren H et al.: Caries-preventive effect of fluoride toothpaste: A systematic review. Acta Odontol Scand 61: 347‒355, 2003.
41) Wong MCM, Clarkson J, Glenny AM et al.: Cochrane reviews on the benefits/risks of fluoride toothpaste. J Dent Res 90: 573‒579, 2011.
11) ten Cate JM, Featherstone JD: Mechanistic aspects of the interactions between fluoride and dental enamel. Crit Rev Oral Biol Med 2: 283‒296, 1991.
7) Marinho VCC, Higgins JPT, Logan S et al.: Fluoride toothpastes for preventing dental caries in children and adolescents. Cochrane Database Systematic Rev: CD002278, 2003.
10) NPO法人 日本むし歯予防フッ化物協会編:日本におけるフッ化物製剤─フッ化物応用の過去・現在・未来─,口腔保健協会,東京,第10版,2016,2頁
53) Robinson C, Strafford S, Rees G et al.: Plaque biofilms: The effect of chemical environment on natural human plaque biofilm architecture. Arch Oral Biol 51: 1006‒1014, 2006.
34) Sjögren K, Birkhed D, Rangmar B: Effect of a modified toothpaste technique on approximal caries in preschool children. Caries Res 29: 435‒441, 1995.
9) フッ化物応用研究会編:う蝕予防のためのフッ化物配合歯磨剤応用マニュアル,社会保険研究所,東京,2006,9‒26頁
4) Rolla G, Ogaard B, Cruz RA: Clinical effect and mechanism of cariostatic action of fluoride-containing toothpastes: A review. Int Dent J 41: 171‒174, 1991.
6) Bratthall D, Hansel PG, Sundberg H: Reasons for the caries decline: What do experts believe?. Eur J Oral Sci 104: 416‒422, 1996.
28) ten Cate JM: Contemporary perspective on the use of fluoride products in caries prevention. British Dent J 214: 161‒167, 2013.
49) 田村健夫,廣田 博:香粧品科学理論と実際,フレグランスジャーナル社,東京,第4版,1990,147‒153頁
55) Rose RK, Shellis RP, Lee AR: The role of cation bridging in microbial fluoride binding. Caries Res 30: 458‒464, 1996.
5) WHO Expert Committee on Oral Health Status and Fluoride Use: Fluorides and Oral Health. World Health Organ Technical Report Series 846: 26‒29, 1994.
27) Buzalaf MAR, Pessan JP, Honorio HM et al.: Mechanisms of action of fluoride for caries control. In: Buzalaf MAR editor, Fluoride and the oral environment. Karger, Basel, 2011, pp.97‒114.
35) Hall KB, Delbem ACB, Nagata ME et al.: Influence of the amount of dentifrice and fluoride concentrations on salivary fluoride levels in children. Pediatr Dent 38: 379‒384, 2016.
29) Parnell C and O’Mullane D: After-brush rinsing protocols, frequency of toothpaste use: Fluoride and other active ingredients. In: van Loveren C editor, Toothpastes. Karger, Basel, 2013, pp.140‒153.
12) Featherstone JDB: Dental caries: A dynamic disease process. Aust Dent J 53: 286‒291, 2008.
16) Tanaka M, Matsunaga K and Kadoma Y: Correlation in inorganic ion concentration between saliva and plaque fluid. J Med Dent Sci 47: 55‒59, 2000.
39) Bruun C, Qvist V, Thylstrup A: Fluoride availability in whole saliva after use of NaF and MFP dentifrices. Caries Res 21: 427‒434, 1987.
42) Tenuta LMA, Cury JA: Laboratory and human studies to estimate anticaries efficacy of fluoride toothpastes. In: van Loveren C editor, Toothpastes. Karger, Basel, 2013, pp.108‒124.
26) Featherstone JDB, Glena R, Shariati M et al.: Dependence of in vitro demineralization of apatite and remineralization of dental enamel on fluoride concentration. J Dent Res 69: 620‒625, 1990.
8) Zero DT, Marinho VCC and Phantumvanit P: Effective use of self-care fluoride administration in Asia. Adv Dent Res 24: 16‒21, 2012.
48) Lippert F: An introduction to toothpaste-Its purpose, history and ingredients. In: van Loveren C editor, Toothpastes. Karger, Basel, 2013, pp.1‒14.
23) Featherstone JDB: Prevention and reversal of dental caries : Role of low level fluoride. Commun Dent Oral Epidemiol 27: 31‒40, 1999.
36) Sotthipoka K, Thanomsuk P, Prasopsuk R et al.: The effects of toothpaste amounts and post-brushing rinsing methods on salivary fluoride retention. J Health Res 32: 421‒431, 2018.
21) Duckworth RM: Pharmacokinetics in the oral cavity: Fluoride and other active ingredients. In: van Loveren C editor, Toothpastes. Karger, Basel, 2013, pp.125‒139.
2) Marinho VCC: Evidence-based effectiveness of topical fluorides. Adv Dent Res 20: 3‒7, 2008.
24) Featherstone JDB: The science and practice of caries prevention. JADA 131: 887‒899, 2000.
51) Vogel GL, Schumacher GE, Chow LC et al.: Oral fluoride levels 1 h after use of a sodium fluoride rinse: Effect of sodium lauryl sulfate. Caries Res 49: 291‒296, 2015.
18) Abudiak H, Robinson C, Monty S et al.: Effect of fluoride sustained slow-releasing device on fluoride, phosphate and calcium levels in plaque biofilms over time measured using ion chromatography. J Dent 40: 632‒638, 2012.
15) LION歯科医院様向資料:Check-Up 総合ガイド,Check-Up standard/kodomo, gel, foam, ライオン歯科材料,東京,2011
54) Stewart PS: Diffusion coefficient of fluoride in dental plaque. J Dent Res 84: 1087, 2005.
25) Arends J and Christiffersen J: Nature and role of loosely bound fluoride in dental caries. J Dent Res 69: 601‒605, 1990.
43) Kondo KY, Buzalaf MAR, Manarelli MM et al.: Effects of pH and fluoride concentration of dentifrices on fluoride levels in saliva, biofilm, and biofilm fluid in vivo. Clin Oral Invest 20: 983‒989, 2016.
47) 田嶋和夫,今井洋子,田草川 博ほか:泡状フッ素製剤における泡の物理化学的性質─HAPへのフッ化物イオン吸着機構─.口腔衛生会誌 50:740‒750,2000.
40) Campus G, Lallai MR, Carboni R: Fluoride concentration in saliva after use of oral hygiene products. Caries Res 37: 66‒70, 2003.
56) 田嶋和夫,今井洋子,堀内照夫:泡状フッ素製剤の口腔製品への応用─フッ素イオンとヒドロキシアパタイト表面の交換能に対する「泡」のエンハンサー効果─.歯界展望 97:1125‒1135,2001.
17) Shen P, Manton DJ, Cochrane NJ et al.: Effect of added calcium phosphate on enamel remineralization by fluoride in a randomized controlled in situ trial. J Dent 39: 518‒525, 2011.
50) 田中宗男,熊谷重則:美を演出する高分子(化粧品).高分子 39:802‒805,1990
22) Creeth J, Zero D, Mau M et al.: The effect of dentifrice quantity and toothbrushing behavior on oral delivery and retention of fluoride. Int Dent J 63: 14‒24, 2013.
44) Hirose M, Murata Y, Fukuda A et al.: Fluoride retention in saliva following toothbrushing using different types of fluoridated dentifrices containing 1500 ppm F of NaF and MFP. Ped Dent J 25: 45‒49, 2015.
46) 岩瀬 寧:フォームタイプ歯磨剤の使用感と唾液中のフッ素保持.神奈川歯学 34:27‒42,1999.
37) Duckworth RM, Knoop DTM, Stephen KW: Effect of mouth rinsing after toothbrushing with a fluoride dentifrice on human salivary fluoride levels. Caries Res 25: 287‒291, 1991.
13) ten Cate JM and Buzalaf MAR: Fluoride mode of action: Once there was an observant dentist. J Dent Res 98: 725‒730, 2019.
References_xml – reference: 1) Whelton HP, Spencer AJ, Do LG et al.: Fluoride revolution and dental caries: Evolution of policies for global use. J Dent Res 98: 837‒846, 2019.
– reference: 36) Sotthipoka K, Thanomsuk P, Prasopsuk R et al.: The effects of toothpaste amounts and post-brushing rinsing methods on salivary fluoride retention. J Health Res 32: 421‒431, 2018.
– reference: 11) ten Cate JM, Featherstone JD: Mechanistic aspects of the interactions between fluoride and dental enamel. Crit Rev Oral Biol Med 2: 283‒296, 1991.
– reference: 51) Vogel GL, Schumacher GE, Chow LC et al.: Oral fluoride levels 1 h after use of a sodium fluoride rinse: Effect of sodium lauryl sulfate. Caries Res 49: 291‒296, 2015.
– reference: 6) Bratthall D, Hansel PG, Sundberg H: Reasons for the caries decline: What do experts believe?. Eur J Oral Sci 104: 416‒422, 1996.
– reference: 41) Wong MCM, Clarkson J, Glenny AM et al.: Cochrane reviews on the benefits/risks of fluoride toothpaste. J Dent Res 90: 573‒579, 2011.
– reference: 52) Herlofson BB, Barkvoll P: Desquamative effect of sodium lauryl sulfate on oral mucosa. A preliminary study. Acta Odont Scand 51: 39‒43, 1993.
– reference: 33) Zero DT, Raubertas RF, Pedersen AM et al.: Studies of fluoride retention by oral soft tissues after the application of home-use topical fluorides. J Dent Res 71: 1546‒1552, 1992.
– reference: 9) フッ化物応用研究会編:う蝕予防のためのフッ化物配合歯磨剤応用マニュアル,社会保険研究所,東京,2006,9‒26頁.
– reference: 10) NPO法人 日本むし歯予防フッ化物協会編:日本におけるフッ化物製剤─フッ化物応用の過去・現在・未来─,口腔保健協会,東京,第10版,2016,2頁.
– reference: 26) Featherstone JDB, Glena R, Shariati M et al.: Dependence of in vitro demineralization of apatite and remineralization of dental enamel on fluoride concentration. J Dent Res 69: 620‒625, 1990.
– reference: 40) Campus G, Lallai MR, Carboni R: Fluoride concentration in saliva after use of oral hygiene products. Caries Res 37: 66‒70, 2003.
– reference: 22) Creeth J, Zero D, Mau M et al.: The effect of dentifrice quantity and toothbrushing behavior on oral delivery and retention of fluoride. Int Dent J 63: 14‒24, 2013.
– reference: 24) Featherstone JDB: The science and practice of caries prevention. JADA 131: 887‒899, 2000.
– reference: 23) Featherstone JDB: Prevention and reversal of dental caries : Role of low level fluoride. Commun Dent Oral Epidemiol 27: 31‒40, 1999.
– reference: 53) Robinson C, Strafford S, Rees G et al.: Plaque biofilms: The effect of chemical environment on natural human plaque biofilm architecture. Arch Oral Biol 51: 1006‒1014, 2006.
– reference: 12) Featherstone JDB: Dental caries: A dynamic disease process. Aust Dent J 53: 286‒291, 2008.
– reference: 43) Kondo KY, Buzalaf MAR, Manarelli MM et al.: Effects of pH and fluoride concentration of dentifrices on fluoride levels in saliva, biofilm, and biofilm fluid in vivo. Clin Oral Invest 20: 983‒989, 2016.
– reference: 56) 田嶋和夫,今井洋子,堀内照夫:泡状フッ素製剤の口腔製品への応用─フッ素イオンとヒドロキシアパタイト表面の交換能に対する「泡」のエンハンサー効果─.歯界展望 97:1125‒1135,2001.
– reference: 39) Bruun C, Qvist V, Thylstrup A: Fluoride availability in whole saliva after use of NaF and MFP dentifrices. Caries Res 21: 427‒434, 1987.
– reference: 31) Dawes C: 5 Salivary clearance and its effects on oral health. In: Edgar M, Dawes C, O’Mullane D editor, Saliva and oral health. Stephen Hancocks Limited, UK, 2012, pp.81‒96.
– reference: 32) Duckworth RM, Jones S: On the relationship between the rate of salivary flow and salivary fluoride clearance. Caries Res 49: 141‒146, 2015.
– reference: 20) Duckworth RM and Morgan SN: Oral fluoride retention after use of fluoride dentifrices. Caries Res 25: 123‒129, 1991.
– reference: 29) Parnell C and O’Mullane D: After-brush rinsing protocols, frequency of toothpaste use: Fluoride and other active ingredients. In: van Loveren C editor, Toothpastes. Karger, Basel, 2013, pp.140‒153.
– reference: 42) Tenuta LMA, Cury JA: Laboratory and human studies to estimate anticaries efficacy of fluoride toothpastes. In: van Loveren C editor, Toothpastes. Karger, Basel, 2013, pp.108‒124.
– reference: 3) Twetman S, Axelsson S, Dahlgren H et al.: Caries-preventive effect of fluoride toothpaste: A systematic review. Acta Odontol Scand 61: 347‒355, 2003.
– reference: 7) Marinho VCC, Higgins JPT, Logan S et al.: Fluoride toothpastes for preventing dental caries in children and adolescents. Cochrane Database Systematic Rev: CD002278, 2003.
– reference: 4) Rolla G, Ogaard B, Cruz RA: Clinical effect and mechanism of cariostatic action of fluoride-containing toothpastes: A review. Int Dent J 41: 171‒174, 1991.
– reference: 37) Duckworth RM, Knoop DTM, Stephen KW: Effect of mouth rinsing after toothbrushing with a fluoride dentifrice on human salivary fluoride levels. Caries Res 25: 287‒291, 1991.
– reference: 54) Stewart PS: Diffusion coefficient of fluoride in dental plaque. J Dent Res 84: 1087, 2005.
– reference: 28) ten Cate JM: Contemporary perspective on the use of fluoride products in caries prevention. British Dent J 214: 161‒167, 2013.
– reference: 14) 荒川浩久,宮澤忠蔵編:口腔保健実践ガイドブック第2版,学建書院,東京,第2版,2010,96‒98頁.
– reference: 44) Hirose M, Murata Y, Fukuda A et al.: Fluoride retention in saliva following toothbrushing using different types of fluoridated dentifrices containing 1500 ppm F of NaF and MFP. Ped Dent J 25: 45‒49, 2015.
– reference: 47) 田嶋和夫,今井洋子,田草川 博ほか:泡状フッ素製剤における泡の物理化学的性質─HAPへのフッ化物イオン吸着機構─.口腔衛生会誌 50:740‒750,2000.
– reference: 19) Ekstrand J, Spak C-J and Vogel G: Pharmacokinetics of fluoride in man and its clinical relevance. J Dent Res 69: 550‒555, 1990.
– reference: 34) Sjögren K, Birkhed D, Rangmar B: Effect of a modified toothpaste technique on approximal caries in preschool children. Caries Res 29: 435‒441, 1995.
– reference: 50) 田中宗男,熊谷重則:美を演出する高分子(化粧品).高分子 39:802‒805,1990.
– reference: 48) Lippert F: An introduction to toothpaste-Its purpose, history and ingredients. In: van Loveren C editor, Toothpastes. Karger, Basel, 2013, pp.1‒14.
– reference: 25) Arends J and Christiffersen J: Nature and role of loosely bound fluoride in dental caries. J Dent Res 69: 601‒605, 1990.
– reference: 45) Larsen LS, Baelum V, Richards A et al.: Fluoride in saliva and oral mucosa after brushing with 1,450 or 5,000 ppm fluoride toothpaste. Caries Res 53: 675‒681, 2019.
– reference: 5) WHO Expert Committee on Oral Health Status and Fluoride Use: Fluorides and Oral Health. World Health Organ Technical Report Series 846: 26‒29, 1994.
– reference: 21) Duckworth RM: Pharmacokinetics in the oral cavity: Fluoride and other active ingredients. In: van Loveren C editor, Toothpastes. Karger, Basel, 2013, pp.125‒139.
– reference: 49) 田村健夫,廣田 博:香粧品科学理論と実際,フレグランスジャーナル社,東京,第4版,1990,147‒153頁.
– reference: 2) Marinho VCC: Evidence-based effectiveness of topical fluorides. Adv Dent Res 20: 3‒7, 2008.
– reference: 13) ten Cate JM and Buzalaf MAR: Fluoride mode of action: Once there was an observant dentist. J Dent Res 98: 725‒730, 2019.
– reference: 46) 岩瀬 寧:フォームタイプ歯磨剤の使用感と唾液中のフッ素保持.神奈川歯学 34:27‒42,1999.
– reference: 38) Sjögren K, Birkhed D: Effect of various postbrushing activities on salivary fluoride concentration after toothbrushing with a sodium fluoride dentifrice. Caries Res 28: 127‒131, 1994.
– reference: 55) Rose RK, Shellis RP, Lee AR: The role of cation bridging in microbial fluoride binding. Caries Res 30: 458‒464, 1996.
– reference: 8) Zero DT, Marinho VCC and Phantumvanit P: Effective use of self-care fluoride administration in Asia. Adv Dent Res 24: 16‒21, 2012.
– reference: 27) Buzalaf MAR, Pessan JP, Honorio HM et al.: Mechanisms of action of fluoride for caries control. In: Buzalaf MAR editor, Fluoride and the oral environment. Karger, Basel, 2011, pp.97‒114.
– reference: 16) Tanaka M, Matsunaga K and Kadoma Y: Correlation in inorganic ion concentration between saliva and plaque fluid. J Med Dent Sci 47: 55‒59, 2000.
– reference: 35) Hall KB, Delbem ACB, Nagata ME et al.: Influence of the amount of dentifrice and fluoride concentrations on salivary fluoride levels in children. Pediatr Dent 38: 379‒384, 2016.
– reference: 30) Duckworth RM, Jones S: On the relationship between salivary fluoride clearance and the rate of salivary flow. Caries Res 23: 437‒438, 1989.
– reference: 15) LION歯科医院様向資料:Check-Up 総合ガイド,Check-Up standard/kodomo, gel, foam, ライオン歯科材料,東京,2011.
– reference: 17) Shen P, Manton DJ, Cochrane NJ et al.: Effect of added calcium phosphate on enamel remineralization by fluoride in a randomized controlled in situ trial. J Dent 39: 518‒525, 2011.
– reference: 18) Abudiak H, Robinson C, Monty S et al.: Effect of fluoride sustained slow-releasing device on fluoride, phosphate and calcium levels in plaque biofilms over time measured using ion chromatography. J Dent 40: 632‒638, 2012.
SSID ssib020483877
ssib023158688
ssib000936254
ssj0003314320
Score 2.2507095
Snippet フッ化物配合歯磨剤にはペースト状,ジェル状,フォーム状,液状など種々の剤型があり,各々の特徴を生かした用途がある.今回,剤型の違いによる歯磨剤使用後の唾液中フッ...
「概要」: フッ化物配合歯磨剤にはペースト状, ジェル状, フォーム状, 液状など種々の剤型があり, 各々の特徴を生かした用途がある. 今回, 剤型の違いによる歯磨剤使用後の唾...
SourceID medicalonline
jstage
SourceType Publisher
StartPage 36
SubjectTerms フッ化物配合歯磨剤
剤型
唾液中フッ素イオン濃度
経時的変化
Title 剤型別フッ化物配合歯磨剤使用後の唾液中フッ素イオンの経時的変化
URI https://www.jstage.jst.go.jp/article/jdh/71/1/71_36/_article/-char/ja
http://mol.medicalonline.jp/library/journal/download?GoodsID=dk1dehea/2021/007101/004&name=0036-0045j
Volume 71
hasFullText 1
inHoldings 1
isFullTextHit
isPrint
ispartofPNX 口腔衛生学会雑誌, 2021, Vol.71(1), pp.36-45
journalDatabaseRights – providerCode: PRVAFT
  databaseName: Open Access Digital Library
  customDbUrl:
  eissn: 2189-7379
  dateEnd: 99991231
  omitProxy: true
  ssIdentifier: ssib020483877
  issn: 0023-2831
  databaseCode: KQ8
  dateStart: 19520101
  isFulltext: true
  titleUrlDefault: http://grweb.coalliance.org/oadl/oadl.html
  providerName: Colorado Alliance of Research Libraries
link http://utb.summon.serialssolutions.com/2.0.0/link/0/eLvHCXMwpV3Na9RAFA9tvQgiiorf9OAct2Yyk2TmZrKbpSgKQgu9SEiyCbJiFW0v3uwqtFjBQxX0IIIVqlAFv_Bi_WO26eJ_4NH3XrK7aemhVQizw5s3v3nvTZJ5M5t5YxgXbFc4rUiImshSByYomVlTWaRqqbLAOU5UYtNxb1evOZPT8vKMPTMy-qfy1dL8XDyRPNh1X8m_9CrQoF9xl-w-enYACgTIQ_9CCj0M6Z76mAU2U5p5EjM6YMonimKezQLBlGC6n4ELi-pMOyxwqZZmgWYKiA2qbmLFwGFeg3lN5PEE81SlCcn8BvOpSMuyyA8QE5vgzAsIRyIRcHy4LKqlEHMXeVzmA45JFIuaKDJeyeOLCjIwk_yArDWyoRgeU6Q71AUh-wpWHW4iNlGXQKGyIB5kPM60Xyqim4QAWjskbR1hwTLAoDkxQyuDtWRS2ic8F78S8epEqZPJbUyVGvK6CKr6JvNNkt6mlkgs3xryQkmDWhzwAq5G62FRAKVDXsW0SwYb8CoUCa0rUTzlV1dzLL5jNYcQXRIZMvVSif2bqTrkWaIGPiSvDnnFqTfbHu1i_BJOxRMq4nzuHGNtJSSOsa2bEy6f4KHYEcmcfKPWLd5KwZsIUceQ_Fj8kRiKFr-jlLZwBbz7zVHjgAXjMR66cuV6ZWKgwbEaOroYXVqo4Y5pmJTYyikD7aHPJQT4_WUM1lLfYjMuSnuxIis4mm2YdmE8jUO3i79Ci5A0Fa9y6ohxuJwOjnvFs33UGGlHx4wb-dJq_vpJvviu23ne7XTy5Re9pfe_Hz_Nny1urX_qvV0Dhs2fv3ora_nGcvfhx3xlY-v7580f6wV_7-ub7sJqd-FDt_MFSnvflrdeLvRePcpXlwDquDHdDKbqk7XyGJRa29IYZNROeSodbWUJz7SZRTyxIifFhROdRqnkMEuyRBxndstyY8G5KwS4P5GEGlkUm-KEMTZ7ZzY9aYzLiKdxpFUSZam0EyfOpMhwCLaiSMFIfsqwC-uEd4tYN2H5bgvBhKHLQ44J9GCfjFtDw3Z0yri0zZhh-ZK8H-75Rjj9_xBnjIPDR-qsMTZ3bz49B1OGufg83V1_AQVk4RA
linkProvider Colorado Alliance of Research Libraries
openUrl ctx_ver=Z39.88-2004&ctx_enc=info%3Aofi%2Fenc%3AUTF-8&rfr_id=info%3Asid%2Fsummon.serialssolutions.com&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&rft.genre=article&rft.atitle=%E5%89%A4%E5%9E%8B%E5%88%A5%E3%83%95%E3%83%83%E5%8C%96%E7%89%A9%E9%85%8D%E5%90%88%E6%AD%AF%E7%A3%A8%E5%89%A4%E4%BD%BF%E7%94%A8%E5%BE%8C%E3%81%AE%E5%94%BE%E6%B6%B2%E4%B8%AD%E3%83%95%E3%83%83%E7%B4%A0%E3%82%A4%E3%82%AA%E3%83%B3%E3%81%AE%E7%B5%8C%E6%99%82%E7%9A%84%E5%A4%89%E5%8C%96&rft.jtitle=%E5%8F%A3%E8%85%94%E8%A1%9B%E7%94%9F%E5%AD%A6%E4%BC%9A%E9%9B%91%E8%AA%8C&rft.au=%E5%BB%A3%E7%80%AC%E5%BC%A5%E5%A5%88&rft.au=%E7%A6%8F%E7%94%B0%E6%95%A6%E5%8F%B2&rft.au=%E6%9D%91%E7%94%B0%E5%B9%B8%E6%9E%9D&rft.au=%E8%97%A4%E7%94%B0%E8%A3%95%E4%BB%8B&rft.date=2021-01-01&rft.pub=%E6%97%A5%E6%9C%AC%E5%8F%A3%E8%85%94%E8%A1%9B%E7%94%9F%E5%AD%A6%E4%BC%9A&rft.issn=0023-2831&rft.volume=71&rft.issue=1&rft.spage=36&rft.epage=45&rft_id=info:doi/10.5834%2Fjdh.71.1_36&rft.externalDocID=dk1dehea_2021_007101_004_0036_00453739630
thumbnail_l http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/lc.gif&issn=0023-2831&client=summon
thumbnail_m http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/mc.gif&issn=0023-2831&client=summon
thumbnail_s http://covers-cdn.summon.serialssolutions.com/index.aspx?isbn=/sc.gif&issn=0023-2831&client=summon