SBIR-STTR Award

Nanova, Inc. is developing a miniature non-thermal gas plasma brush that is operated in open air and can be used for dental cavity treatment and preparation in dental clinics. To date, preparation of dental cavities prior to filling relies on mechanical drilling or laser techniques, which cause discomforts and pain to patients due to mechanical stimulation (vibration) and heating of the dental nerve. These methods are often destructive, because plenty of healthy tissue must be removed to ensure a sufficient disinfection. Moreover, the clinical life time for posterior composite restorations using the current methods typically last only 6 - 8 years with 70% failures occur at the dentin-composite interface. Such interfacial failures often cause microleakage, sensitivity, recurrent caries, composite restoration removal and replacement, and eventually loss of the infected teeth after several repeated restorations due to the destructive preparation processes. In contrast, non-thermal gas plasma treatment will be a painless, nondestructive, and tissue-saving method for dental cavity preparation because of its non-thermal and non-destructive nature, distinguished chemical reactivity, and rapid sterilizing capability. When applied to dental cavity treatment and preparation, non-thermal plasmas provides a unique opportunity to chemically activate dentin surface, thus to implement chemical bonding and enhance adhesion strength at dentin-composite interfaces, and consequently to increase the longevity of dental restorations. Successful development of such a miniature plasma brush that is suitable to dental clinical applications could become a high-impact innovation in dentistry.

Public Health Relevance:
Nanova, Inc. is developing a miniature non-thermal gas plasma brush that is operated in open air and can be used for dental cavity treatment and preparation in dental clinics without causing discomforts to patients. Successful development of such a miniature plasma brush will enable us to apply plasma surface/interface engineering to dentin preparation for composite restorations with significantly improved clinical performance and durability, and could become a high-impact innovation in dentistry.

Public Health Relevance:
Nanova, Inc. is developing a miniature non-thermal gas plasma brush that is operated in open air and can be used for dental cavity treatment and preparation in dental clinics without causing discomforts to patients. Successful development of such a miniature plasma brush will enable us to apply plasma surface/interface engineering to dentin preparation for composite restorations with significantly improved clinical performance and durability, and could become a high-impact innovation in dentistry.

Thesaurus Terms:
There Are No Thesaurus Terms On File For This Project.

The main objective of this project is to develop a miniature atmospheric cold plasma brush (m- ACPB) for dental clinical applications. The innovation of this project is the utilization of the recently developed novel non-thermal atmospheric plasma technology for dental treatment to prevent tooth decay and improve the durability and longevity of dental composite restoration. Non-thermal atmospheric plasma is a gaseous medium that is chemically reactive and has the capability to penetrate irregular cavities and fissures and kill bacteria. Furthermore, plasma species can spread up to a few millimeters into a fluid. This feature make non-thermal plasmas extremely suitable to treat, clean, disinfect tooth decay, and fluorinate enamel in a wet oral environment. Plasma treatment of tooth decays or dental surfaces allows us to avoid contamination, actively fight bacterial infections, effectively fluorinate the tooth surfaces, offer additional cleaning to the decayed matters, and prepare/engineer the dental surface for strong and durable bonding to adhesive and sealant materials with a simple plasma treatment process. Such dental clinical applications will be achieved through the development of an m-ACPB that is suitable for dental clinical use.

Public Health Relevance:
Nanova, Inc. is developing a miniature atmospheric cold plasma brush (m-ACPB) for dental clinical applications. The innovation of this project is the utilization of the recently developed novel non-thermal atmospheric plasma technology for dental treatment to prevent tooth decay and improve the durability and longevity of dental composite restoration, and could become a high-impact innovation in dentistry.

Thesaurus Terms:
Abscission; Adhesives; Adverse Effects; Air; Animals; Bacteria; Bacterial Infections; Biological; Blood Plasma; Body Temperature; Body Tissues; Boxing; Caries; Caries Prevention; Cities; Clinical; Clinical Trials; Clinical Trials, Unspecified; Collagen Fibril; Dental; Dental Cavity Preparation; Dental Clinics; Dental Decay; Dental Enamel; Dental Restorations; Dental Technology; Dental Caries; Dentin; Dentistry; Development; Devices; Disinfection; Electromagnetic; Electromagnetic, Laser; Electromagnetics; Electronics; Enamel; Engineering; Engineerings; Ensure; Environment; Evaluation; Excision; Extirpation; Flr; Failure (Biologic Function); Funding; Gases; Goals; Hand; Human Figure; Human Body; In Vitro; Kansas; Killings; Lasers; Lead; Length Of Life; Life; Liquid Substance; Longevity; Mechanics; Medical; Methods And Techniques; Methods, Other; Missouri; Nature; Operation; Operative Procedures; Operative Surgical Procedures; Oral; Pb Element; Penetration; Phase; Plant Resins; Plasma; Preparation; Procedures; Process; Programs (Pt); Programs [publication Type]; Quality Control; Radiation, Laser; Recurrence; Recurrent; Regulation; Removal; Research Resources; Resins, Plant; Resources; Reticuloendothelial System, Serum, Plasma; Safety; School Dentistries; School Dentistry; Serum, Plasma; Surface; Surgical; Surgical Interventions; Surgical Procedure; Surgical Removal; System; System, Loinc Axis 4; Techniques; Temperature; Time; Tissues; Tooth; Tooth Fractures; Tooth Structure; Treatment Side Effects; Universities; Water Fluoridation; Work; Bacterial Disease; Cavity Prep; Cavity Preparation; Chemical Bond; Clinical Applicability; Clinical Application; Clinical Investigation; Commercialization; Composite Restoration; Density; Dental Cavity Prep; Design; Designing; Evaluation/Testing; Failure; Fighting; Fluid; Fluoridation; Heavy Metal Pb; Heavy Metal Lead; Improved; Innovate; Innovation; Innovative; Interfacial; Life Span; Lifespan; Liquid; Microleakage; Millimeter; Novel; Prevent; Preventing; Prevention Of Dental Caries; Programs; Prototype; Public Health Relevance; Resection; Resin; Restorative Dentistry; Side Effect; Surgery; Teeth; Therapy Adverse Effect; Tooth Decay; Tooth Enamel; Tooth Surface; Treatment Adverse Effect; User-Friendly