logo
搜索
菜单

Oral Biofilm Formation on Different Materials for Dental Implants

作者: Thalisson S. O. Silva1, Alice R. Freitas1, Marília L. L. Pinheiro1, Cássio do Nascimento1, Evandro Watanabe2, Rubens F. Albuquerque1 1Department of Dental Materials and Prosthodontics, School of Dentistry of Ribeirão Preto,University of São Paulo, 2Department of Restorative Dentistry, School of Dentistry of Ribeirão Preto,University of São Paulo
简介:

Overview

This article presents a protocol for evaluating oral biofilm formation on titanium and zirconia materials used in dental prosthesis abutments. It emphasizes the importance of analyzing bacterial cell viability and morphological characteristics using advanced microscopy techniques.

Key Study Components

Area of Science

  • Microbiology
  • Dentistry
  • Materials Science

Background

  • Bacterial biofilms are complex microbial communities.
  • Dental implants are susceptible to bacterial colonization.
  • Material properties can influence microbial adhesion.
  • Microscopic techniques are essential for biofilm analysis.

Purpose of Study

  • To compare oral biofilm formation on different dental implant materials.
  • To assess the viability and morphology of bacterial cells.
  • To utilize advanced microscopy for detailed biofilm analysis.

Methods Used

  • In situ model for biofilm evaluation.
  • Microscopy techniques for structural analysis.
  • Assessment of bacterial viability.
  • Comparison of titanium and zirconia materials.

Main Results

  • Differences in biofilm formation on titanium vs. zirconia.
  • Variations in bacterial viability based on material type.
  • Insights into the morphological characteristics of biofilms.
  • Implications for improving dental implant materials.

Conclusions

  • Material selection is crucial for reducing biofilm formation.
  • Advanced microscopy provides valuable insights into biofilm structure.
  • Further research is needed to optimize dental materials.

Frequently Asked Questions

What are bacterial biofilms?
Bacterial biofilms are structured communities of bacteria that adhere to surfaces and are encased in a protective extracellular matrix.
Why is it important to study biofilm formation on dental materials?
Understanding biofilm formation can help in selecting materials that minimize bacterial colonization and reduce the risk of peri-implant diseases.
What microscopy techniques are used in this study?
The study employs advanced microscopy techniques to analyze the structural characteristics of oral biofilms.
How does material composition affect biofilm formation?
Materials with specific chemical compositions and surface topographies can reduce microbial adhesion and biofilm development.
What are the implications of this research for dental practice?
The findings can guide the selection of dental materials that enhance patient outcomes by minimizing biofilm-related complications.

Here, we present a protocol to evaluate oral biofilm formation on titanium and zirconia materials for dental prosthesis abutments, including the analysis of bacterial cells viability and morphological characteristics. An in situ model associated with powerful microscopy techniques is used for the oral biofilm analysis.

标签: Oral Biofilm,    Dental Implants,    Bacterial Biofilms,    Microbial Adhesion,    Peri-implant Diseases,    Microscopic Techniques,    Biofilm Formation,    Acrylic Resin,    Wax Discs,    Intra-oral Device,    Specimen Preparation,    Surface Polishing,    Ultrasonic Cleaning,   
A Pulmonary Trunk Banding Model of Pressure Overload Induced Right Ventricular Hypertrophy and Failure 10.3791/58050-v 06:47 min
A Pulmonary Trunk Banding Model of Pressure Overload Induced Right Ventricular Hypertrophy and Failure
Nerve Stimulator-guided Injection of Autologous Stem Cells Near the Equine Left Recurrent Laryngeal Nerve 10.3791/58023-v
Nerve Stimulator-guided Injection of Autologous Stem Cells Near the Equine Left Recurrent Laryngeal Nerve
Echocardiographic Measurement of Right Ventricular Diastolic Parameters in Mouse 10.3791/58021-v 06:04 min
Echocardiographic Measurement of Right Ventricular Diastolic Parameters in Mouse
Designing CAD/CAM Surgical Guides for Maxillary Reconstruction Using an In-house Approach 10.3791/58015-v 08:01 min
Designing CAD/CAM Surgical Guides for Maxillary Reconstruction Using an In-house Approach
A Mobile Outside-in Technique of Transforaminal Lumbar Endoscopy for Lumbar Disc Herniations 10.3791/57999-v 05:50 min
A Mobile Outside-in Technique of Transforaminal Lumbar Endoscopy for Lumbar Disc Herniations
Ferric Chloride-induced Canine Carotid Artery Thrombosis: A Large Animal Model of Vascular Injury 10.3791/57981-v 08:39 min
Ferric Chloride-induced Canine Carotid Artery Thrombosis: A Large Animal Model of Vascular Injury
Objective Nociceptive Assessment in Ventilated ICU Patients: A Feasibility Study Using Pupillometry and the Nociceptive Flexion Reflex 10.3791/57972-v 06:04 min
Objective Nociceptive Assessment in Ventilated ICU Patients: A Feasibility Study Using Pupillometry and the Nociceptive Flexion Reflex
A Clinical Trial Assessing the Safety, Efficacy, and Delivery of Olive-Oil-Based Three-Chamber Bags for Parenteral Nutrition 10.3791/57956-v 04:53 min
A Clinical Trial Assessing the Safety, Efficacy, and Delivery of Olive-Oil-Based Three-Chamber Bags for Parenteral Nutrition
返回顶部