Research progress on the application of metal nanoenzymes in the prevention and treatment of plaque biofilm-associated oral diseases / 口腔疾病防治

@#Oral plaque biofilms are one of the bases for the survival and metabolism of different bacteria. With the emergence of drug-resistant bacteria due to antibiotic abuse, the prevention and treatment of plaque biofilm-associated oral diseases are becoming increasingly difficult. Although some research progress has been made in the field of biofilm formation and destruction, there is still a lack of effective clinical therapies for plaque biofilm-associated oral diseases. Metal nanoenzymes possess the physical properties of nanoparticles and exhibit catalytic activity similar to that of natural enzymes. The nanoscale size of metal nanoenzymes provides a greater specific surface area to help reactive oxygen species spread rapidly to active catalytic sites and improve the antioxidant properties of nanoenzymes. Additionally, metal nanoenzymes are easy to produce using different methods, such as electrochemical reduction, solvent thermal synthesis and microwave-assisted synthesis. Moreover, metal nanoenzymes can produce a high concentration of hydroxyl radicals, catalyze plaque biofilm degradation, lyse glucan and inhibit biofilm formation by oxidative stress reactions, as well as kill bacteria by releasing metal ions. Thus, metal nanoenzymes are expected to become a new option for the prevention and treatment of oral plaque biofilm-associated diseases. However, metal nanoenzymes can enter organisms through oral, intravenous and respiratory routes, triggering potential toxic effects such as pulmonary toxicity, hepatotoxicity and neurotoxicity. In a complex biological environment, the occurrence of metal nanoenzymes toxicity may involve multiple mechanisms, and the mechanism of action and safety need to be thoroughly investigated. In this paper, we intend to describe the research progress on metal nanoenzymes through an overview of their properties, antibacterial mechanisms, biotoxicity and applications in the prevention and treatment of oral plaque biofilm-related diseases, which may provide new ideas for the prevention and treatment of these diseases.

Research progress on the relationship between free sugars and caries / 口腔疾病防治

@#Caries is a chronic infectious disease that occurs in the hard tissues of teeth. The interaction of oral microorganisms, host, food and time leads to the occurrence and progression of caries. Free sugar is an important food factor in the occurrence of dental caries. This paper reviews the research progress on the relationship between free sugar and caries in recent years, providing a reference for further clarifying the mechanism of the occurrence and progression of caries caused by free sugar and exploring the methods of caries prevention. The cariogenic mechanism of free sugar is multifaceted. Free sugar can not only be used by oral microorganisms in dental plaque biofilms to produce acid and synthesize intracellular and extracellular polysaccharides but also cause an imbalance in oral microecology and enhance gene expression related to the cariogenic toxicity of oral microorganisms. Based on the correlation between free sugar and caries, it is important to limit the intake amount and frequency of free sugar to prevent caries. This can be achieved mainly by formulating public health policies for reducing sugar, creating a low-sugar family environment with good eating habits, using sugar substitutes and using fluoride. There are few studies on the relationship between free sugar and oral microecology. More research is needed to better understand the effect of free sugar on oral microecology and its mechanism and to validate the caries-preventing effect of various sugar reduction measures. We believe such studies would open up new avenues for the effective prevention of caries.

Research progress on oxidative stress regulatory mechanisms in Streptococcus mutans / 口腔疾病防治

@#The oral microecological balance is closely associated with the development of dental caries. Oxidative stress is one of the important factors regulating the composition and structure of the oral microbial community. Streptococcus mutans is closely related to the occurrence and development of dental caries. The ability of S. mutans to withstand oxidative stress affects its survival competitiveness in biofilms. The oxidative stress regulatory mechanisms of S. mutans include the synthesis of reductase, the regulation of iron and manganese uptake by metalloregulatory proteins, transcription regulator Spx, extracellular uptake of glutathione and other related signal transduction systems. The current research focuses on how S. mutans adapts to a complex external environment through an oxidative stress response and its influence on oral microecology. We can design targeted small molecular compounds for key signaling pathways to inhibit oxidative stress and weaken the virulence of S. mutans, which is important for oral microecological modulation and dental caries prevention and treatment.

Research progress on the relationship between the changes in microbial community composition of plaque and dental caries in children / 口腔疾病防治

@#Among many factors affecting dental caries, bacteria are its initiating factor. From the perspective of ecological plaque hypothesis, the application of modern molecular biology methods enable scholars to deeply explore the relationship between the microbial population distribution, biodiversity, microbial community changes of dental plaque biofilm and the occurrence of dental caries in children. The decrease in microflora diversity is closely related to the occurrence of dental caries, which can be detected as early as 6 months before the occurrence of dental caries, providing an important basis for caries monitoring and caries risk assessment. Differential bacteria such as Lactobacillus and Veillonella may be used as biomarkers of caries in children to judge the risk of caries in children. However, current studies have shown that the dominant bacteria in the microbial community structure vary in different processes of caries occurrence and development, that the interaction between different flora is still not clear, and that the specific cariogenic mechanism of the oral plaque microbial community in the process of caries occurrence and development has not been clarified. Further research is still needed to explore the changes in plaque microbial diversity and composition during the development of dental caries and to screen specific dental caries biomarkers. This paper also summarizes the related research findings.

Antimicrobial effect of herbal extract of Acacia arabica with triphala on the biofilm forming cariogenic microorganisms

BackgroundDental caries is a biofilm-related infectious disease with a multifactorial etiology, over five billion inhabitants have affected worldwide due to this disease.ObjectiveAntimicrobial efficacy of a mixed herbal powder extract (MHPE) against cariogenic microorganisms was investigated.Materials and methodsMIC, MBC, kinetics of killing, biofilm disruption and anticaries effect of MHPE were determined. For biofilm disruption, biofilms of Streptococcus mutans, Lactobacillus casei, Actinomyces viscosus and Candida albicans were treated with MHPE for 30 min and attached cells were quantified after staining. For live/dead staining biofilm assay, S. mutans biofilm treated with MHPE for 1min, 5min and 1 h was examined with confocal laser scanning system after live/dead staining. Efficacy was experimented by structural quality using Scanning Electron Microscope (SEM). Anticaries effect was determined by formation of caries-like lesion in continuous flow biofilm model.ResultsMHPE exhibited inhibition zones ranging from 12.5 to 24.0 mm. The highest inhibition zone was recorded at concentration of 50 μg/ml. MIC for S. mutans was between 12.23 and 36.7 μg/ml, while the MBC values ranged from 36.7 to 110.65 μg/ml. Inhibitory concentration of MHPE was three fold higher than CHLX. Significant reduction of cell count (49–95%) was observed with increasing time and higher concentration. Percentage biofilm reduction compare with negative control was 96.9% (A. viscosus), 94% (C. albicans), 99.8% (L. casei) and 91.7% (S. mutans). For MHPE-treated biofilm, live/dead staining demonstrated significant (p < 0.05) higher in deceased red fluorescence areas in all kinetics points from 53.6% (1min) to 85% (1h). SEM confirmed the damage in the outer layers of S. mutans. MHPE has components with effective antibacterial activity against caries-inducing microorganisms.ConclusionThe anti-adherence and anti-biofilm effect as well as the faster killing activity suggests that MHPE formula has effective antibacterial activity and could be a useful source of anti-cariogenic agents in near future.

Research advances in the correlations between periodontal disease and autophagy / 口腔疾病防治

@#Periodontal disease is a common and frequently occurring oral disease, with numerous investigations on periodontitis etiology and treatment. The development of periodontal disease is affected by many factors, including local stimulation and systemic risk factors, and dental plaque biofilm is regarded as an initial factor. The molecular mechanisms of how dental plaque biofilm and other risk factors regulate the development of periodontal disease remain unclear. Autophagy is a ubiquitous self-regulating mechanism of eukaryotes and a process of cell self-phagocytosis and digestion. Autophagy is a complex process, involving a variety of cellular and tissue activities, including cellular stress, clearance of endogenous and exogenous cellular components, development, aging and cancer. Recent studies have shown that autophagy is closely related to inflammation. This paper addresses recent research advances in understanding the correlations between periodontal disease and autophagy to provide a reference in the study of new methods to treat periodontal disease from the perspective of autophagy in the future.

Study of the effective of efflux pump inhibitors in photodynamic therapy inhibition the cariogenic bacteria in dental plaque biofilms / 国际生物医学工程杂志

Objective To Study the effect of efflux pump-inhibitors(EPI)-Verapamil in photodynamic therapy (PDT) using hematoporphyrin monomethylether (HMME) as photosensitizer on the cariogenic bacteria in dental plaque biofilms.Methods According to the administrator order of the verapamil and photosensitizer in PDT,streptococcus mutans,streptococcus sanguis,eosinophilic lactobacillus and actinomyces viscosus were used to establish the dental plaque biofilm model.The experiment was divided into five groups,group A was incubated with the photosensitizer and verapamil group,group B using verapamil before incubated the photosensitize,group C suing photosensitizer before incubated verapamil,group D with PDT only,group E was control group.After laser treatment,the influence of the dental plaque biofilms was observed by confocal laser scanning microscope.Results As saline-treated group is a group of normal the dental plaque biofilms.In PDT only group,compared with the saline group,red fluorescence increased significantly,the bacteria lose accumulation capacity,and were isolated and scattered in dispersed state.In PDT plus verapamil group,compared with only PDT group,green staining increased,bacterial activity increased.In group B,cells were incubated with verapamil before incubated the photosensitizer group,green staining increased significantly,red fluorescence reduced,indicating live bacteria increased,and bacteria activity was significantly increased.Conclusion PDT is an effective method in eliminating cariogenic bacteria of dental plaque biofilms.Bacterial efflux pump inhibitors can lower HMME-PDT inhibition cariogenic bacteria in dental plaque biofilm,and pre-verapamil administration could significantly inhibit the effect of PDT treatment of dental caries.

Effects of photodynamic therapy on the activity and structure of the dental plaque biofilms / 国际生物医学工程杂志

ObjectiveTo investigate the effects of photodynamic therapy(PDT) on the activity and structure of the dental plaque biofilm formed by the main cariogenic bacteria.MethodsS.mutans,S.sangius,L.acidophilus and A.viscosus were chosen as the experimental bacteria to establish dental plaque biofilm model.They were separated into three groups:group of PDT、group of chlorhexidine and group of normal saline.The influence of the dental plaque biofilms was observed according to plate counting of bacteria method.The changes in the structure of biofilms after PDT were analyzed by means of confocal laser scanning microscopy.Results Compared to normal saline group,chlorhexidine cariogenic bacteria (CFU/ml) in plaque biofilms significantly reduced (P＜0.05),with the bactericidal rate 57.84％.After PDT treatment against artificial caries model,the number of cariogenic bacteria (CFU/ml) in plaque biofilms reduced more significantly (P＜0.05),the bactericidal rate up to 94.92％,and the structure of dental plaque biofilns changed evidently.ConclusionPDT is an effective method in eliminate cariogenic bacteria of dental plaque biofilms and to destroy the integrity of dental plaque biofilms,and it is a promising method for elimination of dental plaque and prevention of caries.

Role of Saliva In Periodontal Health & Disease - A Review.

Saliva is essential for maintaining the protection and normal functioning of the masticatory system. A 'dry mouth' or xerostomia resulting from a perceived reduction in salivary flow may lead to numerous signs and symptoms of oral dysfunction. The quality of life for affected people may be poor. Many of these persons are taking multiple medications that cause a reduced salivary flow, and the number of people taking such drugs can be expected to increase. The ingestion of softer cariogenic foods, and acidic foods and beverages in attempts to stimulate an increased saliva flow, is disastrous for the teeth.

The biofilm concept and its role in prevention of periodontal disease: [review] / O conceito de biofilme e seu papel na prevenção da doença periodontal: [revisão]

OBJECTIVE: To provide an overview of the history of oral microbiology, a discussion of dental plaque as both a microbial community and a biofilm, and a review of the measures available to control the oral microflora. METHODOLOGY: The author reviewed the literature related to oral microbiology and associated infectious diseases. He also examined articles that detailed the structure and physiology of biofilms, including dental plaque biofilms. RESULTS and DISCUSSION: Biofilms cannot be eliminated. The pathogenic nature of the dental plaque biofilm can be diminished in the oral cavity by reducing the bioburden and effectively maintaining a normal oral flora via oral hygiene procedures that include daily toothbrushing, flossing and rinsing with an antimicrobial mouthrinse. An oral hygiene regimen that includes rinsing with an antimicrobial mouthrinse is a practical approach to the prevention and management of periodontal diseases.This strategy may have wider benefits when the link between periodontal disease and certain systemic diseases is considered. CONCLUSION: An effective oral hygiene regimen can help control dental plaque biofilm and associated periodontal diseases.

OBJETIVOS: Apresentar uma visão panorâmica da história da microbiologia bucal, uma discussão sobre a placa dental como uma comunidade microbiana e como biofilme, e uma revisão das medidas disponíveis para controle da microflora bucal. METODOLOGIA: O autor revisou a literatura relacionada com microbiologia bucal e doenças infecciosas associadas. Igualmente examinou artigos que detalharam a estrutura e a fisiologia dos biofilmes, incluindo biofilme da placa dental. RESULTADOS E DISCUSSÃO: Biofilmes não podem ser eliminados. A natureza patogênica do biofilme placa dental pode ser diminuída pela redução da carga biolótica e mantendo efetivamente a flora normal por meio de procedimentos de higiene bucal, que incluem escovação diária, uso de fio dental e colutórios com antimicrobianos. Essa estratégia pode ter benefícios amplos quando a ligação entre doença periodontal e certas doenças sistêmicas é considerada. CONCLUSÃO: O regime efetivo de higiene bucal pode ajudar no controle do biofilme placa dental e doenças periodontais associadas.

Streptococcus sanguis and Actinomycetes viscosus in oral biofilm foromation observed by sanning confocal laser microscopy / 实用口腔医学杂志

砄bjective:To observe streptococcus sanguis (S.s) and Actinomycetes viscosus (A.v) in oral plaque biofilm formation.Methods:20 ml of saliva obtained from a health adult was centrifuged at 4 ℃ and 10 000 r/min for 10 min.The supernatant was disinfected in 60 ℃ water bath for 30 min.Glass coverslips in the size of 24 mm?24 mm were immersed into the saliva supernatant for 2 h to obtain biofilm.100 ?l of S.s ATCC 34 and A.v ATCC 19246 mixture cultured in TSB at the density of 10 5～6 CFU/ml was added into 20 ml of TSB,and then,the coverslips with biofilm were put into the mixture.The biofilm and bacteria were observed by scanning confocal laser microscopy at various times.Resuts:The biofilm reached the thickness of 15.4 ?m in 8 h and the clumps of the bacteria were mostly in the midle layer of the biofilm.The biofilm increased to 34.3 ?m in 16 h and became tassle like in 48 h.Conclusion: S.s and A.v may play some roles in the oral biofilm formation.