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 Table of Contents  
ORIGINAL ARTICLE
Year : 2022  |  Volume : 19  |  Issue : 1  |  Page : 12

Long term antifungal efficacy of silver-zinc zeolite nanoparticles incorporated in two soft denture liners - An in vitro assessment


1 Department of Prosthodontics and Crown and Bridge, Goa Dental College and Hospital, Bambolim, Goa, India
2 Department of Microbiology, Goa Medical College and Hospital, Bambolim, Goa, India

Date of Submission20-Oct-2020
Date of Acceptance09-Nov-2021
Date of Web Publication28-Feb-2022

Correspondence Address:
Dr. Amanda Nadia Ferreira
Department of Prosthodontics and Crown and Bridge, Goa Dental College and Hospital, Bambolim, Goa
India
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/1735-3327.338775

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  Abstract 


Background: There is generally a lack of compliance in patients who report with oral candidiasis, as they are advised to temporarily stop wearing the prosthesis and are prescribed topical antifungals which are generally unpleasant to taste and follow a rigorous schedule. Furthermore, with the alarming evidence of drug resistance, there is a need for an enhanced drug and drug delivery system. The aim of the study was to determine the dose-dependent antifungal efficacy of silver-zinc zeolite nanoparticles (SZZ-NPs) when incorporated in two brands of soft denture liners against Candida albicans.
Materials and Methods: A total of 72 samples were made to determine the in vitro antifungal efficacy of SZZ-NPs and fluconazole by measuring the mean inhibition diameter (MID). Two concentrations of SZZ-NPs were compared (0.5%, 2% w/w) with fluconazole 5%w/w which is routinely prescribed. The antifungals were incorporated in two types of commercially available soft denture liners (Visco gel, GC soft denture liner). The MIDs were measured at day 1, day 7, day 15, and day 30. The values obtained (P < 0.001) were analyzed with one-way ANOVA, Tukey's post hoc, and independent t-test.
Results: A statistically significant difference (P < 0.001) was noted among all the antifungal agents at all the time intervals tested. The anti-fungal efficacy of SSZ-NPs 2% w/w incorporated in GC soft denture liner was significantly superior (P < 0.001) to all groups tested and it retained its antifungal efficacy even on day 30 (MID: 18.33 ± 2.44).
Conclusion: SZZ-NPs 0.5%w/w, 2%w/w, and fluconazole 5%w/w can be incorporated with soft denture liners against C. albicans. Fluconazole 5%w/w is the recommended choice for short-term antifungal efficacy, while SZZ-NPs 2%w/w is recommended when long-term antifungal efficacy is needed. GC soft denture liner was the recommended choice.

Keywords: Candida albicans, drug delivery systems, drug resistance, nanoparticles, zeolites


How to cite this article:
Ferreira AN, D'Souza K, Aras M, Chitre V, Parsekar S, Pinto MJ. Long term antifungal efficacy of silver-zinc zeolite nanoparticles incorporated in two soft denture liners - An in vitro assessment. Dent Res J 2022;19:12

How to cite this URL:
Ferreira AN, D'Souza K, Aras M, Chitre V, Parsekar S, Pinto MJ. Long term antifungal efficacy of silver-zinc zeolite nanoparticles incorporated in two soft denture liners - An in vitro assessment. Dent Res J [serial online] 2022 [cited 2022 Sep 30];19:12. Available from: https://www.drjjournal.net/text.asp?2022/19/1/12/338775




  Introduction Top


Denture-induced stomatitis is commonly encountered during the use of acrylic dentures. Candida albicans (C. albicans) is the predominant pathogen, associated with this opportunistic infection.[1],[2] Maintenance of oral hygiene, adequate denture cleansing, and the therapeutic use of topical antifungals aid in the prevention, progression, and elimination of the infection. The high recurrence rate of denture-induced candidiasis can be attributed to the rapid clearance of the topical antifungal by saliva and tongue movements.[3] Geriatric denture wearers often have poor vision and limited motor skills and are unable to clean the dentures effectively, thus creating an ideal environment for biofilm formation.[3],[4]

Triazole antifungals are routinely prescribed in cases of oral candidiasis and have to be applied at the site twice daily for 3–4 weeks. This tedious anti-fungal application regime coupled with its unpleasant taste has reduced patient compliance. Numerous studies have also reported drug resistance, due to its indiscriminate use.[5]

To overcome these shortcomings, the incorporation of antifungal agents in various dental materials was considered. Silver zinc zeolites nanoparticles (SZZ-NPs) are broad-spectrum antimicrobials made of crystalline aluminosilicate, in which silver and zinc ions are lodged within the void spaces. These ions are continuously released in small amounts to exert an anti-microbial effect against aerobic, anaerobic bacteria, and fungi alike.[6],[7] Since silver rarely caused resistant microorganisms to develop,[8] it can be postulated that SZZ-NPs can be incorporated in soft denture liners as a method of drug delivery system and have the potential to reduce the possibility of biofilm formation by pathogenic fungi.

The purpose of this in vitro study was to evaluate and compare the antifungal efficacy of SZZ-NPs 0.5%w/w and 2%w/w with fluconazole 5%w/w when incorporated in two brands of commercially available soft denture liners against C. albicans over the course of 30 days. The null hypothesis was that there would be no significant difference between the antifungal efficacy of SZZ-NPs 0.5%w/w, SZZ-NPs 2%w/w, and fluconazole 5%w/w and the two denture liners, at the time intervals tested.


  Materials And Methods Top


This in vitro study was carried out aseptically using standard barrier techniques.

Preparation and inoculation of agar plates

C. albicans (ATCC MYA-2719) was inoculated into Sabouraud dextrose broth and incubated at 37°C. After 8 h, the C. albicans suspension was standardized by dilution with sterile broth to a density visually equivalent to barium sulfate standard; McFarland tube number 5. A drop of diluted C. albicans solution was placed on each sterile Sabouraud agar plate, and a lawn culture was made. The agar punch wall method was used to prepare three wells (5-mm deep, 6 mm in diameter) in each agar plate using a glass capillary tube.

Weighing and incorporating the antifungal agent with denture liner

Viscogel (Dentsply, Germany) and GC (GC Soft Liner, Japan) was dispensed according to the manufacturer's instructions and weighed. SZZ-NPs 0.5% w/w, 2% w/w (Irgaguard B5000 Reena chemicals, India), and fluconazole 5% w/w (Adcock Ingram Healthcare, India) was then incorporated in the powder of the soft denture liners. All specimens were weighed on a precise digital scale.

The antifungal agent was mixed using a plastic spatula and incorporated into the denture liners in various concentrations[9] (SZZ-NPs 0.5, 2% w/w, Fluconazole5%w/w). The mix was dispensed into the punch holes of the inoculated Petri plates and then incubated for 30 days at 37°C. The mean inhibition diameter (MID) for each test punch hole was measured in millimeters, using a graduated metal ruler [Figure 1]. A total of 72 samples were made and divided into groups with 18 samples each. Group 1 and group 2 had SZZ-NPs incorporated with 0.5%w/w and 2% w/w, respectively. Group 3 was incorporated with 5% w/w fluconazole and group 4 was the control and left unmodified. Each group was further divided into two subgroups depending on the soft denture liner used (n = 9). Triplicates were done of each concentration and material to check the repeatability of the antifungal effect. MID was measured on days 1, 7, 15 and 30, for all groups tested [Figure 2].
Figure 1: Mean inhibition diameter was measured in millimeters, across each test punch hole using a graduated metal ruler.

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Figure 2: Mean inhibition diameters were recorded at day 1, day 7, day15, and day 30.

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  Results Top


The data obtained were analyzed using the SPSS (Statistical Package for the Social Sciences, version 22, Chicago, IL, USA) software. The comparison between the antifungal agents when incorporated in denture liners, was done using One-way ANOVA test and Tukey's post hoc test and are represented in [Table 1] and [Figure 3]. At the end of day 1, the mean MID was the highest with fluconazole 5% w/w. By Day 7 and 15, SZZ-NPs 2%w/w showed a higher MID mean value among all the antifungal agents tested followed closely by fluconazole 5%w/w. The mean of SZZ-NPs 2% was also found to be the highest on day 30 followed by SZZ-NPs 0.5%w/w. A statistically highly significant difference (P < 0.001) was noted among all the antifungal agents at all the time intervals.
Table 1: Comparison of antifungal agents used with the denture liners at various time intervals

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Figure 3: Mean values of antifungal agents at various time intervals.

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An independent t-test was used to compare Viscogel and GC at the various time intervals for each of the antifungal agents and is described in [Table 2] and [Figure 4]. Accordingly, for SZZ-NPs 0.5%w/w, GC denture liner was found to have the highest mean values at days 1, 7, 15, and 30. A similar outcome was noted with respect to SZZ-NPs 2%w/w and fluconazole 5%w/w. The mean values obtained in the control group were 6.00 at all-time intervals. A significant difference (P < 0.001) was noted between the values for Viscogel and GC on day 1 and a highly significant difference (P < 0.001) on day 30 when SZZ-NPs 0.5%w/w was incorporated. The values for antifungal agent SZZ-NPs 2%w/w were highly significant (P < 0.001) at all the time intervals. A similar trend was observed with fluconazole 5%w/w, except that on day 30 no significant difference was noted between the 2 denture liners tested.
Table 2: Comparison of denture liners (viscogel and GC) with the antifungal agents used at the various time intervals

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Figure 4: Mean values of Viscogel and GC at various time intervals.

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  Discussion Top


In this study, there was a significant difference (P < 0.001) between the antifungal efficacy of SZZ-NPs and fluconazole against C. albicans when incorporated in two commercially available soft denture liners. The differences between the denture liners (Viscogel and GC) when incorporated with the antifungal agents, were not significant at all the time intervals tested. Hence, the null hypothesis was partially accepted and partially rejected.

Figueiral et al.[10] in their clinical study established that the treatment of patients with denture stomatitis using fluconazole provided short-term relief. He also observed that patients had developed a certain level of antimicrobial resistance to fluconazole. SZZ-NPs are broad-spectrum anti-microbial agents, in which silver and zinc antimicrobial ions are present in the void spaces of their crystalline aluminosilicate structure. These anti-microbial ions are continuously released in small amounts and come into contact with environmental microorganisms. They suppress their development by inactivating vital microbial enzymes, interrupting RNA replication, and blocking their respiration by an oxidative process.[6],[7],[11] Zeolites containing silver and zinc ions can be successfully incorporated into dental materials as they have sustained antimicrobial activity, low toxicity, are odorless and tasteless while being chemically stable against temperature and humidity changes.[12],[13]

These modified soft denture liners play a vital role in denture plaque control as saliva has no effect on its antifungal property.[14] Various authors have concluded that this method of drug delivery system has a significant inhibitory effect on the growth of Candida species by allowing a continuous presence of drug at the site, and in minimum concentrations.[15],[16],[17] The minimum concentration of fluconazole required to have antifungal efficacy against C. albicans is 5% w/w, and increasing the concentration had no significant effect.[9] Also, it was noted that 0.5% w/w SZZ-NPs was the minimum concentration required to have antifungal efficacy against C. albicans[18] and increasing the concentration of zeolite beyond 2.5%, resulted in a significant decrease in mechanical properties.[13] It is generally recommended to add 0.2%–2% zeolite by weight.[7],[19] Our study parameters were thus determined based on the findings from these studies.

Commonly used denture liners which did not have any inherent antifungal activity were chosen. This was demonstrated by the growth of C. albicans during the entire duration of the study in the control group.

The present study assessed the antifungal efficacy at four-time intervals. The short time duration of 1 and 7 days, was decided as denture liners continue to flow for 7 days and were clinically effective throughout this period.[20] The longer time duration of 15 and 30 days was decided upon, as most denture liners are replaced every 2–4 weeks depending on the patient's oral hygiene.[9]

Among the antifungals tested, 0.5% SZZ-NPs showed the lowest antifungal efficacy on day 1, but it steadily increased by day 15, and then declined by day 30. 2% SZZ-NPs on the other hand, showed inferior antifungal efficacy compared to 5% fluconazole on day 1, but by day 7, it was superior to all antifungals tested. It retained its antifungal efficacy even on day 30. On day 1, fluconazole 5% showed the highest antifungal efficacy, but it rapidly declined and by day 30, the antifungal activity seen was minimal. These differences could be attributed to the differences in the rates of release of each antifungal agent, fluconazole having a faster release and shorter half-life (20-50 h) compared to SZZ-NPs which has a porous structure and allows for the sustained cation release of antimicrobial metals and secondary regeneration by ion-exchange when metals are depleted.[21] Another in vitro study also reported prolonged anti-microbial effects on C. albicans and bacteria causing nosocomial respiratory infection, lasting nearly 4 weeks with tissue conditioners incorporated with silver zeolites.[22]

The differences in the amount of antifungal resistance in various other studies were probably due to the innate features of the tested strains. This study used the ATCC MYA-2719 strain of C. albicans as its biofilm mass was comparable to that of clinical isolates.[23],[24],[25] Agar punch well technique and SDA was used, which ensured accuracy of the MID measurements, as is highly specific for C. albicans.

The antifungal efficacy of the various antifungals tested, showed superior values when incorporated with GC comparatively. This is consistent with another study by Matsuura et al.[22] which compared the prolonged antimicrobial effect of tissue conditioners containing silver-zeolites and found that VG lost their antifungal effects on C. albicans in four weeks. This phenomenon is credible given that some components of tissue conditioners, like ethanol, are time dependently released from the material.[26]

There is no report in the literature on the antifungal efficacy of these modified denture liners over the entire intended span of denture liner use (30 days). No other study compared the difference in the antifungal efficacy between various brands of soft denture liners. However, it was limited to two brands of soft denture liners. Further research is warranted by means of in vivo clinical trials.


  Conclusion Top


Within the limitations of the study, it can be concluded that SZZ-NPs 0.5%w/w, 2%w/w and fluconazole 5%w/w can be incorporated with soft denture liners against C. albicans. The antifungal efficacy depends not only on the antifungal agent and its concentrations but also on the brand of soft denture liner used. Fluconazole 5%w/w is the recommended choice for short-term antifungal efficacy, while SZZ-NPs 2%w/w is recommended when long-term antifungal efficacy is needed. GC soft denture liner was the recommended choice.

Acknowledgment

Dr. Fhelen Da Costa, MDS Public Health Dentistry, for her immense help with the statistical data and analysis.

Financial support and sponsorship

Nil.

Conflicts of interest

The authors of this manuscript declare that they have no conflicts of interest, real or perceived, financial or non-financial in this article.



 
  References Top

1.
Ansarifard E, Zareshahrabadi Z, Sarafraz N, Zomorodian K. Evaluation of antimicrobial and antibiofilm activities of copper oxide nanoparticles within soft denture liners against oral pathogens. Bioinorg Chem Appl 2021;2021:9939275,7 pages.  Back to cited text no. 1
    
2.
Hamid SK, Alghamdi LA, Alshahrani FA, Khan SQ, Matin A, Gad MM. In vitro assessment of artificial aging on the antifungal activity of PMMA denture base material modified with ZrO2 nanoparticles. Int J Dent 2021;2021:5560443, 9 pages.  Back to cited text no. 2
    
3.
Pachava KR, Shenoy KK, Nadendla LK, Reddy MR. Denture stomatitis - A review. Indian J Dent Adv 2013;5:1107-12.  Back to cited text no. 3
    
4.
Pietrokovski J, Azuelos J, Tau S, Mostavoy T. Oral findings in elderly nursing home residents in selected countries: Oral hygiene conditions and plaque accumulation on denture surfaces. J Prosthet Dent 1995;73:136-41.  Back to cited text no. 4
    
5.
Garcia-Cuesta C, Sarrion-Pérez MG, Bagán JV. Current treatment of oral candidiasis: A literature review. J Clin Exp Dent 2014;6:e576-82.  Back to cited text no. 5
    
6.
Inoue Y, Hoshino M, Takahashi H, Noguchi T, Murata T, Yasushii K, et al. Bactericidal activity of Ag-zeolite mediated by reactive oxygen species under aerated condition. J Inorg Biochem 2002;92:37-42.  Back to cited text no. 6
    
7.
Hao J, Lang S, Mante F, Pavelić K, Ozer F. Antimicrobial and mechanical effects of zeolite use in dental materials: A systematic review. Acta Stomatol Croat 2021;55:76-89.  Back to cited text no. 7
    
8.
Dorjnamjin D, Ariunaa M, Shim YK. Synthesis of silver nanoparticles using hydroxyl functionalized ionic liquids and their antimicrobial activity. Int J Mol Sci 2008;9:807-20.  Back to cited text no. 8
    
9.
Sharma S, Hegde V. Comparative evaluation of antifungal activity of melaleuca oil and fluconazole when incorporated in tissue conditioner: An in vitro study. J Prosthodont 2014;23:367-73.  Back to cited text no. 9
    
10.
Figueiral MH, Fonseca P, Lopes MM, Pinto E, Pereira-Leite T, Sampaio-Maia B. Effect of denture-related stomatitis fluconazole treatment on oral Candida Albicans susceptibility profile and genotypic variability. Open Dent J 2015;9:46-51.  Back to cited text no. 10
    
11.
Kawahara K, Tsuruda K, Morishita M, Uchida M. Antibacterial effect of silver-zeolite on oral bacteria under anaerobic conditions. Dent Mater 2000;16:452-5.  Back to cited text no. 11
    
12.
Belkhair S, Kinninmonth M, Fisher L, Gasharova B, Liauw CM, Verran J, et al. Silver zeolite-loaded silicone elastomers: A multidisciplinary approach to synthesis and antimicrobial assessment. RSC Adv 2015;5:40932-9.  Back to cited text no. 12
    
13.
Casemiro LA, Gomes Martins CH, Pires-de-Souza Fde C, Panzeri H. Antimicrobial and mechanical properties of acrylic resins with incorporated silver-zinc zeolite - Part I. Gerodontology 2008;25:187-94.  Back to cited text no. 13
    
14.
Abe Y, Ishii M, Takeuchi M, Ueshige M, Tanaka S, Akagawa Y. Effect of saliva on an antimicrobial tissue conditioner containing silver-zeolite. J Oral Rehabil 2004;31:568-73.  Back to cited text no. 14
    
15.
Pachava KR, Nadendla LK, Alluri LS, Tahseen H, Sajja NP. In vitro antifungal evaluation of denture soft liner incorporated with tea tree oil: A new therapeutic approach towards denture stomatitis. J Clin Diagn Res 2015;9:C62-4.  Back to cited text no. 15
    
16.
Chladek G, Mertas A, Barszczewska-Rybarek I, Nalewajek T, Zmudzki J, Król W, et al. Antifungal activity of denture soft lining material modified by silver nanoparticles-a pilot study. Int J Mol Sci 2011;12:4735-44.  Back to cited text no. 16
    
17.
Deng J, Ren L, Pan Y, Gao H, Meng X. Antifungal property of acrylic denture soft liner containing silver nanoparticles synthesized in situ. J Dent 2021;106:103589.  Back to cited text no. 17
    
18.
Nam KY. In vitro antimicrobial effect of the tissue conditioner containing silver nanoparticles. J Adv Prosthodont 2011;3:20-4.  Back to cited text no. 18
    
19.
Godil AZ, Bhagat D, Das P, Kazi AI, Dugal R, Satpute S. Incorporation of fluconazole and Ocimum sanctum oil in soft denture liners to treat biofilms of Candida albicans associated with denture stomatitis. Dentistry 3000 2021;1:a001.  Back to cited text no. 19
    
20.
Graham BS, Jones DW, Sutow EJ. Clinical implications of resilient denture lining material research. Part II: Gelation and flow properties of tissue conditioners. J Prosthet Dent 1991;65:413-8.  Back to cited text no. 20
    
21.
Chernousova S, Epple M. Silver as antibacterial agent: Ion, nanoparticle, and metal. Angew Chem Int Ed Engl 2013;52:1636-53.  Back to cited text no. 21
    
22.
Matsuura T, Abe Y, Sato Y, Okamoto K, Ueshige M, Akagawa Y. Prolonged antimicrobial effect of tissue conditioners containing silver-zeolite. J Dent 1997;25:373-7.  Back to cited text no. 22
    
23.
Alnuaimi AD, O'Brien-Simpson NM, Reynolds EC, McCullough MJ. Clinical isolates and laboratory reference Candida species and strains have varying abilities to form biofilms. FEMS Yeast Res 2013;13:689-99.  Back to cited text no. 23
    
24.
Ferreira AN, D'souza K, Aras M, Chitre V, Parsekar S, Pinto MJ. Antifungal efficacy of silver zinc zeolite nanoparticles in denture liners - An in vitro study. EC Pharmacol Toxicol 2021;9:117-25.  Back to cited text no. 24
    
25.
Chong WX, Lai YX, Choudhury M, Amalraj FD. Efficacy of incorporating silver nanoparticles into maxillofacial silicone against Staphylococcus aureus, Candida albicans, and polymicrobial biofilms. J Prosthet Dent 2021; Mar 5:S0022-3913(21)00049-4.  Back to cited text no. 25
    
26.
Jones DW, Sutow EJ, Hall GC, Tobin WM, Graham BS. Dental soft polymers: Plasticizer composite and leachability. Dent Mater 1988;4:1-7.  Back to cited text no. 26
    


    Figures

  [Figure 1], [Figure 2], [Figure 3], [Figure 4]
 
 
    Tables

  [Table 1], [Table 2]


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