A new method for volumetric measurement of orthodontically induced root resorption craters

This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g) orthodontic forces were applied to 20 first maxillary premolars in 10 human subjects. The contralateral teeth of the subjects served as controls...

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Vydáno v:	European journal of oral sciences Ročník 112; číslo 2; s. 134 - 139
Hlavní autoři:	Chan, Eugene K. M., Darendeliler, M. Ali, Petocz, Peter, Jones, Allan S.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Oxford, UK Munksgaard International Publishers 01.04.2004
Témata:	Bicuspid Calibration Dental Cementum - ultrastructure Humans Image Processing, Computer-Assisted - methods Imaging, Three-Dimensional - methods Microscopy, Electron, Scanning Photogrammetry Reproducibility of Results root resorption Root Resorption - pathology SEM shading correction Stress, Mechanical Tooth Movement Techniques - methods Tooth Root - ultrastructure volumetric measurement
ISSN:	0909-8836, 1600-0722
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Abstract	This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g) orthodontic forces were applied to 20 first maxillary premolars in 10 human subjects. The contralateral teeth of the subjects served as controls. All teeth were extracted after 28 d of experimentation and prepared for imaging. A pair of stereo scanning electron microscopy (SEM) images (±3°) of resorption craters was captured and imported into an image analysis software package. The images were aligned and grayscale depth maps of the craters were generated. Correction for errors due to residual tilt and curvature of the cementum surface using shading correction was performed. Thresholding was used to obtain a measure of both the cementum surface height and the average depth of the crater. The depth of the crater was the difference in these values. Crater volumes were obtained by multiplication of the average of this difference by area of the crater. Calibration of this volumetric measurement against standardized calculated known volumes on metallic rods showed good accuracy and reproducibility. In the experimental teeth, heavy forces caused threefold more resorption than light forces (P < 0.01). There was also more root resorption evident in the experimental teeth compared with the control teeth in both the light and heavy force groups.
AbstractList	This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g) orthodontic forces were applied to 20 first maxillary premolars in 10 human subjects. The contralateral teeth of the subjects served as controls. All teeth were extracted after 28 d of experimentation and prepared for imaging. A pair of stereo scanning electron microscopy (SEM) images (+/-3 degrees ) of resorption craters was captured and imported into an image analysis software package. The images were aligned and grayscale depth maps of the craters were generated. Correction for errors due to residual tilt and curvature of the cementum surface using shading correction was performed. Thresholding was used to obtain a measure of both the cementum surface height and the average depth of the crater. The depth of the crater was the difference in these values. Crater volumes were obtained by multiplication of the average of this difference by area of the crater. Calibration of this volumetric measurement against standardized calculated known volumes on metallic rods showed good accuracy and reproducibility. In the experimental teeth, heavy forces caused threefold more resorption than light forces (P < 0.01). There was also more root resorption evident in the experimental teeth compared with the control teeth in both the light and heavy force groups. This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g) orthodontic forces were applied to 20 first maxillary premolars in 10 human subjects. The contralateral teeth of the subjects served as controls. All teeth were extracted after 28 d of experimentation and prepared for imaging. A pair of stereo scanning electron microscopy (SEM) images (+/-3 degrees ) of resorption craters was captured and imported into an image analysis software package. The images were aligned and grayscale depth maps of the craters were generated. Correction for errors due to residual tilt and curvature of the cementum surface using shading correction was performed. Thresholding was used to obtain a measure of both the cementum surface height and the average depth of the crater. The depth of the crater was the difference in these values. Crater volumes were obtained by multiplication of the average of this difference by area of the crater. Calibration of this volumetric measurement against standardized calculated known volumes on metallic rods showed good accuracy and reproducibility. In the experimental teeth, heavy forces caused threefold more resorption than light forces (P < 0.01). There was also more root resorption evident in the experimental teeth compared with the control teeth in both the light and heavy force groups.This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g) orthodontic forces were applied to 20 first maxillary premolars in 10 human subjects. The contralateral teeth of the subjects served as controls. All teeth were extracted after 28 d of experimentation and prepared for imaging. A pair of stereo scanning electron microscopy (SEM) images (+/-3 degrees ) of resorption craters was captured and imported into an image analysis software package. The images were aligned and grayscale depth maps of the craters were generated. Correction for errors due to residual tilt and curvature of the cementum surface using shading correction was performed. Thresholding was used to obtain a measure of both the cementum surface height and the average depth of the crater. The depth of the crater was the difference in these values. Crater volumes were obtained by multiplication of the average of this difference by area of the crater. Calibration of this volumetric measurement against standardized calculated known volumes on metallic rods showed good accuracy and reproducibility. In the experimental teeth, heavy forces caused threefold more resorption than light forces (P < 0.01). There was also more root resorption evident in the experimental teeth compared with the control teeth in both the light and heavy force groups. This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g) orthodontic forces were applied to 20 first maxillary premolars in 10 human subjects. The contralateral teeth of the subjects served as controls. All teeth were extracted after 28 d of experimentation and prepared for imaging. A pair of stereo scanning electron microscopy (SEM) images (±3°) of resorption craters was captured and imported into an image analysis software package. The images were aligned and grayscale depth maps of the craters were generated. Correction for errors due to residual tilt and curvature of the cementum surface using shading correction was performed. Thresholding was used to obtain a measure of both the cementum surface height and the average depth of the crater. The depth of the crater was the difference in these values. Crater volumes were obtained by multiplication of the average of this difference by area of the crater. Calibration of this volumetric measurement against standardized calculated known volumes on metallic rods showed good accuracy and reproducibility. In the experimental teeth, heavy forces caused threefold more resorption than light forces ( P < 0.01). There was also more root resorption evident in the experimental teeth compared with the control teeth in both the light and heavy force groups. This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g) orthodontic forces were applied to 20 first maxillary premolars in 10 human subjects. The contralateral teeth of the subjects served as controls. All teeth were extracted after 28 d of experimentation and prepared for imaging. A pair of stereo scanning electron microscopy (SEM) images (±3°) of resorption craters was captured and imported into an image analysis software package. The images were aligned and grayscale depth maps of the craters were generated. Correction for errors due to residual tilt and curvature of the cementum surface using shading correction was performed. Thresholding was used to obtain a measure of both the cementum surface height and the average depth of the crater. The depth of the crater was the difference in these values. Crater volumes were obtained by multiplication of the average of this difference by area of the crater. Calibration of this volumetric measurement against standardized calculated known volumes on metallic rods showed good accuracy and reproducibility. In the experimental teeth, heavy forces caused threefold more resorption than light forces (P < 0.01). There was also more root resorption evident in the experimental teeth compared with the control teeth in both the light and heavy force groups.
Author	Chan, Eugene K. M. Petocz, Peter Darendeliler, M. Ali Jones, Allan S.
Author_xml	– sequence: 1 givenname: Eugene K. M. surname: Chan fullname: Chan, Eugene K. M. organization: Discipline of Orthodontics, Faculty of Dentistry, University of Sydney, Australia – sequence: 2 givenname: M. Ali surname: Darendeliler fullname: Darendeliler, M. Ali organization: Discipline of Orthodontics, Faculty of Dentistry, University of Sydney, Australia – sequence: 3 givenname: Peter surname: Petocz fullname: Petocz, Peter organization: Department of Statistics, Macquarie University, Sydney, Australia – sequence: 4 givenname: Allan S. surname: Jones fullname: Jones, Allan S. organization: Electron Microscopic Unit, University of Sydney, Australia
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Cites_doi	10.1177/00220345820610062501 10.1016/0002-9416(67)90100-5 10.1111/j.1601-6343.2004.00280.x 10.1007/978-1-4613-0563-7 10.1016/0030-4220(89)90333-2 10.1016/0002-9416(81)90356-0 10.14219/jada.archive.1951.0045 10.1093/ejo/2.4.197-a 10.1067/mod.2001.114535 10.3109/00016356309019777 10.1023/B:ABME.0000030263.68615.82
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References	Sameshima GT, Asgarifar KO. Assessment of root resorption and root shape: periapical vs panoramic films. Angle Orthod 2001; 71: 185-189. Barber AF, Sims MR. Rapid maxillary expansion and external root resorption in man: a SEM study. Am J Orthod 1981; 79: 630-652. Jepsen A. Root surface measurement and a method for X-ray determination of root surface area. Acta Odontol Scand 1963; 24: 35-46. Hollender L, Ronnerman A, Thilander B. Root resorption, marginal bone support and clinical crown length in orthodontically treated patients. Eur J Orthod 1980; 2: 197-205. Harry MR, Sims MR. Root resorption in bicuspid intrusion: a scanning electron microscopic study. Angle Orthod 1982; 52: 235-258. Russ JC. Computer-assisted microscopy: the measurement and analysis of images. New York: Plenum Press, 1990. Lydiatt DD, Hollins RR, Peterson G. Multiple idiopathic root resorption: diagnostic considerations. Oral Surg Oral Med Oral Path Oral Radiol Endod 1989; 67: 208-210. Schwartz AM. Tissue changes incidental to orthodontic tooth movement. Inter J Orthod 1932; 18: 331-352. King GJ, Fischlschweiger W. The effect of force magnitude on extractable bone resorptive activity and cemental cratering in orthodontic tooth movement. J Dent Res 1982; 61: 775-779. Storey E, Smith R. Force in orthodontics and its relation to tooth movement. Aust J Dent 1952; 56: 11-18. Kvam E. SEM of tissue changes on the pressure surface of human premolars following tooth movement. Scand J Dent Res 1972; 80: 357-368. Henry JL, Weinmann JP. The pattern of resorption and repair of human cementum. J Am Dent Assoc 1951; 42: 270-290. Bates S. Absorption. Br J Dent Sci 1856; 1: 256. Acar A, Canyurek U, Kocaaga M, Erverdi N. Continuous vs. discontinuous force application and root resorption. Angle Orthod 1999; 69: 159-164. Dellinger EL. A histologic and cephalometric investigation of premolar intrusion in the Macaca speciosa monkey. Am J Orthod 1967; 53: 325-355. Ottolengui R. The physiological and pathological resorption of tooth roots. Item Interest 1914; 36: 332-362. McNab S, Battistutta D, Taverne A, Symons A. External root resorption following orthodontic treatment. Angle Orthod 2000; 70: 227-232. Malek S, Darendeliler MA, Swain MV. Physical properties of root cementum: Part I. A new method for 3-dimensional evaluation. Am J Orthod Dentofac Orthop 2001; 120: 198-208. 1963; 24 1856; 1 1914; 36 1952; 56 2001; 71 1989; 67 2001; 120 1990 1967; 53 2000 1982; 61 1980; 2 1982; 52 1932; 18 1999; 69 1981; 79 2000; 70 1972; 80 1972 2004 1951; 42 Sameshima GT (e_1_2_6_8_2) 2001; 71 Proffit WR (e_1_2_6_21_2) 2000 e_1_2_6_20_2 Bates S (e_1_2_6_2_2) 1856; 1 McNab S (e_1_2_6_10_2) 2000; 70 Kvam E (e_1_2_6_5_2) 1972; 80 Schwartz AM (e_1_2_6_19_2) 1932; 18 e_1_2_6_7_2 Harry MR (e_1_2_6_16_2) 1982; 52 e_1_2_6_18_2 e_1_2_6_9_2 e_1_2_6_4_2 Acar A (e_1_2_6_11_2) 1999; 69 e_1_2_6_12_2 e_1_2_6_13_2 e_1_2_6_23_2 Storey E (e_1_2_6_6_2) 1952; 56 e_1_2_6_22_2 Ottolengui R (e_1_2_6_3_2) 1914; 36 e_1_2_6_17_2 e_1_2_6_14_2 e_1_2_6_15_2
References_xml	– reference: Acar A, Canyurek U, Kocaaga M, Erverdi N. Continuous vs. discontinuous force application and root resorption. Angle Orthod 1999; 69: 159-164. – reference: Schwartz AM. Tissue changes incidental to orthodontic tooth movement. Inter J Orthod 1932; 18: 331-352. – reference: Ottolengui R. The physiological and pathological resorption of tooth roots. Item Interest 1914; 36: 332-362. – reference: Kvam E. SEM of tissue changes on the pressure surface of human premolars following tooth movement. Scand J Dent Res 1972; 80: 357-368. – reference: Lydiatt DD, Hollins RR, Peterson G. Multiple idiopathic root resorption: diagnostic considerations. Oral Surg Oral Med Oral Path Oral Radiol Endod 1989; 67: 208-210. – reference: King GJ, Fischlschweiger W. The effect of force magnitude on extractable bone resorptive activity and cemental cratering in orthodontic tooth movement. J Dent Res 1982; 61: 775-779. – reference: Harry MR, Sims MR. Root resorption in bicuspid intrusion: a scanning electron microscopic study. Angle Orthod 1982; 52: 235-258. – reference: Russ JC. Computer-assisted microscopy: the measurement and analysis of images. New York: Plenum Press, 1990. – reference: Bates S. Absorption. Br J Dent Sci 1856; 1: 256. – reference: Sameshima GT, Asgarifar KO. Assessment of root resorption and root shape: periapical vs panoramic films. Angle Orthod 2001; 71: 185-189. – reference: McNab S, Battistutta D, Taverne A, Symons A. External root resorption following orthodontic treatment. Angle Orthod 2000; 70: 227-232. – reference: Dellinger EL. A histologic and cephalometric investigation of premolar intrusion in the Macaca speciosa monkey. Am J Orthod 1967; 53: 325-355. – reference: Storey E, Smith R. Force in orthodontics and its relation to tooth movement. Aust J Dent 1952; 56: 11-18. – reference: Henry JL, Weinmann JP. The pattern of resorption and repair of human cementum. 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Am J Orthod Dentofac Orthop 2001; 120: 198-208. – volume: 67 start-page: 208 year: 1989 end-page: 210 article-title: Multiple idiopathic root resorption: diagnostic considerations publication-title: Oral Surg Oral Med Oral Path Oral Radiol Endod – volume: 69 start-page: 159 year: 1999 end-page: 164 article-title: Continuous vs. discontinuous force application and root resorption publication-title: Angle Orthod – volume: 52 start-page: 235 year: 1982 end-page: 258 article-title: Root resorption in bicuspid intrusion: a scanning electron microscopic study publication-title: Angle Orthod – volume: 71 start-page: 185 year: 2001 end-page: 189 article-title: Assessment of root resorption and root shape: periapical vs panoramic films publication-title: Angle Orthod – volume: 42 start-page: 270 year: 1951 end-page: 290 article-title: The pattern of resorption and repair of human cementum publication-title: J Am Dent Assoc – volume: 1 start-page: 256 year: 1856 article-title: Absorption publication-title: Br J Dent Sci – volume: 36 start-page: 332 year: 1914 end-page: 362 article-title: The physiological and pathological resorption of tooth roots publication-title: Item Interest – year: 2004; – volume: 80 start-page: 357 year: 1972 end-page: 368 article-title: SEM of tissue changes on the pressure surface of human premolars following tooth movement publication-title: Scand J Dent Res – volume: 18 start-page: 331 year: 1932 end-page: 352 article-title: Tissue changes incidental to orthodontic tooth movement publication-title: Inter J Orthod – volume: 56 start-page: 11 year: 1952 end-page: 18 article-title: Force in orthodontics and its relation to tooth movement publication-title: Aust J Dent – volume: 24 start-page: 35 year: 1963 end-page: 46 article-title: Root surface measurement and a method for X‐ray determination of root surface area publication-title: Acta Odontol Scand – volume: 53 start-page: 325 year: 1967 end-page: 355 article-title: A histologic and cephalometric investigation of premolar intrusion in the monkey publication-title: Am J Orthod – volume: 120 start-page: 198 year: 2001 end-page: 208 article-title: Physical properties of root cementum: Part I. 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Snippet	This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g)... This method was designed to quantify root resorption on human premolar root surfaces induced by orthodontic forces by volume. Light (25 g) or heavy (225 g)...
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SubjectTerms	Bicuspid Calibration Dental Cementum - ultrastructure Humans Image Processing, Computer-Assisted - methods Imaging, Three-Dimensional - methods Microscopy, Electron, Scanning Photogrammetry Reproducibility of Results root resorption Root Resorption - pathology SEM shading correction Stress, Mechanical Tooth Movement Techniques - methods Tooth Root - ultrastructure volumetric measurement
Title	A new method for volumetric measurement of orthodontically induced root resorption craters
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