Add to ORKGCanine retraction was done for 19 patients. Movement , Tipping and rotation of canine and molar movements was done by two approaches of sliding hook and sliding mechanics using 16% wire and 18% twin edgewise brackets and were compared. 350 g force via elastic chin was applied and measurements were done both intra- and extraorally. There was not any significant statistical difference between canine and molar movements in both approaches. Canine Tipping and rotation in two approaches showed significant difference. In fact, both were lower in sliding hook approach than sliding mechanics. As lower tipping results were obtained in sliding hook approach, it is suggested to apply this method to bodily retract canine
Introduction: When anchorage control is critical and compliance is less than ideal, efficient treatm...
grantor: University of TorontoThe purpose of this study was to evaluate by quantitative an...
Introduction: The objective of this study was to analyze rates of canine movement over the first 2 m...
Abstract Introduction The aim of this split-mouth trial was to compare power-arm sliding (PAS) and d...
OBJECTIVE: To mechanically evaluate different systems used for canine retraction. METHODS: Three dif...
Objectives: The purpose of this study was to check the rate of canine retraction with bodily mechani...
PLEASE NOTE: This work is protected by copyright. Downloading is restricted to the BU community: ple...
Objective: To evaluate the velocity of canine retraction, anchorage loss and changes on canine and f...
Abstract Background Extraction of the first premolar followed by canine retraction into the extracti...
We face difficulty in individual canine retraction in the bracket system lacking power arms on the c...
Objective: To measure space closure during the retraction of upper permanent canines with selfligati...
BACKGROUND: The current study was carried out to compare the amount of tooth movement during canine ...
Introduction: The objective of this clinical prospective study was to evaluate the effect of the tw...
Introduction: Various force systems are used in orthodontics to move teeth, such as continuous, inte...
Palatally impacted canines are usually challenging to treat in terms of both biomechanics and possib...
Introduction: When anchorage control is critical and compliance is less than ideal, efficient treatm...
grantor: University of TorontoThe purpose of this study was to evaluate by quantitative an...
Introduction: The objective of this study was to analyze rates of canine movement over the first 2 m...
Abstract Introduction The aim of this split-mouth trial was to compare power-arm sliding (PAS) and d...
OBJECTIVE: To mechanically evaluate different systems used for canine retraction. METHODS: Three dif...
Objectives: The purpose of this study was to check the rate of canine retraction with bodily mechani...
PLEASE NOTE: This work is protected by copyright. Downloading is restricted to the BU community: ple...
Objective: To evaluate the velocity of canine retraction, anchorage loss and changes on canine and f...
Abstract Background Extraction of the first premolar followed by canine retraction into the extracti...
We face difficulty in individual canine retraction in the bracket system lacking power arms on the c...
Objective: To measure space closure during the retraction of upper permanent canines with selfligati...
BACKGROUND: The current study was carried out to compare the amount of tooth movement during canine ...
Introduction: The objective of this clinical prospective study was to evaluate the effect of the tw...
Introduction: Various force systems are used in orthodontics to move teeth, such as continuous, inte...
Palatally impacted canines are usually challenging to treat in terms of both biomechanics and possib...
Introduction: When anchorage control is critical and compliance is less than ideal, efficient treatm...
grantor: University of TorontoThe purpose of this study was to evaluate by quantitative an...
Introduction: The objective of this study was to analyze rates of canine movement over the first 2 m...