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Related Concept Videos

Teeth01:15

Teeth

The formation of teeth, also known as odontogenesis, is a complex process that begins in utero, around the sixth week of embryonic development. There are three stages to this process: the bud stage, the cap stage, and the bell stage.
In the bud stage, the tooth germ (an aggregation of cells) starts to form in the developing jawbone. During the cap stage, the tooth germ differentiates into enamel organ, dental papilla, and dental sac, which will later develop into the tooth's enamel, dentin and...
Tooth Anatomy01:21

Tooth Anatomy

The human tooth enables us to eat a variety of foods, speak clearly, and even aid in shaping our faces. Teeth are composed of various elements that work together. Here's a detailed look at the anatomy of a human tooth.
The Crown, Neck, and Root
The visible part of the tooth is referred to as the crown. It's covered by enamel, the hardest substance in the human body. The crown is uniquely shaped for each type of tooth, allowing for different functions such as cutting, tearing, or grinding food.

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Oral Biofilm Formation on Different Materials for Dental Implants
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Bio-ceramics application in Dentistry.

Pratik Surana1, Kanika Singh Dhull2, Ashtha Arya3

  • 1Department of Pedodontics and Preventive Dentistry, Maitri College of Dentistry and Research Centre, Durg, Chhattisgarh, India.

Bioinformation
|March 18, 2024
PubMed
Summary
This summary is machine-generated.

Bioceramics like zirconia and hydroxyapatite are revolutionizing dentistry. These advanced materials offer superior biocompatibility and durability for dental restorations, improving patient outcomes.

Keywords:
Bioceramicsapplicationsdentistryfuture considerations

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Area of Science:

  • Biomaterials Science
  • Dental Materials

Background:

  • Bioceramics are increasingly utilized in dentistry.
  • Key properties include biocompatibility, osseointegration, and tissue regeneration.

Purpose of the Study:

  • To review bioceramic applications in dentistry.
  • To discuss advantages, limitations, and future prospects.

Main Methods:

  • Literature review of bioceramic applications.
  • Analysis of material properties and clinical outcomes.

Main Results:

  • Zirconia and hydroxyapatite exhibit excellent biocompatibility and durability.
  • Bioceramics facilitate bone integration for implants.
  • They resist wear and provide aesthetic dental solutions.

Conclusions:

  • Bioceramics are pivotal in restorative and reconstructive dentistry.
  • They enhance healing and offer durable, aesthetic dental restorations.