The alveolar process following single-tooth extraction: a study of maxillary incisor and premolar sites in man

Objective The present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites of the maxilla following tooth removal. Material and methods Computer‐assisted cone‐beam computed tomography (CBCT) scans were obtained fro...

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Published inClinical oral implants research Vol. 27; no. 7; pp. 884 - 889
Main Authors Misawa, Mônica, Lindhe, Jan, Araújo, Mauricio G.
Format Journal Article
LanguageEnglish
Published Denmark Blackwell Publishing Ltd 01.07.2016
Subjects
Adult
alveolar process
Alveolar Process - diagnostic imaging
Bicuspid
bone
clinical-trial
collagen
Cone-Beam Computed Tomography
contour
Dentistry
dimension
dog
edentulous ridge
Engineering
Female
Humans
implant placement
Incisor
Male
Maxilla - diagnostic imaging
Odontologi
Odontology
Oral Surgery & Medicine
preservation
resorption
ridge alterations
sockets
Tooth Extraction
edentulous ridge
resorption
bone
alveolar process
dimension
Online AccessGet full text
ISSN0905-7161
1600-0501
DOI10.1111/clr.12710

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Abstract Objective The present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites of the maxilla following tooth removal. Material and methods Computer‐assisted cone‐beam computed tomography (CBCT) scans were obtained from the maxilla using an iCAT unit, and involved edentulous and contralateral tooth sites. For each site included in the study, parasagittal and axial reconstructions, 1 mm apart, were made and measurements of different variables (cross‐sectional area, height, and width) performed. Results The study involved 69 subjects and disclosed that the cross‐sectional area and the height and width of the alveolar process of the lateral incisor site were the smallest and those of the second premolar the largest. All parameters had been significantly reduced after the completion of the ≥1 year of healing. Thus, the overall (i) cross‐sectional area was reduced from 99.1 to 65.0 mm2, (ii) the height from 11.5 to 9.5 mm, and (iii) the width from 8.5 to 3.2 mm (marginal 1/3rd), 8.9 to 4.8 mm (middle portion), and 9.0 to 5.7 mm (apical portion). Conclusion The removal of single tooth caused marked hard tissue diminution. The loss of hard tissue was most pronounced in the buccal and marginal portions of the edentulous ridge that in most sites had acquired a triangular shape.
AbstractList Objective The present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites of the maxilla following tooth removal. Material and methods Computer-assisted cone-beam computed tomography (CBCT) scans were obtained from the maxilla using an iCAT unit, and involved edentulous and contralateral tooth sites. For each site included in the study, parasagittal and axial reconstructions, 1 mm apart, were made and measurements of different variables (cross-sectional area, height, and width) performed. Results The study involved 69 subjects and disclosed that the cross-sectional area and the height and width of the alveolar process of the lateral incisor site were the smallest and those of the second premolar the largest. All parameters had been significantly reduced after the completion of the greater than or equal to 1 year of healing. Thus, the overall (i) cross-sectional area was reduced from 99.1 to 65.0 mm super(2), (ii) the height from 11.5 to 9.5 mm, and (iii) the width from 8.5 to 3.2 mm (marginal 1/3 super(rd)), 8.9 to 4.8 mm (middle portion), and 9.0 to 5.7 mm (apical portion). Conclusion The removal of single tooth caused marked hard tissue diminution. The loss of hard tissue was most pronounced in the buccal and marginal portions of the edentulous ridge that in most sites had acquired a triangular shape.
Objective The present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites of the maxilla following tooth removal. Material and methods Computer‐assisted cone‐beam computed tomography (CBCT) scans were obtained from the maxilla using an iCAT unit, and involved edentulous and contralateral tooth sites. For each site included in the study, parasagittal and axial reconstructions, 1 mm apart, were made and measurements of different variables (cross‐sectional area, height, and width) performed. Results The study involved 69 subjects and disclosed that the cross‐sectional area and the height and width of the alveolar process of the lateral incisor site were the smallest and those of the second premolar the largest. All parameters had been significantly reduced after the completion of the ≥1 year of healing. Thus, the overall (i) cross‐sectional area was reduced from 99.1 to 65.0 mm2, (ii) the height from 11.5 to 9.5 mm, and (iii) the width from 8.5 to 3.2 mm (marginal 1/3rd), 8.9 to 4.8 mm (middle portion), and 9.0 to 5.7 mm (apical portion). Conclusion The removal of single tooth caused marked hard tissue diminution. The loss of hard tissue was most pronounced in the buccal and marginal portions of the edentulous ridge that in most sites had acquired a triangular shape.
The present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites of the maxilla following tooth removal. Computer-assisted cone-beam computed tomography (CBCT) scans were obtained from the maxilla using an iCAT unit, and involved edentulous and contralateral tooth sites. For each site included in the study, parasagittal and axial reconstructions, 1 mm apart, were made and measurements of different variables (cross-sectional area, height, and width) performed. The study involved 69 subjects and disclosed that the cross-sectional area and the height and width of the alveolar process of the lateral incisor site were the smallest and those of the second premolar the largest. All parameters had been significantly reduced after the completion of the ≥1 year of healing. Thus, the overall (i) cross-sectional area was reduced from 99.1 to 65.0 mm(2) , (ii) the height from 11.5 to 9.5 mm, and (iii) the width from 8.5 to 3.2 mm (marginal 1/3(rd) ), 8.9 to 4.8 mm (middle portion), and 9.0 to 5.7 mm (apical portion). The removal of single tooth caused marked hard tissue diminution. The loss of hard tissue was most pronounced in the buccal and marginal portions of the edentulous ridge that in most sites had acquired a triangular shape.
ObjectiveThe present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites of the maxilla following tooth removal. Material and methodsComputer-assisted cone-beam computed tomography (CBCT) scans were obtained from the maxilla using an iCAT unit, and involved edentulous and contralateral tooth sites. For each site included in the study, parasagittal and axial reconstructions, 1mm apart, were made and measurements of different variables (cross-sectional area, height, and width) performed. ResultsThe study involved 69 subjects and disclosed that the cross-sectional area and the height and width of the alveolar process of the lateral incisor site were the smallest and those of the second premolar the largest. All parameters had been significantly reduced after the completion of the 1year of healing. Thus, the overall (i) cross-sectional area was reduced from 99.1 to 65.0mm(2), (ii) the height from 11.5 to 9.5mm, and (iii) the width from 8.5 to 3.2mm (marginal 1/3(rd)), 8.9 to 4.8mm (middle portion), and 9.0 to 5.7mm (apical portion). ConclusionThe removal of single tooth caused marked hard tissue diminution. The loss of hard tissue was most pronounced in the buccal and marginal portions of the edentulous ridge that in most sites had acquired a triangular shape.
OBJECTIVEThe present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites of the maxilla following tooth removal.MATERIAL AND METHODSComputer-assisted cone-beam computed tomography (CBCT) scans were obtained from the maxilla using an iCAT unit, and involved edentulous and contralateral tooth sites. For each site included in the study, parasagittal and axial reconstructions, 1 mm apart, were made and measurements of different variables (cross-sectional area, height, and width) performed.RESULTSThe study involved 69 subjects and disclosed that the cross-sectional area and the height and width of the alveolar process of the lateral incisor site were the smallest and those of the second premolar the largest. All parameters had been significantly reduced after the completion of the ≥1 year of healing. Thus, the overall (i) cross-sectional area was reduced from 99.1 to 65.0 mm(2) , (ii) the height from 11.5 to 9.5 mm, and (iii) the width from 8.5 to 3.2 mm (marginal 1/3(rd) ), 8.9 to 4.8 mm (middle portion), and 9.0 to 5.7 mm (apical portion).CONCLUSIONThe removal of single tooth caused marked hard tissue diminution. The loss of hard tissue was most pronounced in the buccal and marginal portions of the edentulous ridge that in most sites had acquired a triangular shape.
Author Misawa, Mônica
Araújo, Mauricio G.
Lindhe, Jan
Author_xml – sequence: 1
  givenname: Mônica
  surname: Misawa
  fullname: Misawa, Mônica
  organization: Department of Dentistry, State University of Maringá, Parana, Brazil
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  surname: Lindhe
  fullname: Lindhe, Jan
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  surname: Araújo
  fullname: Araújo, Mauricio G.
  email: odomar@hotmail.com
  organization: Department of Dentistry, State University of Maringá, Parana, Brazil
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Issue 7
Keywords edentulous ridge
resorption
bone
alveolar process
dimension
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Marks, S.C., Jr & Schroeder, H.E. (1996) Tooth eruption: theories and facts. The Anatomical Record 245: 374-393.
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Blanco, J., Mareque, S., Liñares, A. & Muñoz, F. (2011) Vertical and horizontal ridge alterations after tooth extraction in the dog: flap vs. flapless surgery. Clinical Oral Implants Research 22: 1255-1258.
Araújo, M.G. & Lindhe, J. (2005) Dimensional ridge alterations following tooth extraction. An experimental study in the dog. Journal of Clinical Periodontology 32: 212-218.
Sanz, M., Cecchinato, D., Ferrus, J., Pjetursson, E.B., Lang, N.P. & Lindhe, J. (2010) A prospective, randomized-controlled clinical trial to evaluate bone preservation using implants with different geometry placed into extraction sockets in the maxilla. Clinical Oral Implants Research 21: 13-21.
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Botticelli, D., Berglundh, T. & Lindhe, J. (2004) Hard-tissue alterations following immediate implant placement in extraction sites. Journal of Clinical Periodontology 31: 820-828.
Schroeder, H.E. (1986) The Periodontium. Berlin Heidelberg: Springer-Verlag.
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Snippet Objective The present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar...
The present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites of the...
OBJECTIVEThe present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites...
Objective The present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar...
ObjectiveThe present investigation was performed to determine some dimensional alterations that occur in the alveolar process of the incisor and premolar sites...
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SubjectTerms Adult
alveolar process
Alveolar Process - diagnostic imaging
Bicuspid
bone
clinical-trial
collagen
Cone-Beam Computed Tomography
contour
Dentistry
dimension
dog
edentulous ridge
Engineering
Female
Humans
implant placement
Incisor
Male
Maxilla - diagnostic imaging
Odontologi
Odontology
Oral Surgery & Medicine
preservation
resorption
ridge alterations
sockets
Tooth Extraction
Title The alveolar process following single-tooth extraction: a study of maxillary incisor and premolar sites in man
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https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fclr.12710
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https://www.proquest.com/docview/1808666400
https://gup.ub.gu.se/publication/240217
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