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Item The ability of new intracanal medicaments to prevent the formation of multi-species biofilm on radicular dentin(2017) Jacobs, Jordon C.; Spolnik, Kenneth J.; Ehrlich, Ygal; Gregory, Richard L.; Yassen, Ghaeth; Bringas, JosefThe residual antibacterial effects of antimicrobials used in endodontic regeneration against biofilm bacteria obtained from immature and mature teeth Jordon C. Jacobs DDS, Richard L Gregory PhD, Ygal Ehrlich DMD, Kenneth Spolnik DDS, MS, Josef S. Bringas DMD, DDS, MS, and Ghaeth Yassen BDS, MSD, PhD We explored the residual antibacterial properties of dentin pretreated with low concentrations of double antibiotic paste (DAP) against biofilm bacteria obtained from different clinical sources. Dentin blocks were sterilized and randomized into 4 treatment groups and 2 control groups (n=20). Blocks from treatment groups were pretreated with DAP (1 or 5 mg/ml) loaded into methylcellulose, calcium hydroxide (Ca(OH)2), or methylcellulose paste. After one week, the treatment pastes were removed and all blocks were immersed in PBS. The dentin blocks from treatment groups and one of the control groups were then inoculated with bacterial isolates obtained from immature or mature teeth with pulpal necrosis(n=10). The remaining control group received no bacteria and was used as a sterile control. Blocks were then incubated anaerobically for 3 weeks. Biofilm disruption assays were conducted for all samples. Two-way ANOVA and pair-wise comparisons were used for statistical analyses. The residual antibacterial effect of dentin pretreated with 5 mg/ml of DAP was significantly higher than all other groups regardless of the source of biofilm. Dentin pretreated with 1 mg/ml of DAP demonstrated significantly higher residual antibacterial effects in comparison to dentin pretreated with placebo paste and Ca(OH)2 only in bacterial isolates obtained from mature teeth with pulpal necrosis. Dentin pretreated with Ca(OH)2 did not demonstrate any residual antibacterial effects. Dentin pretreated with 1 or 5 mg/ml of DAP demonstrated significantly better residual antibacterial effects against biofilm bacteria obtained from mature teeth with pulpal necrosis in comparison to bacterial isolates obtained from immature teeth with pulpal necrosis.Item Analyses of the Effects of Arginine, Nicotine, Serotype and Collagen-Binding Proteins on Biofilm Development by 33 Strains of Streptococcus mutans(Frontiers Media, 2021-11-25) Wagenknecht, Dawn R.; Gregory, Richard L.; Biomedical and Applied Sciences, School of DentistryStreptococcus mutans serotype k strains comprise <3% of oral isolates of S. mutans but are prominent in diseased cardiovascular (CV) tissue. Collagen binding protein (CBP) genes, cbm and cnm, are prevalent in serotype k strains and are associated with endothelial cell invasion. Nicotine increases biofilm formation by serotype c strains of S. mutans, but its effects on serotype k strains and strains with CBP are unknown. Saliva contains arginine which alters certain properties of the extracellular polysaccharides (EPS) in S. mutans biofilm. We examined whether nicotine and arginine affect sucrose-induced biofilm of S. mutans serotypes k (n = 23) and c (n = 10) strains with and without CBP genes. Biofilm mass, metabolism, bacterial proliferation, and EPS production were assessed. Nicotine increased biomass and metabolic activity (p < 0.0001); arginine alone had no effect. The presence of a CBP gene (either cbm or cnm) had a significant effect on biofilm production, but serotype did not. Nicotine increased bacterial proliferation and the effect was greater in CBP + strains compared to strains lacking CBP genes. Addition of arginine with nicotine decreased both bacterial mass and EPS compared to biofilm grown in nicotine alone. EPS production was greater in cnm + than cbm + strains (p < 0.0001). Given the findings of S. mutans in diseased CV tissue, a nicotine induced increase in biofilm production by CBP + strains may be a key link between tobacco use and CV diseases.Item Anti-Caries Efficacy of Fluoride at Increasing Maturation of a Microcosm Biofilm(2019-08) Ayoub, Hadeel Mohammed; Lippert, Frank; Gregory, Richard L.; Martinez Mier, E. Angeles; Anderson, GregoryDental biofilm is a main contributing factor in the initiation and progression of dental caries. The maturation of dental biofilms is expected to alter the anti-caries efficacy of fluoride compounds. In the first aim, we conducted a series of modeldevelopment experiments to test different variables to standardize a reproducible in-vitro microbial caries model. We evaluated: surface conditioning using saliva; sucrose concentrations and caries lesion severity; growth media conditions and mineral saturation; dental substrate types; pH cycling protocol characteristics. In the second aim, we used the developed model to evaluate the changes in the anti-caries efficacy of three fluoride compounds (Sodium fluoride (NaF); Stannous fluoride (SnF2); Amine fluoride (AmF); and deionized water (DIW- negative control)) at increasing maturation of a microcosm biofilm. We continued the pH cycling protocol for 4 days, 8 days, and 12 days. We tested biofilm cariogenicity and carious lesion severity at each maturation stage. In the third aim, we used the developed model to test the effect of different exposure periods (early vs. late exposure) of the biofilm to three fluoride compounds (NaF, SnF2, AmF, DIW) in comparison to DIW. We also evaluated the recovery of biofilm cariogenicity with each exposure period. We evaluated, for each exposure period and recovery stage, biofilm cariogenicity and carious lesion severity. We analyzed the relationships between different variables (biofilm age, fluoride compound type, exposure period) using ANOVA models. In conclusion: 1. The present model allows testing the effect of biofilm maturation on the anti-caries efficacy of fluoride compounds. 2. Biofilm maturation plays an important role in increasing biofilm tolerance against fluoride treatment; it could also influence the selection of fluoride compounds to achieve optimum cariostatic effect. 3. Exposure period, and type of fluoride compound, both influence the biofilm tolerance to fluoride anti-caries effect; they may also result in a sustainable release of fluoride over time.Item Antibacterial Activities of Cannabidiol Against Two Major Oral Pathogens(2024-05) Azabi, Asma A.; Windsor, L. Jack; Gregory, Richard L.; Platt, Jeffrey A.; Duarte, Simone; Goodpaster, JohnDespite advances in oral health research, biofilm-mediated oral diseases continue to pose a health challenge. Preventive measures against biofilm-mediated disease aim to inhibit pathogenic biofilm formation on tooth surfaces. Cannabidiol (CBD), a Cannabis sativa L. L. extract, has shown antibacterial properties against various bacterial species, especially gram-positive cocci. This dissertation aimed to evaluate the antibacterial efficacy of CBD against Streptococcus mutans and Porphyromonas gingivalis bacterial growth and virulence factors. The effects of CBD on the planktonic, biofilm, and total growth of S. mutans with or without nicotine and P. gingivalis, were evaluated. The minimal inhibitory concentration (MIC), minimal biofilm inhibitory concentrations (MBIC), and minimal bactericidal concentrations (MBC) of CBD were assessed. CBD concentrations ≥ 2.5 μg/ml exhibited significant inhibition (p<0.001) against S. mutans biofilm growth, as well as, biofilm metabolic activity, lactate dehydrogenase (LDH) activity, and extracellular polysaccharides (EPS) production. In the presence of nicotine, which upregulates biofilm formation, CBD demonstrated the same inhibitory effects on S. mutans growth and activities. CBD concentrations ≥ 0.47 μg/ml exhibited significant inhibition (p<0.003) against P. gingivalis biofilm growth. CBD reduced the hemagglutination activities of P. gingivalis and reduced the overall proteolytic activity. Concentrations of CBD ≥ 0.63 μg/ml provided an inhibitory effect on lysine-specific gingipain. The results of these studies demonstrate that CBD has antibacterial activities against S. mutans and P. gingivalis growth and virulence factors related to caries and periodontal diseases, respectively.Item Antibacterial Activities of Methanol and Aqueous Extracts of Salvadora persica against Streptococcus mutans Biofilms: An In Vitro Study(MDPI, 2021-12-01) Balhaddad, Abdulrahman A.; Mokeem, Lamia; Melo, Mary Anne S.; Gregory, Richard L.; Biomedical Sciences and Comprehensive Care, School of DentistryThe use of herbal products in oral hygiene care has a long history, and their use is popular today. A tree stick, named Salvadora persica (S. persica), is commonly used to remove dental plaque and clean teeth in many countries. In addition, extracts of S. persica can be used as a mouthwash, as they demonstrate antimicrobial properties. This study aimed to investigate the antibacterial effect of S. persica methanol and aqueous extracts against Streptococcus mutans (S. mutans) biofilm. A S. mutans biofilm formation assay was conducted using different concentrations of S. persica methanol or water extracts in tryptic soy broth (TSB) supplemented with 1% sucrose. The biofilm was stained with crystal violet dye, and the absorbance was assessed to examine biofilm formation. One-way analysis of variance (ANOVA) and Tukey tests were used to analyze the results. The S. persica methanol extract displayed a significant inhibition (p ≤ 0.001) against the S. mutans biofilm. The 10 mg/mL concentration of the S. persica methanol extract was determined as the minimum biofilm inhibitory concentration (MBIC). The used methanol concentration, mixed with TSB supplemented with 1% sucrose and without the S. persica extract, did not inhibit the S. mutans biofilm. The S. persica aqueous extract did not demonstrate any biofilm inhibition at any concentration (p ≥ 0.05). The findings of this study suggest the potential of using S. persica methanol extract as a mouthwash or adjunctive to oral hygiene tools.Item The antibacterial effect of a radiopaque double antibiotic paste against both an established multispecies and a single enterococcus faecalis biofilm(2019) Haslam, Bryce S.; Spolnik, Kenneth J.; Ehrlich, Ygal; Gregory, Richard L.; Bringas, Josef; Warner, Ned A.For regenerative endodontic procedures (REPs) to be successful an elimination of bacteria from the root canal system must be accomplished. Many different medicaments with antibacterial properties have been used to obtain complete disinfection. Double antibiotic paste (DAP) containing a mixture of ciprofloxacin and metronidazole has been shown to be a promising intracanal medicament. The addition of a radiopaque filler such as zirconium oxide to DAP may affect the antibacterial properties of DAP as well as allow precise placement and radiographic visualization of its position in the canal system. The aim of the proposed study was to evaluate the direct antibacterial properties of zirconium oxide radiopacifier combined with DAP (RoDAP) against a multispecies biofilm from a bacterial isolate from an infected immature tooth with a necrotic pulp and a known single species biofilm. 4x4 mm radicular dentin specimens (n = 112) obtained from human extracted teeth were used prepared and sterilized prior to use. A multispecies clinical bacterial isolate from an immature tooth with a necrotic pulp and a single species Enterococcus faecalis isolate were obtained. These bacterial isolates were used to inoculate dentin slabs and grown for 3 weeks. The dentin slabs were treated for 1 week with 1.0-mg/mL and 10- mg/mL RoDAP, 1.0-mg/mL DAP, and two placebo pastes consisting of methyl cellulose (MC) and methyl cellulose combined with zirconium oxide (RoMC), respectively, as well as two no-treatment controls. Following treatment, the grown biofilm was detached and spiral plated. The plated biofilm cells were cultured for 24 hours and each group examined using a colony counter to determine bacterial numbers (CFUs/mL). Data analysis, using a 5.0-percent significance level was conducted using one-way ANOVA followed by pair-wise group comparisons. Both 1.0-mg/mL and 10 mg/mL RoDAP demonstrated significant antibacterial effects against bacterial isolates from an immature tooth with a necrotic pulp as well as an E. faecalis isolate. The precise application of RoDAP confirmed radiographically with its direct antibacterial properties may be beneficial for intracanal disinfection during REPs.Item The antibacterial effects of radiopaque double antibiotic pastes against clinical bacterial isolates from mature and immature teeth with necrotic pulps(2018) Ibrahim, Carolin Francis; Spolnik, Kenneth J.; Ehrlich, Ygal; Gregory, Richard L.; Zunt, Susan; Bringas, Josef; Yassen, GhaethLow concentrations (1-10mg/mL) of double antibiotic paste (DAP) have demonstrated antibacterial properties in regenerative endodontics. The aim of this study was to evaluate if DAP made radiopaque (RoDAP) with barium sulfate has antibacterial effects against bacterial isolates from a mature and immature tooth with necrotic pulp. Clinical bacterial isolates were obtained from the canals of mature and immature teeth with necrotic pulps during root canal therapy or a regenerative procedure, respectively. Bacterial isolates were grown anaerobically for three weeks on 4x4mm dentin specimens prepared from extracted human teeth (n=48 per biofilm type). The dentin specimens were allocated into six groups and treated as follows: 1mg/mL RoDAP, 10mg/mL RoDAP, calcium hydroxide (UltraCal), placebo (barium sulfate in methylcellulose), no treatment, and no bacteria or treatment (sterile control). After one week of treatment the biofilm was detached and biofilm disruption assays were conducted to determine the bacterial numbers (CFUs/mL). The data was analyzed using Wilcoxon Rank Sum tests followed by pairwise comparisons. 1 and 10 mg/mL RoDAP as well as calcium hydroxide demonstrated significant antibacterial effects against the tested bacterial isolates. The placebo paste did not demonstrate any significant antibacterial effects. No significant difference in antibacterial effects was found against isolates from both mature and immature teeth regardless of the type of treatment. Both 1 and 10 mg/mL RoDAP demonstrated significant antibacterial effects against bacterial isolates from mature and immature teeth with necrotic pulps. RoDAP can be beneficial clinically since its adequate placement within the canal system can be confirmed radiographically.Item Antibacterial efficacy of 0.12-percent and 2.0-percent chlorhexidine gluconate at 37˚C and 46˚C against enterococcus faecalis(2010) Thiessen, Craig B.D., 1978-; Vail, Mychel Macapagal, 1969-; Spolnik, Kenneth Jacob, 1950-; Zunt, Susan L., 1951-; Gregory, Richard L.; Legan, Joseph J.The purpose of this study was to investigate the antibacterial efficacy of 0.12-percent and 2.0-percent chlorhexidine gluconate (CHX) on eliminating Enterococcus faecalis from dentinal tubules, and whether this antibacterial effect was enhanced by heat. To date there have been no published articles that describe the heating of 2.0-percent CHX and its antimicrobial efficacy and clinical relevance towards E. faecalis within dentinal tubules in root canal systems. Ninety-five human extracted, single rooted, maxillary, anterior teeth were used to prepare dentin disk specimens. After proper sterilization, a 2.5-mm ISO-sized diameter lumen was prepared, and then the canals were filled with brain-heart infusion (BHI) broth infected with E. faecalis. The BHI was removed and the specimens in equally divided groups were rinsed with sterile saline and filled with saline, or 0.12 percent CHX or 2.0 percent CHX at ambient temperature (24°C) or experimental temperature (46°C) and incubated at oral temperature (37°C) or the experimental temperature (46°C), respectively. The specimens were frozen to -70˚C and pulverized in liquid nitrogen. Serial dilutions were prepared of 1:100 and 1:1000 and spiral plated on BHI agar plates in duplicate. They were incubated, and the number of bacterial colonies was recorded 24 hours later for data analysis. A two-way analysis of variance (ANOVA), with factors for solution, solution temperature, and the solution-by-temperature interaction was used to determine antibacterial efficacy. Pair-wise comparisons between groups were examined for significance using the Fisher’s Protected Least Significant Differences Method. The E. faecalis CFU were log-transformed to satisfy the assumptions required for the ANOVA. The results of this investigation demonstrated no statistically significant difference with the addition of heat to either test irrigation solution regarding the elimination of E. faecalis from dentinal tubules within the root canal system. There was a statistically significant difference in the antibacterial efficacy of CHX against E. faecalis in comparison with the concentration tested. A higher concentration of 2.0-percent CHX demonstrated a significantly higher antibacterial efficacy against E. faecalis compared with 0.12-percent CHX, and likewise with the saline control. It can be concluded that the use of a higher concentration of 2.0-percent CHX is advantageous as a final irrigation solution after copious amounts of NaOCl and EDTA have been utilized for effective antimicrobial efficacy and substantivity.Item The antibacterial stability of a new radiopaque double antibiotic paste(2018-06) Epkey, Kathryn Eileen; Spolnik, Kenneth J.; Ehrlich, Ygal; Gregory, Richard L.; Zunt, Susan; Bringas, Josef; Yassen, GhaethWe evaluated the antibacterial stability (shelf life) of a new radiopaque double antibiotic paste (RoDAP) loaded in a methylcellulose system with 30% w/v barium sulfate against biofilm collected from an immature tooth with necrotic pulp. Uniform radicular dentin specimens were infected with bacterial biofilm obtained from an immature tooth with a necrotic pulp and incubated anaerobically for three weeks. These samples were randomly divided into 6 experimental groups (n=7) and treated for 1 week at three time points of aged radiopaque DAP: 0 months, 3 months, and 6 months. Group 1: 1mg/mL RoDAP treatment. Group 2: 10 mg/mL RoDAP treatment. Group 3: Calcium hydroxide (Ca(OH)2) treatment. Group 4: Methylcellulose with barium sulfate. Group 5: No treatment. Group 6: No bacteria or treatment. The samples were rinsed with sterile saline to detach biofilms and then spiral plated using a biofilm disruption assay. Statistical analyses were performed using Wilcoxon rank-sum tests and Wilcoxon signed rank tests with fixed effects for treatment, time, and the treatment-by-time interaction. Treatment of infected dentin with 1 mg/mL RoDAP, 10 mg/mL RoDAP, and Ca(OH)2 demonstrated significant and substantial antibiofilm effects in comparison to untreated control groups or groups treated with placebo paste after 0, 3, and 6 months of aging. Calcium hydroxide, however, showed slightly less antibiofilm activity after 6 months of aging when compared to 0 months and 3 months of aging. This difference was statistically significant (p > 0.05). In conclusion, both concentrations of RoDAP maintained full antibacterial efficacy after 6 months of aging, while calcium hydroxide lost some antibacterial activity after a shelf life of 6 months.Item Antibacterial TAP-mimic electrospun polymer scaffold: effects on P. gingivalis-infected dentin biofilm(Springer, 2016-03) Albuquerque, Maria Tereza P.; Evans, Joshua D.; Gregory, Richard L.; Valera, Marcia C.; Bottino, Marco C.; Department of Anatomy & Cell Biology, IU School of MedicineOBJECTIVES: This study sought to investigate, in vitro, the effects of a recently developed triple antibiotic paste (TAP)-mimic polymer nanofibrous scaffold against Porphyromonas gingivalis-infected dentin biofilm. MATERIALS AND METHODS: Dentin specimens (4 × 4 × 1 mm(3)) were prepared from human canines. The specimens were sterilized, inoculated with P. gingivalis (ATCC 33277), and incubated for 1 week to allow for biofilm formation. Infected dentin specimens were exposed for 3 days to the following treatments: antibiotic-free polydioxanone scaffold (PDS, control), PDS + 25 wt% TAP [25 mg of each antibiotic (metronidazole, ciprofloxacin, and minocycline) per mL of the PDS polymer solution], or a saturated TAP-based solution (50 mg of each antibiotic per mL of saline solution). In order to serve as the negative control, infected dentin specimens were left untreated (bacteria only). To determine the antimicrobial efficacy of the TAP-mimic scaffold, a colony-forming unit (CFU) per milliliter (n = 10/group) measurement was performed. Furthermore, additional specimens (n = 2/group) were prepared to qualitatively study biofilm inhibition via scanning electron microscopy (SEM). Statistics were performed, and significance was set at the 5% level. RESULTS: Both the TAP-mimic scaffold and the positive control (TAP solution) led to complete bacterial elimination, differing statistically (p < 0.05) from the negative control group (bacteria only). No statistical differences were observed for CFU per milliliter data between antibiotic-free scaffolds (2.7 log10 CFU/mL) and the negative control (5.9 log10 CFU/mL). CONCLUSIONS: The obtained data revealed significant antimicrobial properties of the novel PDS-based TAP-mimic scaffold against an established P. gingivalis-infected dentin biofilm. CLINICAL RELEVANCE: Collectively, the data suggest that the proposed nanofibrous scaffold might be used as an alternative to the advocated clinical gold standard (i.e., TAP) for intracanal disinfection prior to regenerative endodontics.