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Clinical Oral Investigations
Published in: Clinical Oral Investigations 4/2021

01-04-2021 | Original Article

Hydraulic conductance of dentin after treatment with fluoride toothpaste containing sodium trimetaphosphate microparticles or nanoparticles

Authors: Carla Oliveira Favretto, Alberto Carlos Botazzo Delbem, Priscila Toninatto Alves Toledo, Denise Pedrini

Published in: Clinical Oral Investigations | Issue 4/2021

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Abstract

Objectives

To evaluate the hydraulic conductance of dentin after treatment with fluoride toothpastes containing sodium trimetaphosphate microparticles (TMPmicro) or nanoparticles (TMPnano).

Materials and methods

The dentinal tubules of bovine dentin blocks (4 × 4 × 1 mm) were unobstructed for determination of the maximum hydraulic conductance of the dentin. The dentin blocks were randomized into four groups (n = 15/group) of toothpastes (placebo, 1100 ppm F, and 1100 with 3% TMPmicro or 3% TMPnano) which were applied for 7 days (2×/day) using a brushing machine. The dentin surface (5/group) was analyzed by scanning electron microscopy. The hydraulic conductance post-treatment was measured in the other ten blocks. Thereafter, the same blocks were immersed in citric acid (pH 3.2) for 1 min, and the conductance was determined again. The data were submitted to 2-way ANOVA repeated measures, followed by the Student-Newman-Keuls test (p < 0.05).

Results

The percentage conductance reduction post-treatment for the groups were placebo = 1100 ppm F < 1100 TMPnano < 1100 TMPmicro (p < 0.001). After acid attack, the percentage reduction was placebo < 1100 ppm F < 1100 TMPnano < 1100 TMPmicro (p < 0.001). The toothpastes containing TMP showed the highest obliteration of dentinal tubules.

Conclusions

The addition of TMPmicro to fluoride toothpaste produced a greater reduction in hydraulic conductance when compared with 1100 ppm F toothpaste.

Clinical relevance

The increased capacity of toothpastes containing TMP to reduce hydraulic conductance indicates their potential to reduce symptoms of dentinal hypersensitivity.
Literature
1.
Addy M, Urquhart E (1992) Dentine hypersensitivity: Its prevalence, aetiology and clinical management. Dental Update 19:407–412PubMed
2.
Brännström M, Astrom A (1972) The hydrodynamics of dentin: its possible relationship to dentinal pain. Int Dent J 22:219–227PubMed
3.
Pinto SC, Batitucci RG, Pinheiro MC, Zandim DL, Spin-Neto R, Sampaio JE (2010) Effect of an acid diet allied to sonic toothbrushing on root dentin permeability: an in vitro study. Braz Dent J 21:390–395CrossRef
4.
Pashley DH (1992) Dentin permeability and dentin sensitivity. Proc Finn Dent Soc 88:31–37PubMed
5.
Pradeep AR, Sharma A (2010) Comparison of clinical efficacy of a dentifrice containing calcium sodium phosphosilicate to a dentifrice containing potassium nitrate and to a placebo on dentinal hypersensitivity: a randomized clinical trial. J Periodontol 81:1167–1173CrossRef
6.
Addy M, Shellis RP (2006) Interaction between attrition, abrasion and erosion in tooth wear. Monogr Oral Sci 20:17–31CrossRef
7.
Walters PA (2005) Dentinal hypersensitivity: a review. J Contemp Dent Pract 6:107–117CrossRef
8.
Prati C, Venturi L, Valdre G, Mongiorgi R (2002) Dentin morphology and permeability after brushing with different toothpastes in the presence and absence of smear layer. J Periodontol 73:183–190CrossRef
9.
Schiff T, Zhang YP, DeVizio W, Stewart B, Chaknis P, Petrone ME, Volpe AR, Proskin HM (2000) A randomized clinical trial of the desensitizing efficacy of three dentifrices. Compend Contin Educ Dent Suppl 27:4–10
10.
Docimo R, Montesani L, Maturo P, Costacurta M, Bartolino M, DeVizio W, Zhang YP, Dibart S (2007) Desensitizing efficacy of a new toothpaste containing 5.5% potassium citrate: a 4-week clinical study. Am J Dent 20:209–211PubMed
11.
Miglani S, Aggarwal V, Ahuja B (2010) Dentin hypersensitivity: recent trends in management. J Conserv Dent 13:218–224CrossRef
12.
Yang ZY, Wang F, Lu K, Li YH, Zhou Z (2016) Arginine-containing desensitizing toothpaste for the treatment of dentin hypersensitivity: a meta-analysis. Clin Cosmet Investig Dent 8:1–14PubMedPubMedCentral
13.
Wilchgers TG, Emert RL (1997) Dentin hypersensibility. Oral Health 87:51–57
14.
Arrais CA, Micheloni CD, Giannini M, Chan DC (2003) Occluding effect of dentifrices on dentinal tubules. J Dent 31:577–584CrossRef
15.
Hooper SM, Newcombe RG, Faller R, Eversole S, Addy M, West NX (2007) The protective effects of toothpaste against erosion by orange juice: studies in situ and in vitro. J Dent 35:476–481CrossRef
16.
Favretto CO, Delbem ACB, Moraes JCS, Camargo ER, Toledo PTA, Pedrini D (2018) Dentinal tubule obliteration using toothpastes containing sodium trimetaphosphate microparticles or nanoparticles. Clin Oral Investig 22:3021–3029CrossRef
17.
Viana PS, Machado AL, Giampaolo ET, Pavarina AC, Vergani CE (2010) Microwave irradiation disinfection of bovine enamel. Caries Res 44:349–357CrossRef
18.
Greenhill JD, Pashley DH (1981) The effects of desensitizing agents on the hydraulic conductance of human dentin in vitro. J Dent Res 60:686–698CrossRef
19.
Pereira JC, Segalaa AD, Gillamb DG (2005) Effect of desensitizing agents on the hydraulic conductance of human dentin subjected to different surface pre-treatments-an in vitro study. Dent Mater 21:129–138CrossRef
20.
Rusin RP, Agee K, Suchko M, Pashley DH (2010) Effect of a new desensitizing material on human dentin permeability. Dent Mater 26:600–607CrossRef
21.
Ohtani O (1987) Three-dimensional organization of the connective tissue fibers of the human pancreas: a scanning electron microscopic study of NaOH treated-tissues. Arch Histol Jap 50:557–566CrossRef
22.
Ushiki T, Ide C (1990) Three-dimensional organization of the collagen fibrils in the rat sciatic nerve as revealed by transmission and scanning electron microscopy. Cell Tissue Res 260:175–184CrossRef
23.
De Castro LP, Delbem AC, Danelon M, Passarinho A, Percinoto C (2015) In vitro effect of sodium trimetaphosphate additives to conventional toothpastes on enamel demineralization. Clin Oral Investig 19:1683–1687CrossRef
24.
Danelon M, Pessan JP, Neto FN, Camargo ER, Delbem AC (2015) Effect of toothpaste with nano-sized trimetaphosphate on dental caries: in situ study. J Dent 43:806–813CrossRef
25.
Schipper R, Loof A, De Groot J, Harthoorn L, Dransfield E, van Heerde W (2007) SELDI-TOFMS of saliva: methodology and pre-treatment effects. J Chromatogr B 847:45–53CrossRef
26.
Wang Z, Jiang T, Sauro S, Pashley DH, Toledano M, Osorio R, Liang S, Xing W, Sa Y, Wang Y (2011) The dentine remineralization activity of a desensitizing bioactive glass-containing toothpaste: an in vitro study. Aust Dent J 56:372–381CrossRef
27.
Hanan SA, Marreiro RO (2009) Evaluation of the pH of soft drinks, juices and dairy beverages produced in the city of Manaus/AM, Brazil. Pesq Bras Odontoped Clin Integr 9:347–353CrossRef
28.
Barac RJ, Gasic J, Trutic N, Sunaric S, Popovic J, Djekic P, Radenkovic G, Mitic A (2015) Erosive effect of different soft drinks on enamel surface in vitro: application of stylus profilometry. Med Princ Pract 24:451–457CrossRef
29.
Santiago SL, Pereira JC, Martineli AC (2006) Effect of commercially available and experimental potassium oxalate-based dentin desensitizing agents in dentin permeability: influence of time and filtration system. Braz Dent J 17:300–305CrossRef
30.
Thanatvarakorn O, Nakashima S, Sadr A, Prasansuttiporn T, Ikeda M, Tagami J (2013) In vitro evaluation of dentinal hydraulic conductance and tubule sealing by a novel calcium-phosphate desensitizer. J Biomed Mater Res B Appl Biomater 101:303–309CrossRef
31.
Kolker JL, Vargas MA, Armstrong SR, Dawson DV (2002) Effect of desensitizing agents on dentin permeability and dentin tubule occlusion. J Adhes Dent 4:211–221PubMed
32.
Sauro S, Pashley DH, Montanari M, Chersoni S, Carvalho RM, Toledano M, Osorio R, Tay FR, Prati C (2007) Effect of simulated pulpal pressure on dentin permeability and adhesion of self-etch adhesives. Dent Mater 23:705–713CrossRef
33.
34.
Suge T, Ishikawa K, Kawasaki A, Yoshiyama M, Asaoka K, Ebisu S (1995) Effects of fluoride on the calcium phosphate precipitation method for dentinal tubule occlusion. J Dent Res 74:1079–1085CrossRef
Metadata
Title
Hydraulic conductance of dentin after treatment with fluoride toothpaste containing sodium trimetaphosphate microparticles or nanoparticles
Authors
Carla Oliveira Favretto
Alberto Carlos Botazzo Delbem
Priscila Toninatto Alves Toledo
Denise Pedrini
Publication date
01-04-2021
Publisher
Springer Berlin Heidelberg
Published in
Clinical Oral Investigations / Issue 4/2021
Print ISSN: 1432-6981
Electronic ISSN: 1436-3771
DOI
https://doi.org/10.1007/s00784-020-03516-w

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