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Related Concept Videos

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.
Anchoring Junctions01:03

Anchoring Junctions

Anchoring junctions are multiprotein complexes that help cells connect to other cells and the extracellular matrix. Anchoring junctions are present on the lateral and basal surfaces of cells, providing strong and flexible connections. Focal adhesions are often formed due to cell interactions with the ECM substrata, which initiate signal transduction via kinase cascades and other mechanisms. Together, they provide stability and tissue integrity. There are three types of anchoring junctions:...
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...
Structural Joints: Fibrous Joints01:03

Structural Joints: Fibrous Joints

Fibrous joints are a type of joint where the bones are connected by fibrous connective tissue. These joints provide stability and minimal to no movement between the articulating bones. There are three types of fibrous joints.
Suture
All the bones of the skull, except for the mandible, are joined to each other by a fibrous joint called a suture. The fibrous connective tissue found at a suture strongly unites the adjacent skull bones and thus helps to protect the brain and form the face. In...

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Related Experiment Video

Updated: May 28, 2026

The Establishment of a Murine Maxillary Orthodontic Model
04:11

The Establishment of a Murine Maxillary Orthodontic Model

Published on: October 27, 2023

[Orthodontic anchorage].

C Paulus1, C Hartmann

  • 1Service de chirurgie maxillofaciale et stomatologie infantiles, hôpital Debrousse, 29 rue Soeur-Bouvier, Lyon, France. docteurpaulus@paulus-richard.com

Revue De Stomatologie Et De Chirurgie Maxillo-Faciale
|October 11, 2011
PubMed
Summary
This summary is machine-generated.

Screwed anchorage systems enhance orthodontic treatments, enabling complex cases in adults and pre-prosthetic orthodontics. While effective, potential tooth migration necessitates careful planning and monitoring for optimal outcomes.

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Measuring Maxillary Posterior Tooth Movement: A Model Assessment using Palatal and Dental Superimposition
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Measuring Maxillary Posterior Tooth Movement: A Model Assessment using Palatal and Dental Superimposition

Published on: February 23, 2024

Related Experiment Videos

Last Updated: May 28, 2026

The Establishment of a Murine Maxillary Orthodontic Model
04:11

The Establishment of a Murine Maxillary Orthodontic Model

Published on: October 27, 2023

Measuring Maxillary Posterior Tooth Movement: A Model Assessment using Palatal and Dental Superimposition
07:32

Measuring Maxillary Posterior Tooth Movement: A Model Assessment using Palatal and Dental Superimposition

Published on: February 23, 2024

Area of Science:

  • Orthodontics
  • Dental Implantology
  • Biomaterials

Context:

  • Orthodontic treatments rely on anchorage to counteract applied forces and achieve tooth movement.
  • Traditional anchorage methods can be insufficient, leading to unwanted counter-actions.
  • Bone anchorage provides a stable, fixed point essential for effective orthodontic interventions.

Purpose:

  • To describe the application and outcomes of screwed anchorage devices in orthodontic treatments.
  • To evaluate the efficacy and potential complications of specific screwed anchorage systems.
  • To highlight the role of screwed anchorage in advanced orthodontic cases.

Summary:

  • Screwed anchorage devices, including Lomas®, Orthocorrect®, and Stryker® systems, offer robust solutions for orthodontic anchorage.
  • These systems facilitate complex treatments, particularly in adult and pre-prosthetic orthodontics.
  • Potential complications like root perforation are rare, but apical migration of teeth may require multiple anchorage sites.

Impact:

  • Screwed anchorage systems expand treatment possibilities in orthodontics, especially for challenging adult and pre-prosthetic cases.
  • These devices provide enhanced stability, improving treatment predictability and efficiency.
  • Understanding potential complications like apical migration is crucial for successful implementation and patient management.