The geometric relationship between root length and root surface area determined from digital tooth models
This study investigated the correlation between root length (RL) and root surface area (RSA) in permanent maxillary and mandibular teeth to understand the impact of external apical root resorption. Three-dimensional (3D) models of human teeth, representing a Japanese male adult population, were sour...
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| Published in | Computers in biology and medicine Vol. 191; p. 110189 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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United States
Elsevier Ltd
01.06.2025
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| ISSN | 0010-4825 1879-0534 1879-0534 |
| DOI | 10.1016/j.compbiomed.2025.110189 |
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| Abstract | This study investigated the correlation between root length (RL) and root surface area (RSA) in permanent maxillary and mandibular teeth to understand the impact of external apical root resorption.
Three-dimensional (3D) models of human teeth, representing a Japanese male adult population, were sourced from a commercial provider and segmented into individual roots. A Python algorithm calculated root surface area (RSA) at simulated root lengths by virtually shortening the roots in 1 mm increments. The total RSA (tRSA) was determined by combining the circumferential root surface area (cRSA) with the cross-sectional area (CSA).
Maxillary and mandibular first molars exhibited the largest tRSAs in their respective arches. In the initial 3 mm of simulated root shortening, five of seven maxillary and mandibular tooth types exhibited minimal tRSA reduction, averaging less than 7 %. Beyond 3 mm, tRSA reduction became more pronounced, an average of 19.4 % for maxillary teeth and 27.77 % for mandibular teeth. CSA significantly contributes to tRSA; the average CSA proportion increases progressively with greater root length reduction, particularly when it exceeds 8 mm.
RSA together with CSA, not just root length, is a crucial consideration when assessing the clinical impact from root length reduction. Generally, when root length loss is up to 20 % (∼3 mm), more than 90 % of the tRSA remains. Teeth with higher CSA proportions, such as molars, are better equipped to retain periodontal support despite substantial RL loss, owing to their broader girth.
•A novel Python algorithm analysed root surface area (RSA).•Up to 20 % apical root length loss retains more than 90 % of RSA.•Root length (RL) reduction beyond 8 mm significantly reduces RSA.•Cross-sectional root area is an important consideration in assessing RL loss.•3D anatomic tooth models are appropriate alternatives for RSA measurement. |
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| AbstractList | AbstractAimThis study investigated the correlation between root length (RL) and root surface area (RSA) in permanent maxillary and mandibular teeth to understand the impact of external apical root resorption. Materials and methodsThree-dimensional (3D) models of human teeth, representing a Japanese male adult population, were sourced from a commercial provider and segmented into individual roots. A Python algorithm calculated root surface area (RSA) at simulated root lengths by virtually shortening the roots in 1 mm increments. The total RSA (tRSA) was determined by combining the circumferential root surface area (cRSA) with the cross-sectional area (CSA). ResultsMaxillary and mandibular first molars exhibited the largest tRSAs in their respective arches. In the initial 3 mm of simulated root shortening, five of seven maxillary and mandibular tooth types exhibited minimal tRSA reduction, averaging less than 7 %. Beyond 3 mm, tRSA reduction became more pronounced, an average of 19.4 % for maxillary teeth and 27.77 % for mandibular teeth. CSA significantly contributes to tRSA; the average CSA proportion increases progressively with greater root length reduction, particularly when it exceeds 8 mm. ConclusionRSA together with CSA, not just root length, is a crucial consideration when assessing the clinical impact from root length reduction. Generally, when root length loss is up to 20 % (∼3 mm), more than 90 % of the tRSA remains. Teeth with higher CSA proportions, such as molars, are better equipped to retain periodontal support despite substantial RL loss, owing to their broader girth. This study investigated the correlation between root length (RL) and root surface area (RSA) in permanent maxillary and mandibular teeth to understand the impact of external apical root resorption. Three-dimensional (3D) models of human teeth, representing a Japanese male adult population, were sourced from a commercial provider and segmented into individual roots. A Python algorithm calculated root surface area (RSA) at simulated root lengths by virtually shortening the roots in 1 mm increments. The total RSA (tRSA) was determined by combining the circumferential root surface area (cRSA) with the cross-sectional area (CSA). Maxillary and mandibular first molars exhibited the largest tRSAs in their respective arches. In the initial 3 mm of simulated root shortening, five of seven maxillary and mandibular tooth types exhibited minimal tRSA reduction, averaging less than 7 %. Beyond 3 mm, tRSA reduction became more pronounced, an average of 19.4 % for maxillary teeth and 27.77 % for mandibular teeth. CSA significantly contributes to tRSA; the average CSA proportion increases progressively with greater root length reduction, particularly when it exceeds 8 mm. RSA together with CSA, not just root length, is a crucial consideration when assessing the clinical impact from root length reduction. Generally, when root length loss is up to 20 % (∼3 mm), more than 90 % of the tRSA remains. Teeth with higher CSA proportions, such as molars, are better equipped to retain periodontal support despite substantial RL loss, owing to their broader girth. •A novel Python algorithm analysed root surface area (RSA).•Up to 20 % apical root length loss retains more than 90 % of RSA.•Root length (RL) reduction beyond 8 mm significantly reduces RSA.•Cross-sectional root area is an important consideration in assessing RL loss.•3D anatomic tooth models are appropriate alternatives for RSA measurement. This study investigated the correlation between root length (RL) and root surface area (RSA) in permanent maxillary and mandibular teeth to understand the impact of external apical root resorption.AIMThis study investigated the correlation between root length (RL) and root surface area (RSA) in permanent maxillary and mandibular teeth to understand the impact of external apical root resorption.Three-dimensional (3D) models of human teeth, representing a Japanese male adult population, were sourced from a commercial provider and segmented into individual roots. A Python algorithm calculated root surface area (RSA) at simulated root lengths by virtually shortening the roots in 1 mm increments. The total RSA (tRSA) was determined by combining the circumferential root surface area (cRSA) with the cross-sectional area (CSA).MATERIALS AND METHODSThree-dimensional (3D) models of human teeth, representing a Japanese male adult population, were sourced from a commercial provider and segmented into individual roots. A Python algorithm calculated root surface area (RSA) at simulated root lengths by virtually shortening the roots in 1 mm increments. The total RSA (tRSA) was determined by combining the circumferential root surface area (cRSA) with the cross-sectional area (CSA).Maxillary and mandibular first molars exhibited the largest tRSAs in their respective arches. In the initial 3 mm of simulated root shortening, five of seven maxillary and mandibular tooth types exhibited minimal tRSA reduction, averaging less than 7 %. Beyond 3 mm, tRSA reduction became more pronounced, an average of 19.4 % for maxillary teeth and 27.77 % for mandibular teeth. CSA significantly contributes to tRSA; the average CSA proportion increases progressively with greater root length reduction, particularly when it exceeds 8 mm.RESULTSMaxillary and mandibular first molars exhibited the largest tRSAs in their respective arches. In the initial 3 mm of simulated root shortening, five of seven maxillary and mandibular tooth types exhibited minimal tRSA reduction, averaging less than 7 %. Beyond 3 mm, tRSA reduction became more pronounced, an average of 19.4 % for maxillary teeth and 27.77 % for mandibular teeth. CSA significantly contributes to tRSA; the average CSA proportion increases progressively with greater root length reduction, particularly when it exceeds 8 mm.RSA together with CSA, not just root length, is a crucial consideration when assessing the clinical impact from root length reduction. Generally, when root length loss is up to 20 % (∼3 mm), more than 90 % of the tRSA remains. Teeth with higher CSA proportions, such as molars, are better equipped to retain periodontal support despite substantial RL loss, owing to their broader girth.CONCLUSIONRSA together with CSA, not just root length, is a crucial consideration when assessing the clinical impact from root length reduction. Generally, when root length loss is up to 20 % (∼3 mm), more than 90 % of the tRSA remains. Teeth with higher CSA proportions, such as molars, are better equipped to retain periodontal support despite substantial RL loss, owing to their broader girth. This study investigated the correlation between root length (RL) and root surface area (RSA) in permanent maxillary and mandibular teeth to understand the impact of external apical root resorption. Three-dimensional (3D) models of human teeth, representing a Japanese male adult population, were sourced from a commercial provider and segmented into individual roots. A Python algorithm calculated root surface area (RSA) at simulated root lengths by virtually shortening the roots in 1 mm increments. The total RSA (tRSA) was determined by combining the circumferential root surface area (cRSA) with the cross-sectional area (CSA). Maxillary and mandibular first molars exhibited the largest tRSAs in their respective arches. In the initial 3 mm of simulated root shortening, five of seven maxillary and mandibular tooth types exhibited minimal tRSA reduction, averaging less than 7 %. Beyond 3 mm, tRSA reduction became more pronounced, an average of 19.4 % for maxillary teeth and 27.77 % for mandibular teeth. CSA significantly contributes to tRSA; the average CSA proportion increases progressively with greater root length reduction, particularly when it exceeds 8 mm. RSA together with CSA, not just root length, is a crucial consideration when assessing the clinical impact from root length reduction. Generally, when root length loss is up to 20 % (∼3 mm), more than 90 % of the tRSA remains. Teeth with higher CSA proportions, such as molars, are better equipped to retain periodontal support despite substantial RL loss, owing to their broader girth. |
| ArticleNumber | 110189 |
| Author | Wei Chan, Chloe Xiao Chiong Foong, Kelvin Weng Leow, Wee Kheng Cheng, Alan Ho-lun |
| Author_xml | – sequence: 1 givenname: Chloe Xiao orcidid: 0009-0005-8819-9898 surname: Wei Chan fullname: Wei Chan, Chloe Xiao email: chloec@u.nus.edu organization: Discipline of Orthodontics Faculty of Dentistry, National University of Singapore, Singapore – sequence: 2 givenname: Wee Kheng orcidid: 0000-0001-9396-7664 surname: Leow fullname: Leow, Wee Kheng email: leowwk@comp.nus.edu.sg organization: Department of Computer Science, School of Computing, National University of Singapore, Singapore – sequence: 3 givenname: Alan Ho-lun surname: Cheng fullname: Cheng, Alan Ho-lun email: hcheng@comp.nus.edu.sg organization: Department of Computer Science, School of Computing, National University of Singapore, Singapore – sequence: 4 givenname: Kelvin Weng orcidid: 0000-0002-7458-2061 surname: Chiong Foong fullname: Chiong Foong, Kelvin Weng email: denfwc@nus.edu.sg organization: Orthodontics Residency Training Programme Faculty of Dentistry, National University of Singapore, Singapore |
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| Cites_doi | 10.1016/S0889-5406(97)70235-X 10.1016/0022-3913(86)90011-9 10.1093/ejo/17.2.93 10.1902/jop.2002.73.10.1095 10.1016/j.archoralbio.2017.04.015 10.1016/0889-5406(89)90227-8 10.1016/j.compbiomed.2016.01.018 10.1902/jop.1985.56.4.234 10.11607/prd.6529 10.1016/j.imu.2017.05.003 10.1371/journal.pone.0251953 10.1111/j.1600-051X.2006.00888.x 10.1016/S0889-5406(05)81678-6 |
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| Keywords | Root cross-sectional area 3D tooth models Root surface area External apical root resorption Python algorithm Root length |
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| SubjectTerms | 3D tooth models Adult Algorithms External apical root resorption Humans Imaging, Three-Dimensional Internal Medicine Male Mandible - anatomy & histology Mandible - diagnostic imaging Models, Dental Molar - anatomy & histology Molar - diagnostic imaging Other Python algorithm Root cross-sectional area Root length Root surface area Tooth Root - anatomy & histology Tooth Root - diagnostic imaging |
| Title | The geometric relationship between root length and root surface area determined from digital tooth models |
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