Physical properties of root cementum: Part 11. Continuous vs intermittent controlled orthodontic forces on root resorption. A microcomputed-tomography study

There is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized clinical trial was designed to compare root resorption with these 2 force application patterns. The sample consisted of 16 maxillary first premolars from 8 p...

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Published inAmerican journal of orthodontics and dentofacial orthopedics Vol. 136; no. 1; pp. 8.e1 - 8.e8
Main Authors Ballard, Darin J., Jones, Allan S., Petocz, Peter, Darendeliler, M. Ali
Format Journal Article
LanguageEnglish
Published United States Mosby, Inc 01.07.2009
Subjects
Adolescent
Alloys - chemistry
Bicuspid - physiopathology
Cone-Beam Computed Tomography - methods
Dental Alloys - chemistry
Dental Cementum - diagnostic imaging
Dental Cementum - physiopathology
Dentistry
Female
Humans
Image Processing, Computer-Assisted - methods
Imaging, Three-Dimensional - methods
Male
Orthodontic Brackets
Orthodontic Wires
Orthodontics, Corrective
Prospective Studies
Root Resorption - diagnostic imaging
Root Resorption - etiology
Root Resorption - physiopathology
Stress, Mechanical
Time Factors
Tooth Movement Techniques - instrumentation
Tooth Root - diagnostic imaging
Tooth Root - physiopathology
X-Ray Microtomography
Online AccessGet full text
ISSN0889-5406
1097-6752
1097-6752
DOI10.1016/j.ajodo.2007.07.026

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Abstract There is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized clinical trial was designed to compare root resorption with these 2 force application patterns. The sample consisted of 16 maxillary first premolars from 8 patients who required bilateral extractions as part of their orthodontic treatment. In each subject, a fixed experimental appliance was placed on the maxillary teeth on each side, allowing a buccally directed force. The force was generated by a segmental wire of β-titanium-molybdenum alloy. The first premolar on 1 side received a buccally directed continuous force, and the contralateral premolar received intermittent force. The initial force magnitude for both sides was 225 cN. After 14 days of initial continuous force, the intermittent force application was obtained with subsequently repeated periods until the end of the eighth week of a 3-day rest period followed by a 4-day force application period. Force levels were set to 225 cN at each patient visit. After the experimental period of 8 weeks, the teeth were extracted under a strict protocol to prevent root surface damage and analyzed with a microcomputed-tomography scan system, and specially designed software was used for direct volumetric measurements. Intermittent force produced less root resorption than continuous force ( P <0.05). Analysis by position showed that the buccal-cervical region had significantly more root resorption than the other positions ( P <0.001), corresponding to a region of compression generated by tipping. The application of intermittent orthodontic forces of 225 cN for 8 weeks (14 days of force application, 3 days of rest, then 4 days of force application repeated for 6 weeks) caused less root resorption than continuous forces of 225 cN for 8 weeks. Although it might not be clinically practical, compared with continuous forces, intermittent forces might be a safer method to prevent significant root resorption. This regimen, however, could compromise the efficiency of tooth movement.
AbstractList There is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized clinical trial was designed to compare root resorption with these 2 force application patterns. The sample consisted of 16 maxillary first premolars from 8 patients who required bilateral extractions as part of their orthodontic treatment. In each subject, a fixed experimental appliance was placed on the maxillary teeth on each side, allowing a buccally directed force. The force was generated by a segmental wire of β-titanium-molybdenum alloy. The first premolar on 1 side received a buccally directed continuous force, and the contralateral premolar received intermittent force. The initial force magnitude for both sides was 225 cN. After 14 days of initial continuous force, the intermittent force application was obtained with subsequently repeated periods until the end of the eighth week of a 3-day rest period followed by a 4-day force application period. Force levels were set to 225 cN at each patient visit. After the experimental period of 8 weeks, the teeth were extracted under a strict protocol to prevent root surface damage and analyzed with a microcomputed-tomography scan system, and specially designed software was used for direct volumetric measurements. Intermittent force produced less root resorption than continuous force ( P <0.05). Analysis by position showed that the buccal-cervical region had significantly more root resorption than the other positions ( P <0.001), corresponding to a region of compression generated by tipping. The application of intermittent orthodontic forces of 225 cN for 8 weeks (14 days of force application, 3 days of rest, then 4 days of force application repeated for 6 weeks) caused less root resorption than continuous forces of 225 cN for 8 weeks. Although it might not be clinically practical, compared with continuous forces, intermittent forces might be a safer method to prevent significant root resorption. This regimen, however, could compromise the efficiency of tooth movement.
IntroductionThere is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized clinical trial was designed to compare root resorption with these 2 force application patterns. MethodsThe sample consisted of 16 maxillary first premolars from 8 patients who required bilateral extractions as part of their orthodontic treatment. In each subject, a fixed experimental appliance was placed on the maxillary teeth on each side, allowing a buccally directed force. The force was generated by a segmental wire of β-titanium-molybdenum alloy. The first premolar on 1 side received a buccally directed continuous force, and the contralateral premolar received intermittent force. The initial force magnitude for both sides was 225 cN. After 14 days of initial continuous force, the intermittent force application was obtained with subsequently repeated periods until the end of the eighth week of a 3-day rest period followed by a 4-day force application period. Force levels were set to 225 cN at each patient visit. After the experimental period of 8 weeks, the teeth were extracted under a strict protocol to prevent root surface damage and analyzed with a microcomputed-tomography scan system, and specially designed software was used for direct volumetric measurements. ResultsIntermittent force produced less root resorption than continuous force ( P <0.05). Analysis by position showed that the buccal-cervical region had significantly more root resorption than the other positions ( P <0.001), corresponding to a region of compression generated by tipping. ConclusionsThe application of intermittent orthodontic forces of 225 cN for 8 weeks (14 days of force application, 3 days of rest, then 4 days of force application repeated for 6 weeks) caused less root resorption than continuous forces of 225 cN for 8 weeks. Although it might not be clinically practical, compared with continuous forces, intermittent forces might be a safer method to prevent significant root resorption. This regimen, however, could compromise the efficiency of tooth movement.
There is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized clinical trial was designed to compare root resorption with these 2 force application patterns. The sample consisted of 16 maxillary first premolars from 8 patients who required bilateral extractions as part of their orthodontic treatment. In each subject, a fixed experimental appliance was placed on the maxillary teeth on each side, allowing a buccally directed force. The force was generated by a segmental wire of beta-titanium-molybdenum alloy. The first premolar on 1 side received a buccally directed continuous force, and the contralateral premolar received intermittent force. The initial force magnitude for both sides was 225 cN. After 14 days of initial continuous force, the intermittent force application was obtained with subsequently repeated periods until the end of the eighth week of a 3-day rest period followed by a 4-day force application period. Force levels were set to 225 cN at each patient visit. After the experimental period of 8 weeks, the teeth were extracted under a strict protocol to prevent root surface damage and analyzed with a microcomputed-tomography scan system, and specially designed software was used for direct volumetric measurements. Intermittent force produced less root resorption than continuous force (P <0.05). Analysis by position showed that the buccal-cervical region had significantly more root resorption than the other positions (P <0.001), corresponding to a region of compression generated by tipping. The application of intermittent orthodontic forces of 225 cN for 8 weeks (14 days of force application, 3 days of rest, then 4 days of force application repeated for 6 weeks) caused less root resorption than continuous forces of 225 cN for 8 weeks. Although it might not be clinically practical, compared with continuous forces, intermittent forces might be a safer method to prevent significant root resorption. This regimen, however, could compromise the efficiency of tooth movement.
There is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized clinical trial was designed to compare root resorption with these 2 force application patterns.INTRODUCTIONThere is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized clinical trial was designed to compare root resorption with these 2 force application patterns.The sample consisted of 16 maxillary first premolars from 8 patients who required bilateral extractions as part of their orthodontic treatment. In each subject, a fixed experimental appliance was placed on the maxillary teeth on each side, allowing a buccally directed force. The force was generated by a segmental wire of beta-titanium-molybdenum alloy. The first premolar on 1 side received a buccally directed continuous force, and the contralateral premolar received intermittent force. The initial force magnitude for both sides was 225 cN. After 14 days of initial continuous force, the intermittent force application was obtained with subsequently repeated periods until the end of the eighth week of a 3-day rest period followed by a 4-day force application period. Force levels were set to 225 cN at each patient visit. After the experimental period of 8 weeks, the teeth were extracted under a strict protocol to prevent root surface damage and analyzed with a microcomputed-tomography scan system, and specially designed software was used for direct volumetric measurements.METHODSThe sample consisted of 16 maxillary first premolars from 8 patients who required bilateral extractions as part of their orthodontic treatment. In each subject, a fixed experimental appliance was placed on the maxillary teeth on each side, allowing a buccally directed force. The force was generated by a segmental wire of beta-titanium-molybdenum alloy. The first premolar on 1 side received a buccally directed continuous force, and the contralateral premolar received intermittent force. The initial force magnitude for both sides was 225 cN. After 14 days of initial continuous force, the intermittent force application was obtained with subsequently repeated periods until the end of the eighth week of a 3-day rest period followed by a 4-day force application period. Force levels were set to 225 cN at each patient visit. After the experimental period of 8 weeks, the teeth were extracted under a strict protocol to prevent root surface damage and analyzed with a microcomputed-tomography scan system, and specially designed software was used for direct volumetric measurements.Intermittent force produced less root resorption than continuous force (P <0.05). Analysis by position showed that the buccal-cervical region had significantly more root resorption than the other positions (P <0.001), corresponding to a region of compression generated by tipping.RESULTSIntermittent force produced less root resorption than continuous force (P <0.05). Analysis by position showed that the buccal-cervical region had significantly more root resorption than the other positions (P <0.001), corresponding to a region of compression generated by tipping.The application of intermittent orthodontic forces of 225 cN for 8 weeks (14 days of force application, 3 days of rest, then 4 days of force application repeated for 6 weeks) caused less root resorption than continuous forces of 225 cN for 8 weeks. Although it might not be clinically practical, compared with continuous forces, intermittent forces might be a safer method to prevent significant root resorption. This regimen, however, could compromise the efficiency of tooth movement.CONCLUSIONSThe application of intermittent orthodontic forces of 225 cN for 8 weeks (14 days of force application, 3 days of rest, then 4 days of force application repeated for 6 weeks) caused less root resorption than continuous forces of 225 cN for 8 weeks. Although it might not be clinically practical, compared with continuous forces, intermittent forces might be a safer method to prevent significant root resorption. This regimen, however, could compromise the efficiency of tooth movement.
Author Petocz, Peter
Darendeliler, M. Ali
Jones, Allan S.
Ballard, Darin J.
Author_xml – sequence: 1
  givenname: Darin J.
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  fullname: Ballard, Darin J.
  organization: Former postgraduate student, Discipline of Orthodontics, Faculty of Dentistry, University of Sydney, Sydney, Australia
– sequence: 2
  givenname: Allan S.
  surname: Jones
  fullname: Jones, Allan S.
  organization: Senior lecturer (image analysis), Electron Microscope Unit, University of Sydney, Sydney, Australia
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  givenname: Peter
  surname: Petocz
  fullname: Petocz, Peter
  organization: Statistician, Department of Statistics, Macquarie University, Sydney; honorary associate, Discipline of Orthodontics, Faculty of Dentistry, University of Sydney, Sydney, Australia
– sequence: 4
  givenname: M. Ali
  surname: Darendeliler
  fullname: Darendeliler, M. Ali
  email: adarende@mail.usyd.edu.au
  organization: Professor and chair, Discipline of orthodontics, Faculty of Dentistry, University of Sydney, Sydney, Australia
BackLink https://www.ncbi.nlm.nih.gov/pubmed/19577132$$D View this record in MEDLINE/PubMed
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Snippet There is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized clinical trial...
IntroductionThere is still ambiguity about whether continuous or intermittent orthodontic forces produce more root resorption. This prospective randomized...
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SubjectTerms Adolescent
Alloys - chemistry
Bicuspid - physiopathology
Cone-Beam Computed Tomography - methods
Dental Alloys - chemistry
Dental Cementum - diagnostic imaging
Dental Cementum - physiopathology
Dentistry
Female
Humans
Image Processing, Computer-Assisted - methods
Imaging, Three-Dimensional - methods
Male
Orthodontic Brackets
Orthodontic Wires
Orthodontics, Corrective
Prospective Studies
Root Resorption - diagnostic imaging
Root Resorption - etiology
Root Resorption - physiopathology
Stress, Mechanical
Time Factors
Tooth Movement Techniques - instrumentation
Tooth Root - diagnostic imaging
Tooth Root - physiopathology
X-Ray Microtomography
Title Physical properties of root cementum: Part 11. Continuous vs intermittent controlled orthodontic forces on root resorption. A microcomputed-tomography study
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https://www.clinicalkey.es/playcontent/1-s2.0-S0889540609002819
https://dx.doi.org/10.1016/j.ajodo.2007.07.026
https://www.ncbi.nlm.nih.gov/pubmed/19577132
https://www.proquest.com/docview/67450427
Volume 136
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