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Antimicrobial activity of complete denture cleanser solutions based on sodium hypochlorite and Ricinus communis – a randomized clinical study

ABSTRACT

To preserve oral health and to maintain the prosthetic devices, it is important not only to improve the properties of commonly known hygiene products, but also to investigate new materials with antimicrobial action.

Objectives

This study evaluated the antimicrobial activity of sodium hypochlorite (0.25% and 0.50%) and 10% Ricinus communis’ solutions against specific microorganisms.

Material and Methods

Sixty four maxillary complete denture wearers were instructed to brush their dentures three times a day and to soak them (20 min/day) in the solutions: SH1: 0.25% sodium hypochlorite; SH2: 0.5% sodium hypochlorite; RC: 10% R. communis oil; and C: 0.85% saline (control). The solutions were used for 7 days in a randomized sequence. Following each period of use, there was a 1-week washout period. Antimicrobial activity was determined by Colony Forming Units (CFU) counts of Streptococcus mutans, Candida spp., and gram-negative microorganisms. For collecting biofilm, the internal surface of maxillary dentures was brushed with saline solution, and biofilm suspension obtained. After dilutions (100 - 10-3), aliquots were seeded in Mitis salivarius, CHROMagar Candida®, and MacConkey agar for detecting S. mutans, Candida spp., or gram-negative microorganisms, respectively. After incubation, colonies were counted, and CFU/mL values were calculated. Then, transformation - log10 (CFU+1) - data were analyzed using the Friedman test (α=0.05). Results showed significant differences between the solutions (p<0.001).

Results

All three solutions showed antimicrobial activity against S. mutans. Against Candida spp., RC and SH1 solutions showed similar effect while SH2 showed superior activity. SH1 and SH2 solutions showed antimicrobial action against gram-negative microorganisms. The Candida species most frequently isolated was C. albicans, followed by C. tropicalis and C. glabrata.

Conclusions

The 0.5% sodium hypochlorite solution was the most effective and might be used to control denture biofilm. C. albicans was the most frequently isolated Candida sp.

Biofilms; Denture cleansers; Sodium hypochlorite; Castor oil; Complete denture

INTRODUCTION

Denture biofilms contain microorganisms that can cause local and systemic infections66 - Coulthwaite L, Verran J. Potential pathogenic aspects of denture plaque. Br J Biomed Sci. 2007;64:180-9.. Although several methods have been indicated to control denture biofilms, studies have shown that chemical cleansers and brushing are the most effective11 - Andrade IM, Andrade KM, Pisani MX, Silva-Lovato CH, Souza RF, Paranhos HF. Trial of an experimental castor oil solution for cleaning dentures. Braz Dent J. 2014;25:43-7.,2222 - Porta SR, Lucena-Ferreira SC, Silva WJ, Del Bel Cury AA. Evaluation of sodium hypochlorite as a denture cleanser: a clinical study. Gerodontology. 2013;doi: 10.1111/ger.12104. Epub ahead of print.
https://doi.org/10.1111/ger.12104...
. Ease of use, ability to remove microorganisms present in the microporosity on the surface of acrylic resins, and incorporation of agents with antimicrobial activity are the main advantages of using chemical cleansers for maintaining oral hygiene88 - Felton D, Cooper L, Dugum I, Minsley G, Guckes A, Haug S, et al. Evidence-based guidelines for the care and maintenance of complete dentures: a publication of the American College of Prosthodontics. J Prosthodont. 2011;20(Suppl 1):S1-12.. The main disadvantage is the possible adverse effect on the prosthetic device, depending on the immersion time and concentration used1717 - Paranhos HF, Bezzon OL, Davi LR, Felipucci DN, Silva CH, Pagnano VO. Effect of cleanser solutions on the color of acrylic resins associated with titanium and nickel-chromium alloys. Braz Oral Res. 2014;28:1-7.,1818 - Paranhos HF, Peracini A, Pisani MX, Oliveira VC, Souza RF, Silva-Lovato CH. Color stability, surface roughness and flexural strength of an acrylic resin submitted to simulated overnight immersion in denture cleansers. Braz Dent J. 2013;24:152-6..

Sodium hypochlorite is a chemical solution that is routinely recommended for cleaning dentures. Although it is an effective disinfecting agent1616 - Orsi IA, Junior AG, Villabona CA, Fernandes FH, Ito IY. Evaluation of the efficacy of chemical disinfectants for disinfection of heat-polymerized acrylic resin. Gerodontology. 2011;28:253-7.,3030 - Webb BC, Thomas CJ, Whittle T. A 2-year of Candida-associated denture stomatitis treatment in aged care subjects. Gerodontology. 2005;22:168-76., its use is limited because it whitens acrylic resins1818 - Paranhos HF, Peracini A, Pisani MX, Oliveira VC, Souza RF, Silva-Lovato CH. Color stability, surface roughness and flexural strength of an acrylic resin submitted to simulated overnight immersion in denture cleansers. Braz Dent J. 2013;24:152-6. and corrodes metal components of prostheses77 - Felipucci DN, Davi LR, Paranhos HF, Bezzon OL, Silva RF, Barbosa Júnior F, et al. Effect of different cleansers on the weight and ion release of removable partial denture: an in vitro study. J Appl Oral Sci. 2011;19:483-7.,1717 - Paranhos HF, Bezzon OL, Davi LR, Felipucci DN, Silva CH, Pagnano VO. Effect of cleanser solutions on the color of acrylic resins associated with titanium and nickel-chromium alloys. Braz Oral Res. 2014;28:1-7.. A factor to be pointed out is the importance to evaluate its effectiveness through randomized controlled clinical trials, since most of in vivo studies have been developed without standardization2828 - Souza RF, Paranhos HF, Silva-Lovato CH, Abu-Naba’a L, Fedorowicz Z, Gurgan CA. Interventions for cleaning dentures in adults. Cochrane Database Syst Rev. 2009;(4):CD007395..

Oil derived from castor bean (Ricinus communis) is used in the medical field because of its biocompatibility and bactericidal and fungicidal effects1111 - Laureano Filho JR, Andrade ES, Albergaria-Barbosa JR, Camargo IG, Garcia RR. Effects of demineralized bone matrix and a ‘Ricinus communis’ polymer on bone regeneration: a histological study in rabbit calvaria. J Oral Sci. 2009;51:451-6.. In Dentistry, new specific formulations have been developed such as Endoquil, an irrigating solution for root canals1515 - Meneghin MP, Nomelini SM, Souza-Neto MD, Marchesan MA, França SC, Santos HS. Morphologic and morphometric analysis of the root canal apical third cleaning after biomechanical preparation using 3.3% Ricinus communis detergent and 1% NaOCl as irrigating solutions. J App Oral Sci. 2006;14:178-82., and Perioquil, a mouthwash used in periodontology and prosthodontics1919 - Pinelli LA, Montandon AA, Corbi SC, Moraes TA, Fais LM. Ricinus communis treatment of denture stomatitis in institutionalised elderly. J Oral Rehabil. 2013;40:375-80.. Concerning complete denture cleanser, a 2% R. communis oil solution has shown moderate efficacy in removing denture biofilms. Moreover, authors have highlighted the importance of studying other concentrations of R. communis oil11 - Andrade IM, Andrade KM, Pisani MX, Silva-Lovato CH, Souza RF, Paranhos HF. Trial of an experimental castor oil solution for cleaning dentures. Braz Dent J. 2014;25:43-7..

Because of the complex composition and maturation degree of the denture biofilms, it is important to evaluate the antimicrobial activity of cleanser solutions. This property has been evaluated using different methods, but comparing their results is difficult, and there is no consensus on the most effective chemical cleanser. In addition, only few randomized controlled trials have been performed on immersion denture cleansers, and even fewer trials have been performed using adequate methods2828 - Souza RF, Paranhos HF, Silva-Lovato CH, Abu-Naba’a L, Fedorowicz Z, Gurgan CA. Interventions for cleaning dentures in adults. Cochrane Database Syst Rev. 2009;(4):CD007395.. Therefore, this crossover randomized clinical trial aimed to evaluate the antimicrobial activity of sodium hypochlorite (0.25% and 0.50%) and R. communis oil (10%) solutions along with the mechanical method of brushing against Streptococcus mutans, Candida spp., and gram-negatives. As a complementary analysis, the study identified Candida spp. frequently present in denture biofilms and their resistance to main antifungal agents. The null hypothesis tested was that immersion in denture cleansers and a control medium would have the same antimicrobial action against the evaluated biofilm.

MATERIAL AND METHODS

Subject selection and solutions

The study was approved by the Institutional Review Board of the School of Dentistry of Ribeirão Preto (FORP/USP) (Brazilian Ethics System register number, CAAE 0007.0.138.000-08) and obtained a signed informed consent form from the participants. Seventy-six individuals, who visited the Complete Denture Clinic of FORP/USP for new complete dentures confection, during a school semester, were evaluated for possible participation in this study. Inclusion criteria comprised: adult patients, both genders, any age, good general health, complete edentulism and wearing of, at least, maxillary complete dentures fabricated by heat-polymerized acrylic resin and acrylic artificial teeth. The exclusion criteria were: dentures that had been used for less than 01 year, as well as the relined, repaired, or fractured ones.

Participants were instructed to brush their dentures three times a day (after breakfast, lunch, and dinner) with a specific brush (Bitufo®, Itupeva, SP, Brazil) and neutral liquid soap (Pleasant, Perol Commercial and Industrial Ltda., Ribeirão Preto, SP, Brazil), and to soak the dentures (for 20 min) once a day in 200 mL of the following solutions: SH1: 0.25% sodium hypochlorite (Inject Center, Ribeirão Preto, SP, Brazil); SH2: 0.5% sodium hypochlorite (Inject Center); RC: 10% R. communis oil solution (Institute of Chemistry, University of São Paulo, São Carlos, SP, Brazil); and C: 0.85% saline solution (control; sodium chloride P.A.; Labsynth Laboratory Products Ltda., Diadema, SP, Brazil). All participants used each solution for 7 days in a random sequence. Following each period of use, there was a 1-week washout period during which the patients used the specific brush and neutral liquid soap to clean their dentures.

Microbiological analysis

Biofilms were collected from the maxillary dentures of each participant at five time points, i.e., before using the solutions (baseline) and after using them. Before using each solution, the internal surfaces were stained by a disclosing solution (1% neutral red), cleaned by researchers with a specific brush (Bitufo®, Itupeva, SP, Brazil) and neutral liquid soap (Pleasant, Perol Commercial and Industrial Ltda., Ribeirão Preto, SP, Brazil), and then returned to the patients in the same clinical initial condition. Biofilms were collected in an aseptic zone by placing each complete maxillary denture in a sterile Petri dish. Dentures were rinsed with 10 mL saline solution, and their internal surfaces were brushed (Tek, Johnson & Johnson Brazil’s Industry and Commerce Healthcare Products Ltda., São José dos Campos, SP, Brazil) for 2 min. The biofilm suspension obtained was vortexed for 2 min and diluted in decimal series (100 - 10-3). Then, 50 µL aliquots from the decimal dilutions were cultured in Petri dishes containing Mitis salivarius agar base (more bacitracin solution and 20% sucrose), MacConkey agar, and CHROMagar® Candida for detecting S. mutans, gram-negative microorganisms, and Candida spp., respectively. Culture media were incubated at 37°C according to each respective condition: candle jar for 48 - 72 h (mutans group), or aerobiosis for 48 h (gram-negative and Candida spp).

After incubation, the number of colonies for each dilution was counted. Based on the dilution that provided 1 - 300 colonies, colony forming units (CFUs) were determined using the formula CFU/mL=number of colonies x 10n/q, where “n” is the absolute value of the dilution (0, 1, 2, or 3) and “q” is the quantity of plated suspension (0.05 mL).

For Candida spp., the number of colonies was counted and the species were identified based on the chromogenic properties of the medium. Each identified species was confirmed using yeasts kit (Candifast®, ELITech Microbio, Signes, France); in addition, the resistance to antifungal agents, such as amphotericin B, nystatin, flucytosine, econazole, ketoconazole, miconazole, and fluconazole, was evaluated.

In order to conceal the ones involved, the solutions were dispensed in identical dark flasks and delivered without specific identification, and in the quantity to be used for a period of seven days. Each cleanser solution was used by the participants in a random sequence. Researcher P1, who was not involved in the other operational phases of the study, used a computer program to obtain a list of random numbers corresponding to the possible sequences of the treatment. Researcher P2 received these numbers and distributed the solutions to the participants. Researcher P3 implemented hygiene instructions and collected the prostheses. Researcher P4 collected the biofilms while researcher P5 washed the prostheses to ensure the complete elimination of the biofilms. Researcher P2 obtained variable information and provided it to researcher P1, who performed statistical analyses. Thus, during the study, all researchers, as well as the participants, were blinded to the applied solutions.

Data analysis

The data (CFU+1) were transformed in log10. The values did not adhere to normal distribution, as verified using Kolmogorov Smirnov test. The test solutions were compared using Friedman test (α=0.05), followed by multiple comparisons with Wilcoxon test (α=0.005), and were corrected using Bonferroni method. All statistical tests were performed using SPSS 17.0 software (SPSS Inc., Chicago, IL, USA).

RESULTS

Seventy-six participants were invited to participate in the study (screening). Of these, five participants were excluded because they did not wear maxillary complete dentures. Of the remaining 71 participants, four did not properly attend to the scheduled returns due to health problems, one discontinued the treatment, and two withdrew from the study because of improper use of the solutions and hence were excluded from statistical analyses. Thus, the final study sample comprised 64 participants (14 men and 50 women) with a mean age of 68 years.

Figure 1 shows the CFU/mL values transformed into log10 (CFU+1).

Figure 1
Log (CFU/mL+1) of Candida spp., gram-negative microorganisms and S. mutans counts at baseline and after using the solutions

Friedman test showed a significant difference between the test solutions (p<0.001). Table 1 summarizes the mean posts and the results of multiple comparison.

Table 1
Mean posts (MP) and results of Friedman test

Regarding the Candida spp., R. communis solution presented similar action to 0.25% sodium hypochlorite (p=0.155), with results inferior to 0.5% hypochlorite (p=0.003). For gram-negative microorganisms, the 0.25% and 0.5% sodium hypochlorite solutions showed similar action (p<0.001), while the R. communis solution proved to be ineffective (p=0.574). The results showed antimicrobial activity of three tested solutions on S. mutans (p<0.001).

During the study, C. albicans, C. glabrata, C. tropicalis, and C. parapsilosis were the most frequently isolated Candida spp. from denture biofilms. C. albicans was the most frequently detected Candida sp. in biofilms isolated at baseline and after the use of cleanser solutions, followed by C. tropicalis and C. glabrata.

Of the 159 isolated strains, only 18 (11.3%) were resistant to at least one of the tested antifungals, highlighting their resistance to azole compounds. None of the isolated strains was resistant to polyene compounds.

DISCUSSION

This study evaluated the antimicrobial action of alkali hypochlorite and R. communis solutions through a randomized clinical trial. Both methods (brushing and soaking) were employed in a standardized way. Test solutions were used in a crossover configuration and in a randomized sequence. We tried to minimize bias and blind the researchers, participants, and statisticians whenever possible. The dentures were brushed with a neutral soap, an auxiliary agent with no antimicrobial or therapeutic properties. Both solutions were employed at room temperature (23±2°C) for 20 min, since denture wearers are reluctant to stay without the dentures for prolonged periods and an ideal cleanser must show efficacy in short periods of immersion88 - Felton D, Cooper L, Dugum I, Minsley G, Guckes A, Haug S, et al. Evidence-based guidelines for the care and maintenance of complete dentures: a publication of the American College of Prosthodontics. J Prosthodont. 2011;20(Suppl 1):S1-12..

Antimicrobial activities of both sodium hypochlorite and R. communis oil solutions were evaluated against Candida spp., which cause denture stomatitis2424 - Salerno C, Pascale M, Contaldo M, Esposito V, Busciolano M, Milillo L, et al. Candida-associated denture stomatitis. Med Oral Patol Oral Cir Bucal. 2011;16:e139-43.; S. mutans, which colonize prosthetic surfaces2929 - Thein ZN, Samaranayake YH, Samaranayake LP. Effect of oral bacteria on growth and survival of Candida albicans biofilms. Arch Oral Biol. 2006;51:672-80. and cause denture stomatitis; and gram-negative microorganisms, which are not normal microbiota of the oral cavity and cause bacteremia because of biofilm formation2727 - Silveira IR, Maia FO, Gnatta JR, Lacerda RA. Oral hygiene: a relevant practice to prevent hospital pneumonia in critically ill patients. Acta Paul Enferm. 2010;23:697-700..

Results showed that the test solutions affected the microbial count, as evidenced by a reduction in CFU after the first visit (baseline). In addition, effective brushing, particularly with specific brushes, and participants’ motivation to maintain oral hygiene may have contributed to this reduction2828 - Souza RF, Paranhos HF, Silva-Lovato CH, Abu-Naba’a L, Fedorowicz Z, Gurgan CA. Interventions for cleaning dentures in adults. Cochrane Database Syst Rev. 2009;(4):CD007395..

Clinical studies have reported the antimicrobial activity and denture biofilm removal capacity of 1% - 5.25% sodium hypochlorite solutions11 - Andrade IM, Andrade KM, Pisani MX, Silva-Lovato CH, Souza RF, Paranhos HF. Trial of an experimental castor oil solution for cleaning dentures. Braz Dent J. 2014;25:43-7.,1010 - Kulak Y, Arikan A, Albak S, Okar I, Kazazoğlu E. Scanning electron microscopic examination of different cleansers: surface contaminant removal from dentures. J Oral Rehabil. 1997;24:209-15.. This efficacy has been related to the solvent action as well as to the bactericidal and fungicidal properties of this solution. In this study, we used 0.25% and 0.5% sodium hypochlorite solutions to avoid adverse effects on acrylic resin. However, immersion in a 0.5% solution, employed for 20 min a day, did not cause clinical significant alterations on the color, surface roughness, and flexural strength of an acrylic resin in a simulated period of 5 years of use22 - Arruda CN, Sorgini DB, Oliveira VC, Macedo AP, Lovato CH, Paranhos HF. Effects of denture cleansers on heat-polymerized acrylic resin - a five-year-simulated period of use. Braz Dent J. 2015;26:404-8..

Our findings showed that 0.25% and 0.5% sodium hypochlorite solutions were effective and significantly reduced CFUs compared with saline (control). These results are relevant, since it shows, by a randomized clinical trial, the efficacy of these concentrations when employed in short immersions (20 min). The 0.5% sodium hypochlorite solution showed excellent effectiveness and eliminated the evaluated microorganisms, since it was observed that there was no growth of CFU after its use by almost all the patients. Studies employing protein evaluation1313 - Lima EM, Moura JS, Del Bel Cury AA, Garcia RC, Cury JA. Effect of enzymatic and NaOCl treatments on acrylic roughness and on biofilm accumulation. J Oral Rehabil. 2006;33:356-62. and biofilm disclosure procedures2323 - Rossato MB, Unfer B, May LG, Braun KO. Analysis of the effectiveness of different hygiene procedures used in dental prostheses. Oral Health Prev Dent. 2011;9:221-7. for biofilm quantification have shown the adequate capacity of 0.5% sodium hypochlorite solution to remove denture biofilms; however, none of these studies have evaluated the antimicrobial activity of this solution. Porta, et al.2222 - Porta SR, Lucena-Ferreira SC, Silva WJ, Del Bel Cury AA. Evaluation of sodium hypochlorite as a denture cleanser: a clinical study. Gerodontology. 2013;doi: 10.1111/ger.12104. Epub ahead of print.
https://doi.org/10.1111/ger.12104...
(2013), through microbiological clinical assay, found that soaking dentures for 3 min in 0.5% NaOCl for 90 days was an efficacious treatment against Candida spp. and pointed out the antimicrobial activity of NaOCl on essential enzymatic sites in bacteria, promoting their irreversible inactivation via the action of hydroxyl ions and chloramination. However, other species were not evaluated.

Similarly, 0.25% sodium hypochlorite solution also eliminated S. mutans and was effective against gram-negative microorganisms. However, 0.25% sodium hypochlorite solution showed moderate activity against C. albicans, which was similar to thR. communis oil solution. Clinical studies involving denture wearers showed antimicrobial activity of 0.02% and 0.05% sodium hypochlorite solutions against Candida spp.3030 - Webb BC, Thomas CJ, Whittle T. A 2-year of Candida-associated denture stomatitis treatment in aged care subjects. Gerodontology. 2005;22:168-76. and S. mutans33 - Barnabé W, Mendonça Neto T, Pimenta FC, Pegoraro LF, Scolaro JM. Efficacy of sodium hypochlorite and coconut soap used as disinfecting agents in the reduction of denture stomatitis, Streptococcus mutans and Candida albicans. J Oral Rehabil. 2004;31:453-9., respectively. However, the solutions were employed along with coconut soap or as overnight immersions.

The main component of R. communis oil solution is sodium ricinoleate, which may inhibit biofilm formation44 - Burdock GA, Carabin IG, Griffithis JC. Toxicology and pharmacology of sodium ricinoleate. Food Chem Toxicol. 2006;44:1689-98.; though its mechanism of action is still unknown. The detergent action of this solution against microorganisms causes cell wall damage that results in the loss of cytoplasmic components and consequently cell death44 - Burdock GA, Carabin IG, Griffithis JC. Toxicology and pharmacology of sodium ricinoleate. Food Chem Toxicol. 2006;44:1689-98.. Endodontic studies evaluating 3.3% castor oil-based detergent showed antimicrobial activity of this product against anaerobes and streptococci present in teeth showing pulp necrosis99 - Ferreira CM, Bonifacio KC, Froner IC, Ito IY. Evaluation of the antimicrobial activity of three irrigation solutions in teeth with pulpal necrosis. Braz Dent J. 1999;10:15-21. and its effectiveness in cleaning root canals1515 - Meneghin MP, Nomelini SM, Souza-Neto MD, Marchesan MA, França SC, Santos HS. Morphologic and morphometric analysis of the root canal apical third cleaning after biomechanical preparation using 3.3% Ricinus communis detergent and 1% NaOCl as irrigating solutions. J App Oral Sci. 2006;14:178-82.. Other studies evaluating the antimicrobial activity of castor-oil based detergent - used for irrigating root canals - have verified its effectiveness against gram-positive microorganisms present in endodontic infections1212 - Leonardo MR, Silva LA, Filho MT, Bonifácio KC, Ito IY. In vitro evaluation of the antimicrobial activity of a castor oil-based irrigant. J Endod. 2001;27:717-9..

Few studies have evaluated the efficacy of castor oil-based products as complete denture cleansers. Previous works have studied a 2% solution and although the product had not caused significant adverse effects on the properties of artificial teeth and acrylic resin2020 - Pisani MX, Macedo AP, Paranhos HF, Silva-Lovato CH. Effect of experimental Ricinus communis solution for denture cleaning on the properties of acrylic resin teeth. Braz Dent J. 2012;23:15-21.,2121 - Pisani MX, Silva-Lovato CH, Paranhos HF, Souza RF, Macedo AP. The effect of experimental denture cleanser solution Ricinus communis on acrylic resin properties. Mater Res. 2010;13:369-73., it has been shown, by randomized clinical trials, moderate efficacy on denture biofilm removal11 - Andrade IM, Andrade KM, Pisani MX, Silva-Lovato CH, Souza RF, Paranhos HF. Trial of an experimental castor oil solution for cleaning dentures. Braz Dent J. 2014;25:43-7.,1414 - Malheiros Segundo AL, Pisani MX, Nascimento C, Souza RF, Paranhos HF, Silva-Lovato CH. Clinical trial of an experimental cleaning solution: antibiofilm effect and integrity of a silicone-based denture liner. J Contemp Dent Pract. 2014;15:534-42.. Pinelli, et al.1919 - Pinelli LA, Montandon AA, Corbi SC, Moraes TA, Fais LM. Ricinus communis treatment of denture stomatitis in institutionalised elderly. J Oral Rehabil. 2013;40:375-80. (2013) evaluated the effectiveness of a castor-oil mouthwash (Perioquil) in the treatment of institutionalized complete denture wearers with denture stomatitis and found a reduction of the disease’s clinical signs, however, there was no significant reduction in CFU/mL. An in vitro study showed that a 10% R. communis oil immersion solution, used for 20 min, provided moderate efficacy against tested species, as S. mutans, Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, C. albicans and C. glabrata, with the effective action on Bacillus subtilis and non-significant action on Enterococcus faecalis2525 - Salles MM, Oliveira VC, Souza RF, Silva CH, Paranhos HF. Antimicrobial action of hypochlorite and castor oil solutions for denture cleansing – in vitro evaluation. Braz Oral Res. 2015;29:1-6..

The antimicrobial activity of R. communis oil solution against S. mutans and Candida spp. was a relevant result because both these microorganisms cause denture stomatitis2424 - Salerno C, Pascale M, Contaldo M, Esposito V, Busciolano M, Milillo L, et al. Candida-associated denture stomatitis. Med Oral Patol Oral Cir Bucal. 2011;16:e139-43.. These results are in agreement with Malheiros-Segundo, et al.1414 - Malheiros Segundo AL, Pisani MX, Nascimento C, Souza RF, Paranhos HF, Silva-Lovato CH. Clinical trial of an experimental cleaning solution: antibiofilm effect and integrity of a silicone-based denture liner. J Contemp Dent Pract. 2014;15:534-42. (2014) who found a reduction of Candida species (C. albicans, C. glabrata, C. dubliniensis, C. krusei e C. tropicalis) and S. mutans when a 2% solution was employed. As in previous study1212 - Leonardo MR, Silva LA, Filho MT, Bonifácio KC, Ito IY. In vitro evaluation of the antimicrobial activity of a castor oil-based irrigant. J Endod. 2001;27:717-9., the solution was ineffective against gram-negative bacteria; such results can be explained by the structural characteristics of these microorganisms, which have a cell wall with another membrane, acting as a barrier to penetration of substances such as antiseptics and antibiotics2626 - Silhavy TJ, Kahne D, Walker S. The bacterial cell envelope. Cold Spring Harb Perspect Biol. 2010;2:a000414..

Studies have reported the antimicrobial activity of plants and seeds used as raw materials for manufacturing soaking solutions. These products are relatively safer synthetic alternatives and offer significant and more affordable therapeutic benefits. R. communis grows in several countries, which makes its trade and availability easier for complete denture wearers in the future. R. communis oil solution is colorless and does not have an unpleasant smell. These characteristics along with detergent action make its use in denture cleaning possible. Moreover, the immersion method for cleaning dentures is beneficial because it is easy and can be employed as an auxiliary method along with brushing.

Different species of fungi have been related to the development of denture stomatitis and these microorganisms have been found in immunocompromised patients and in healthy subjects55 - Costa CR, Lemos JA, Passos XS, Araújo CR, Cohen AJ, Souza LK, et al. Species distribution and antifungal susceptibility profile of oral Candida isolates from HIV-infected patients in the antiretroviral therapy era. Mycopathologia. 2006;162:45-50.. Candida spp. isolated in this study was identified as C. albicans, C. tropicalis, C. glabrata, C. parapsilosis and C. lusitaniae. C. albicans was the most frequently isolated species, followed by C. tropicalis and C. glabrata. These species are commonly present in denture biofilms and are the main cause of atrophic chronic candidiasis2424 - Salerno C, Pascale M, Contaldo M, Esposito V, Busciolano M, Milillo L, et al. Candida-associated denture stomatitis. Med Oral Patol Oral Cir Bucal. 2011;16:e139-43..

Tested solutions’ ability to prevent the formation of denture biofilms and their possible adverse effects on acrylic resins was not evaluated in the study. Therefore, future studies should include these analyses of concentrations employed in this study and in accordance with the established protocol.

CONCLUSIONS

The obtained data indicated that 0.5% sodium hypochlorite solution was the most effective and might be used for short immersions along with brushing to control denture biofilm formation.

C. albicans was the most frequently isolated species from denture biofilms, followed by C. tropicalis and C. glabrata. Of the isolated strains, 18 (11.3%) were resistant to at least one of the tested antifungals, highlighting the resistance to azole compounds.

ACKNOWLEDGEMENTS

The authors thank Professor Gilberto Orivaldo Chierice (Institute of Chemistry of São Carlos, University of São Paulo) for providing castor oil solution and Professor Raphael Freitas de Souza (Ribeirão Preto School of Dentistry, University of São Paulo), for statistical analyses. We declare no potential conflicts of interest regarding the authorship and/or publication of this article.

REFERENCES

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Publication Dates

  • Publication in this collection
    Nov-Dec 2015

History

  • Received
    19 May 2015
  • Reviewed
    21 Aug 2015
  • Accepted
    30 Sept 2015
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