METHODS AND SYSTEMS FOR ORTHODONTIC TREATMENT PLANNING

Organization Name

CVSTOM Co.

Inventor(s)

Kjeld A. Aamodt of San Francisco CA (US)

METHODS AND SYSTEMS FOR ORTHODONTIC TREATMENT PLANNING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240033040 titled 'METHODS AND SYSTEMS FOR ORTHODONTIC TREATMENT PLANNING

Simplified Explanation

The patent application describes a method of orthodontic treatment planning using three-dimensional scans of a patient's dentition. The scans include intraoral surface data and volumetric data. These scans are overlaid to create an integrated patient model, which includes the root of at least one tooth with a longitudinal axis. The method also involves determining the center of rotation of the tooth for orthodontic treatment planning. The center of rotation is defined as a point located at a predetermined distance from the base to the apex of the root along the longitudinal axis of the tooth in the integrated patient model.

• The method involves receiving three-dimensional scans of a patient's dentition, including intraoral surface data and volumetric data.
• The scans are overlaid to generate an integrated patient model, which includes the root of at least one tooth with a longitudinal axis.
• The center of rotation of the tooth is determined for orthodontic treatment planning.
• The center of rotation is defined as a point located at a predetermined distance from the base to the apex of the root along the longitudinal axis of the tooth in the integrated patient model.

Potential applications of this technology:

• Orthodontic treatment planning: The method can be used by orthodontists to plan and design personalized treatment strategies for patients.
• Dental implant placement: The integrated patient model can assist in determining the optimal position and orientation for dental implants.
• Prosthodontics: The method can aid in the design and fabrication of dental prostheses by providing accurate information about the dentition and root structure.

Problems solved by this technology:

• Accurate treatment planning: The method allows for precise visualization and analysis of the dentition, enabling orthodontists to plan treatments more effectively.
• Improved outcomes: By determining the center of rotation, orthodontic treatments can be optimized for better results.
• Enhanced patient experience: The use of three-dimensional scans reduces the need for traditional dental impressions, making the treatment process more comfortable for patients.

Benefits of this technology:

• Personalized treatment: The integrated patient model provides a detailed representation of the patient's dentition, allowing for customized treatment planning.
• Time and cost savings: The use of three-dimensional scans eliminates the need for physical models and reduces the time required for treatment planning.
• Improved treatment accuracy: The method provides precise information about the root structure and center of rotation, leading to more accurate treatment outcomes.

Original Abstract Submitted

a method of orthodontic treatment planning for a patient includes receiving three-dimensional intraoral surface scan data of a dentition of the patient, receiving three-dimensional volumetric scan data of the dentition of the patient, and overlaying the intraoral surface scan data and the volumetric scan data to generate an integrated patient model comprising a root of at least one tooth having a longitudinal axis. the method further includes determining, for use in planning an orthodontic treatment, a center of rotation of the at least one tooth, wherein the center of rotation is defined as a point located a predetermined distance from a base of the root to an apex of the root along the longitudinal axis of the at least one tooth in the integrated patient model.