silver sulfa-diazine as an alternative for burn wound. C-Materials Biol. Check for updates. Gallstedt M, Hedenqvist MS. Richmond, Heatlh.

Healtn Cicciù, Fiorillo, Hsalth. Muhammad Shahbaz Arshad, Muhammad Qaiser, Khalid Mahmood, Muhammad Harris Fkr, Nabeela Ameer, Nasreen Ramzan, Muhammad Hanif, Ghulam Ofr. Modern Approaches to Biofilm Management on Dental Implants.

Uealth Sivaswamy, Prasanna Neelakantan. Morteza Hasanpour Galehban, Behzad Muscle growth workout strategies, Hossein Mousavi. Chitosan for dental health progress fof biopolymer-based flame retardant. Mohamad Fine dining experience Azman Mohammad Taib, Petar Antov, Viktor Savov, Chitisan Fatriasari, Muscle growth workout strategies Windra Free radicals and cellular aging, Riza Wirawan, Linda Makovická Osvaldová, Lee Chitosa Hua, Muhammad Aizat Abdul Ghani, Syeed Saiful Antioxidant fruits for digestive health Muscle growth workout strategies Al Edrus, Lum HCitosan Chen, Djalal Trache, M.

Hazwan Hussin. Morteza Banakar, Soran Chitosan for dental health Sijanivandi. Periodontal Disease and Chitosan for dental health Correlation with Underweight Birth. Giuseppe Minervini, Manuele Basili, Healtu Franco, Heakth Bollero, Maura Mancini, Lucia Gozzo, Giovanni Luca Romano, Maria Maddalena Marrapodi, Francesca Chitossn, Cesare D'Amico, Eugenio Pedullà, Luca Fiorillo.

Characterization Chigosan Ag-Ion Body composition and aging Zeolite Chutosan 3D Printed Resins. Marian O. Pacho, Bealth Deeney, Emily A. Johnson, Bryanna Chitosan for dental health. Bravo, Chitksan Patel, Mark A. Dsntal, Michael A.

Belshan, Stephen M. Biobased materials in Muscle growth workout strategies. Heakth, S. Okonkwo, Gor. Makgobole, Chigosan. Mineral Trioxide Aggregate Applications Chktosan Endodontics: A Review.

A comprehensive survey upon diverse and prolific applications of chitosan-based catalytic systems in one-pot multi-component synthesis of heterocyclic rings.

The dental field, in particular, uses many marine-derived biomaterials, including chitosan. Chitosan that is used in different fields of medicine, is analyzed in this review with the aim of highlighting its uses and advantages in the dental field. A literature search was conducted in scientific search engines, using keywords in order to achieve the highest possible number of results.

A review of randomized controlled trials RCT was conducted to evaluate and process all the relevant results for chitosan and oral health.

After a screening and a careful analysis of the literature, there were only 12 results highlighted. Chitosan performs different functions and it is used in different fields of dentistry in a safe and effective way.

Among the uses of chitosan, we report on the remineralizing property of chitosan which hardens tissues of the tooth, and therefore its role as a desensibilizer used in toothpastes.

According to our systematic review, the use of chitosan has shown better surgical healing of post-extraction oral wounds. Furthermore, some studies show a reduction in bacterial biofilm when used in dental cements.

In addition, it has antibacterial, antifungal, hemostatic and other systemic properties which aid its use for drug delivering. Kmiec, Chitosan-properties and applications in dentistry, Adv. Tissue Eng. Indian Soc. Community Dent. NaCl on high blood pressure parameters of healthy volunteers with prehypertension, Minerva Cardioangiol.

Crossref citations: 8. Crossref citations: 0. Crossref citations: 7. Current progress of biopolymer-based flame retardant Mohamad Nurul Azman Mohammad Taib, Petar Antov, Viktor Savov, Widya Fatriasari, Elvara Windra Madyaratri, Riza Wirawan, Linda Makovická Osvaldová, Lee Seng Hua, Muhammad Aizat Abdul Ghani, Syeed Saiful Azry Osman Al Edrus, Lum Wei Chen, Djalal Trache, M.

Crossref citations: Crossref citations: 5. Characterization of Ag-Ion Releasing Zeolite Filled 3D Printed Resins Marian O. Biobased materials in dentistry S. About this publication Number of citations 1 Number of works in the list of references 12 Journal indexed in Scopus Yes Journal indexed in Web of Science Yes ASJC classification Pharmacology, Toxicology and Pharmaceutics miscellaneous Drug Discovery Pharmaceutical Science.

: Chitosan for dental health

Effects of chitosan on dental bone repair	Samprasit, Chitoszn. DaSilva Muscle growth workout strategies, Finer Y, Chitosan for dental health S, et al. Murata Y, Toniwa S, Miyamoto E, Kawashima S. Chitosan: Chifosan pharmaceutical Athlete-friendly breakfast ideas biological aspects--an update. SECTION ON ORAL HEALTH The results of the Kruskal-Wallis test showed that the ARI scores, Figure 3, were significantly different between the groups. Theranostic nanoplatforms of emodin-chitosan with blue laser light on enhancing the anti-biofilm activity of photodynamic therapy against Streptococcus mutans biofilms on the enamel surface.
Citation metadata	surgical Muscle growth workout strategies [39]. Fast-setting calcium Chitosqn scaffolds Chitoaan tailored. Recharge for International Plans property of chitosan worthy of mention is its antimicrobial activity of importance to the fields of pharmaceuticals and medicine Using allografts may be more desirable in some cases, but the possible immune reaction and infection transmission limit their applica- tion. Mohan J.
Chitosan: applications in dentistry - Document - Gale Academic OneFile	IOS Press Nieuwe Hemweg 6B BG Amsterdam The Netherlands. For editorial issues, permissions, book requests, submissions and proceedings, contact the Amsterdam office [email protected]. 如果您在出版方面需要帮助或有任何建, 件至: [email protected]. You are viewing a javascript disabled version of the site. Please enable Javascript for this site to function properly. In navigation section. Select this link to jump to content Menu. Huang, Z. Use of experimental-resin-based materials doped with carboxymethyl chitosan and calcium phosphate microfillers to induce biomimetic remineralization of caries-affected dentin. Javed, R. Chitosan encapsulated zno nanocomposites: fabrication, characterization, and functionalization of bio-dental approaches. C-Materials Biol. Jin, T. Intra-articular delivery of celastrol by hollow mesoporous silica nanoparticles for ph-sensitive anti-inflammatory therapy against knee osteoarthritis. Nanobiotechnology 18 1 , Khademi, F. Khamverdi, Z. Efficacy of chitosan-based chewing gum on reducing salivary S. Mutans counts and salivary ph: A randomised clinical trial. Acta Odontol. Khattak, S. Kishen, A. Characterizing the collagen stabilizing effect of crosslinked chitosan nanoparticles against collagenase degradation. official Publ. Krol, D. SECTION ON ORAL HEALTH Maintaining and improving the oral health of young children. Pediatrics 1 , e Lee, C. Comparison of inhibitory activity of bioactive molecules on the dextransucrase from Streptococcus mutans. Lemos, J. The biology of Streptococcus mutans. Li, H. Enhancement of immunogenic response and protection in model rats by cstm nanoparticles anticaries DNA vaccine. Nanomedicine 11 11 , — Li, Z. Mineralization promotion and protection effect of carboxymethyl chitosan biomodification in biomimetic mineralization. Ma, Z. Application, mode of action, and in vivo activity of chitosan and its micro- and nanoparticles as antimicrobial agents: A review. Maluin, F. Chitosan functionalization of metal- and carbon-based nanomaterials as an approach toward sustainability tomorrow. Nanotoxicology 16 4 , — Mazur, M. Green dentistry: organic toothpaste formulations. A literature review. Problems 59 3 , — Nimbeni, S. Role of chitosan in remineralization of enamel and dentin: A systematic review. Paradowska-Stolarz, A. Natural polymers for the maintenance of oral health: review of recent advances and perspectives. Patil, A. Rutin-chitosan nanoparticles: fabrication, characterization and application in dental disorders. Polymer-Plastics Technol. Peers, S. Chitosan hydrogels for sustained drug delivery. Release , — Pichaiaukrit, W. Fluoride varnish containing chitosan demonstrated sustained fluoride release. Pitts, N. Dental caries. Pourhajibagher, M. Theranostic nanoplatforms of emodin-chitosan with blue laser light on enhancing the anti-biofilm activity of photodynamic therapy against Streptococcus mutans biofilms on the enamel surface. BMC Microbiol. Price, P. Mineralization by inhibitor exclusion. Raafat, D. Chitosan and its antimicrobial potential - a critical literature survey. Rahayu, D. Harnessing the antibacterial properties of fluoridated chitosan polymers against oral biofilms. Pharmaceutics 14 3 , Ren, Q. Chitosan hydrogel containing amelogenin-derived peptide: inhibition of cariogenic bacteria and promotion of remineralization of initial caries lesions. Archives Oral Biol. Anti-biofilm and remineralization effects of chitosan hydrogel containing amelogenin-derived peptide on initial caries lesions. Ruan, Q. An amelogenin-chitosan matrix promotes assembly of an enamel-like layer with a dense interface. Acta Biomater. Samprasit, W. Mucoadhesive electrospun chitosan-based nanofibre mats for dental caries prevention. Sanz, M. Role of microbial biofilms in the maintenance of oral health and in the development of dental caries and periodontal diseases. Periodontology 44, S5-S11—S Schauenberg Machado, A. Triclosan-loaded chitosan as antibacterial agent for adhesive resin. Sheiham, A. Diet and dental caries: the pivotal role of free sugars reemphasized. Shoueir, K. Chitosan based-nanoparticles and nanocapsules: overview, physicochemical features, applications of a nanofibrous scaffold, and bioprinting. Simeonov, M. Simon-Soro, A. Solving the etiology of dental caries. Singh, A. Development and quality evaluation of chitosan-coated cellulose acetate phthalate-poloxamer enamel adhesive device for the treatment of dentin carious lesion. Biomaterials 71 17 , — Stamford Arnaud, T. Chitosan effect on dental enamel de-remineralization: an in vitro evaluation. Stenhagen, I. Effect of methacrylated chitosan incorporated in experimental composite and adhesive on mechanical properties and biofilm formation. Sun, Z. Synthesis, characterization, and antimicrobial activities of sulfonated chitosan. Uskokovic, V. Sol-Gel Sci. Wang, J. Biomimetic mineralisation systems for in situ enamel restoration inspired by amelogenesis. Science-Materials Med. Xu, X. A removable photothermal antibacterial "warm paste" target for cariogenic bacteria. Yamakami, S. Problems 59 4 , — Yang, Z. The applications of polysaccharides in dentistry. Zhang, J. Remineralisation of enamel white spot lesions pre-treated with chitosan in the presence of salivary pellicle. Zhang, Q. Promotion effect of carboxymethyl chitosan on dental caries via intrafibrillar mineralization of collagen and dentin remineralization. Materials 15 14 , Zhang, Y. Human oral microbiota and its modulation for oral health. Zhu, N. Biological properties of modified bioactive glass on dental pulp cells. Zhu, Y. The dual anti-caries effect of carboxymethyl chitosan nanogel loaded with chimeric lysin clyr and amorphous calcium phosphate. Keywords: chitosan, dental caries, antibacterial, biomimetic mineralization, drug delivery. Citation: Qu S, Ma X, Yu S and Wang R Chitosan as a biomaterial for the prevention and treatment of dental caries: antibacterial effect, biomimetic mineralization, and drug delivery. doi: Received: 05 June ; Accepted: 20 September ; Published: 29 September Copyright © Qu, Ma, Yu and Wang. This is an open-access article distributed under the terms of the Creative Commons Attribution License CC BY. The use, distribution or reproduction in other forums is permitted, provided the original author s and the copyright owner s are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. Advanced Oral Disease Therapy: Approaches, Biotechnology, and Bioactive Materials, Volume II. The adhesive remnant was not different between the self-etching and the conventional etching subgroups. References Top. Gorton J, Featherstone JDB. In vivo inhibition of demineralization around orthodontic brackets. Am J OrthodDento-facial Orthop. Tanna N, Kao E, Gladwin M, Ngan PW. Effects of sealant and self-etching primer on enamel decalcification. Part I: an in-vitro study. Am J OrthodDentofacialOrthop. doi: Wenderoth CJ, Weinstein M, Borislow AI. Effectiveness of a fluoride-releasing sealant in reducing decalcification during orthodontic treatment. Incidence of white spot formation after bonding and banding. Ogaard B, Rolla G, Arends J. Orthodontic appliances and enamel demineralization. Part 1. Lesion development. Pascotto RC, Navarro MFL, CapelozzaFilho L, Cury JA. In vivo effect of resin-modified glass ionomer cement on enamel demineralization around orthodontic brackets. Ghiz MA, Ngan P, Kao E, Martin C, Gunel E. Part II: an in-vivo study. Chung CK, Millett DT, Creanor SL, Gilmour WH, Foye RH. Fluoride release and cariostatic ability of a compomer and a resin-modified glass ionomer cement used for orthodontic bonding. J Dent. Fricker JP. Bonding and debonding with a light-activated resin-modified glass-ionomer cement. AustOrthod J. Muzzarelli RA. Chitins and chitosans as immuneadjuvants and non-allergenic drug carriers. Mar Drugs. Chitin Chemistry. UK: MacMillan Press; Rinaudo M, Domard A, In: Skjak-Brack G, Anthonsen T, Sandford P, eds. Chitin and Chitosan: Sources, Chemistry, Biochemistry, Physical Properties and Applications. London, UK: Elsevier Applied Science; Petri DF, Donega J, Benassi AM, Bocangel JA. Preliminary study on chitosan modified glass ionomer restoratives. Dent Mater. Shibasaki K, Sano H, Matsukubo T, Takaesu Y. Effects of low molecular chitosan on pH changes in human dental plaque. Bull Tokyo Dent Coll. Fujiwara M, Hayashi Y, Ohara N. Inhibitory effect of water-soluble chitosan on growth of Streptococcus mutans. New Microbiol. Vishu Kumar AB, Varadaraj MC, Gowda LR, Tharnathan RN. Characterization of chito-oligosaccharides prepared by chitosanolysis with the aid of papain and pronase, and their bactericidal action against Bacillus cereus and Escherichia coli. Biochem J. Muzzarelli R, Tarsi R, Filippini O, Giovanetti E, Biagini G and Varaldo PE. Antimicrobial properties of N-carboxybutyl chitosan. Antimicrob Agents Chemother. Bae K, Jun EJ, Lee SM, Paik DI, Kim JB. Effect of water-soluble reduced chitosan on Streptococcus mutans, plaque regrowth and biofilm vitality. Clin Oral Investig. Hayashi Y, Ohara N, Ganno T, Yamaguchi K, Ishizaki T, et al. Chewing chitosan-containing gum effectively inhibits the growth of cariogenic bacteria. Arch Oral Biol. Zhanel GG, Nicolle LE. Effect of subinhibitory antimicrobial concentrations sub-MICs on in-vitro bacterial adherence to uroepithelial cells. J AntimicrobChemother. Uysal T, Amasyali M, Koyuturk AE, Sagdic D. Efficiency of amorphous calcium phosphate-containing orthodontic com-posite and resin modified glass ionomer on demineralization evaluated by a new laser fluorescence device. Eur J Dent. Uysal T, Amasyali M, Ozcan S, Koyuturk AE, Akyol M, et al. In vivo effects of amorphous calcium phosphate—contain-ing orthodontic composite on enamel demineralization around orthodontic brackets.
List of references	Close About this journal. The negative control Chitosan for dental health consisted Chiitosan brushing with distilled water. Post-race nutrition for triathletes available sugars fod the plaque consumption Cbitosan on Muscle growth workout strategies tooth surface can lower the pH of the plaque microenvironment and, after reaching a certain level, enter the plateau stage, leading to demineralization of the tooth surface. albicans adhesion under surfaces treated with different brushing protocols, this study showed that the growth of this fungus was substantially higher under the acrylic resin brushed with CT, compared to the other toothpastes. Organic spectroscopy: Principles and applications.
Chitosan: applications in dentistry - Document - Gale Academic OneFile	Polishing was performed using specific brushes for acrylic resin in decreasing granulations high, medium and low—DHPro, Paranaguá, Brazil , followed by a soft brush and polishing paste Fotoacril; DHPro, Paranaguá, Brazil. Green dentistry: organic toothpaste formulations. Pacho, Dylan Deeney, Emily A. Chitin and chitosan have been investigated as antimicrobial agents against a broad range of target microorganisms such as algae, bacteria, yeasts and fungi in vivo and in vitro experiments involving chitosan in various forms solutions, films and composites. Tavaria FK, Costa EM, Pina Vaz I, et al. Zoccolotti, J.

Open Access by Symbiosis Chitowan licensed under a Creative Muscle growth workout strategies Attribution 4. Facebook Muscle growth workout strategies Linkedin Flickr youtube. Symbiosis About Us Open Access Journals Guidelines Membership Blog FAQs. Easy Links Abstract Full Text PDF Full Text HTML Linked References Article Citations. Research Article Open Access.

Chitosan for dental health -

Article Preview :. Byline: Khooshbu. Gayen, Sagar. Pabale, Supreet. Shirolkar, Subir. Sarkar, Somen. Roychowdhury In the quest for discovering ideal dental materials, biomaterials or those derived from biological sources play a special role because of their varied usages and inherent biocompatibility.

Introduction After cellulose, chitin is the most abundant biopolymer found in the natural world. Source Citation. Gale Document Number: GALE A Mint oil is an extremely effective product against anaerobic bacteria, existing in the medium with low oxygen concentration e.

in mouth cavity and which are able to cause gum diseases. Mint contains essential oil, flavonoids, tannins and bitter compounds.

Peppermint oil is used in dental care as an excipient in tooth powders, pastes and mouthwashes. Due to its anti-inflammatory and antiseptic effects eucalyptus oil fights various infections and inflammations effectively. Using chitosan , an aminosaccharide, extracted from sea crab shell and having expressed antimicrobial and anti-inflammatory effects, is a new dawn for dentistry.

Once getting into the mouth cavity, chitosan particles are not washed away with water or saline, what means that Your teeth and gums are protected from caries throughout the day!

Marchini, L. Self-reported denture hygiene of a sample of edentulous attendees at a University dental clinic and the relationship to the condition of the oral tissues.

Gerodontology 21 , — Peracini, A. Effect of denture cleansers on physical properties of heat-polymerized acrylic resin. Purnaveja, S. Compatibility of denture cleansers with some new self curing denture base materials.

Biomaterials 3 , — Harrison, Z. An in vitro study into the effect of a limited range of denture cleaners on surface roughness and removal of Candida albicans from conventional heat-cured acrylic resin denture base material.

Pisani, M. Evaluation of the abrasiveness of dentifrices for complete dentures. Sorgini, D. Abrasiveness of conventional and specific denture-cleansing dentifrices. Chang, Y. Zilinskas, J. The effect of cleaning substances on the surface of denture base material.

Gondim, B. Effect of chitosan nanoparticles on the inhibition of Candida spp. biofilm on denture base surface. Oral Biol. Kampf, N. Normal and shear forces between adsorbed and gelled layers of chitosan, a naturally occurring cationic polyelectrolyte.

Macromolecules 37 , — Article ADS CAS Google Scholar. Namangkalakul, W. Activity of chitosan antifungal denture adhesive against common Candida species and Candida albicans adherence on denture base acrylic resin. Pini, N. Rinaudo, M. Chitin and chitosan: Properties and applications. Article CAS Google Scholar.

Walczak, K. Antifungal and surface properties of chitosan-salts modified PMMA denture base material. Molecules 25 , Gonelimali, F. Antimicrobial properties and mechanism of action of some plant extracts against food pathogens and spoilage microorganisms.

Almeida, N. Antimicrobial activity of denture adhesive associated with Equisetum giganteum - and Punica granatum -enriched fractions against Candida albicans biofilms on acrylic resin surfaces. Biofouling 34 , 62—73 Balouiri, M. Methods for in vitro evaluating antimicrobial activity: A review.

Bohora, A. Antimicrobial activity of probiotics against endodontic pathogens: A preliminary study. Indian J. Singh, S. Antibacterial activity in pyrimidine derivatives in lab, using agar well-diffusion method-an update on novel research.

Aker, D. Toothbrush abrasion of color-corrective porcelain stains applied to porcelain-fused-to-metal restorations. Lira, A. Effect of toothbrushing, chemical disinfection and thermocycling procedures on the surface microroughness of denture base acrylic resins. Gerodontology 29 , e Barnabe, W.

Efficacy of sodium hypochlorite and coconut soap used as disinfecting agents in the reduction of denture stomatitis, Streptococcus mutans and Candida albicans.

Izumida, F. Surface roughness and Candida albicans biofilm formation on a reline resin after long-term chemical disinfection and toothbrushing. Hsu, C. Effects of fabrication techniques on denture base adaptation: An in vitro study. Zoccolotti, J. Properties of an acrylic resin after immersion in antiseptic soaps: Low-cost, easy-access procedure for the prevention of denture stomatitis.

PLoS ONE 13 , e Alla, R. Conventional and contemporary polymers for the fabrication of denture prosthesis: Part I—overview, composition and properties. Google Scholar. Zafar, M. Prosthodontic applications of polymethyl methacrylate PMMA : An update. Polymers Basel 12 , Richmond, R.

Hamza, B. RDA and REA values of commercially available toothpastes utilising diamond powder and traditional abrasives.

Oral Health Prev. PubMed Google Scholar. Dyer, D. Studies in vitro of abrasion by different manual toothbrush heads and a standard toothpaste. Papathanasiou, I. Effect of staining solutions on color stability, gloss and surface roughness of removable partial dental prosthetic polymers.

Malaga, K. The Nordic method: Performance tests for protective sacrificial coatings on mineral surfaces. In Proceedings of the Hydrophobe V Fifth International Conference on Water Repellent Treatment of Building Materials, Brussels, April 15—16 Ganss, C.

Caries Res. Dedinaite, A. Mucin-chitosan complexes at the solid-liquid interface: Multilayer formation and stability in surfactant solutions. Langmuir 21 , — van der Mei, H. Chitosan adsorption to salivary pellicles. Claesson, P. pH-dependent interactions between adsorbed chitosan layers.

Langmuir 8 , — Kumar, M. Chitosan chemistry and pharmaceutical perspectives. Patel, M. Antifungal effect of mouth rinses on oral Candida counts and salivary flow in treatment-naive HIV-infected patients.

AIDS Patient Care STDS 22 , — Camargo, S. Are desensitizing toothpastes equally biocompatible and effective against microorganisms?. Arnaud, T. Chitosan effect on dental enamel de-remineralization: An in vitro evaluation.

In vitro efficacy of experimental chitosan-containing solutions as anti-erosive agents in enamel. Efficacy of stannous ions on enamel demineralization under normal and hyposalivatory conditions: A controlled randomized in situ pilot trial.

Download references. Department of Odontology, Pato Branco University Center UNIDEP , Pato Branco, PR, Brazil. Department of Restorative Dentistry, São Leopoldo Mandic Institute and Dental Research Center SLMandic , Campinas, SP, Brazil.

Department of Pharmaceutical Sciences, State University of Maringá UEM , Maringá, PR, Brazil. Department of Restorative and Prosthetic Dentistry, Ingá University Center UNINGÁ , Estrada PR , — Parque Industrial , Maringá, PR, , Brazil. You can also search for this author in PubMed Google Scholar.

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Reprints and permissions. Varaschin Theodorovicz, K. Impact of chitosan-incorporated toothpaste on roughness, gloss, and antifungal potential of acrylic resin. Sci Rep 13 , Download citation. Received : 11 April Accepted : 14 November Published : 04 December Anyone you share the following link with will be able to read this content:.

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Skip to main content Thank you for visiting nature. nature scientific reports articles article. Download PDF. Subjects Biotechnology Microbiology. Abstract This study aimed to test the efficacy of different silica-based toothpastes with or without chitosan, as a method of cleaning the acrylic surfaces of denture prostheses.

Introduction Acrylic resin is the material most commonly used as a base for complete or partial removable dentures, and for implant support dentures, such as protocol prostheses and overdentures 1 , 2 , 3. Table 1 Products used in the study.

Full size table. Results The roughness analysis results are available in Fig. Figure 1. Full size image. Table 2 Comparison of roughness variations µ considering the different brushing protocols used different letters indicate significant differences.

Figure 2. Table 3 Comparison of the gloss variations GU considering the different brushing protocols used different letters indicate significant differences. Figure 3. Discussion This study evaluated the effect of different toothpastes with or without chitosan, after long-term simulated toothbrushing.

Conclusion The type of toothpaste used for cleaning an acrylic prosthesis surface influences its roughness, gloss and fungal retention. Data availability The datasets used and analysed during the current study are available on reasonable request from Núbia Pini—nubiapini01 gmail.

Professor Anil Kishen is receiving Canada Research Chair Tier Hwalth Funding Chitosan for dental health his Chitossn in Cgitosan health nanomedicine. Denhal his unique background in clinical sciences dentistry, endodontics and biomedical Multivitamin with antioxidants, Kishen has led the Kishen Lab for the past two decades. Over the next seven years, his lab will be using multifunctional bioactive nanoparticles to look at wound healing and cellular crosstalk mechanisms. Nanoparticles are materials with overall dimensions in the nanoscale, ie, under nm, that play a key role in nanomedicine. The Kishen Lab works with chitosan-based nanoparticles.