
Perusal of Extraction Space Closure in Pea Orthodontics
From the Publisher
Biomechanics is the most important aspect of the design of an orthodontic appliance. Tooth movement to close space is one of the most desired goals of orthodontic treatment. Orthodontic tooth movement is the result of the controlled application of mechanical forces to the teeth and periodontium. The stimulus provided by activated orthodontic appliances provides the necessary mechanical force to elicit a biological response. To carry out such movements, orthodontic tools should be chosen on the basis of the biological responses of the periodontium surrounding the teeth and their biomechanical properties as well as the appliances being used to move them. This book enables clinicians to determine anchorage and treatment options, reach the prognosis of various alternatives, as well as decide specific adjustments that can improve the outcomes of care. Therefore, in this book, we describe the biomechanics behind orthodontic space closure, related terminologies, different ways of space closure including tads
About the Book
Pages
108
Publisher
LAP Lambert Academic Publishing
Published
Jan 5th, 2023
Language
English
Show Book Details
Book Title
Perusal of Extraction Space Closure in Pea Orthodontics
Author
Jaina Dubey
Page Count
108
Publisher
LAP Lambert Academic Publishing
Publication Date
Jan 5th, 2023
Language
English
Edition
-
Dimensions
9.00in - 6.00in - 0.26in - 0.37lb
ISBN-13
9786205630761
Recommended age
NA-NA
Categories
Dentistry - General
Publisher Marketing Description
Biomechanics is the most important aspect of the design of an orthodontic appliance. Tooth movement to close space is one of the most desired goals of orthodontic treatment. Orthodontic tooth movement is the result of the controlled application of mechanical forces to the teeth and periodontium. The stimulus provided by activated orthodontic appliances provides the necessary mechanical force to elicit a biological response. To carry out such movements, orthodontic tools should be chosen on the basis of the biological responses of the periodontium surrounding the teeth and their biomechanical properties as well as the appliances being used to move them. This book enables clinicians to determine anchorage and treatment options, reach the prognosis of various alternatives, as well as decide specific adjustments that can improve the outcomes of care. Therefore, in this book, we describe the biomechanics behind orthodontic space closure, related terminologies, different ways of space closure including tads