Extraction force and its determinants for minimally invasive vertical tooth extraction

Thomas Dietrich; Ivan Schmid; Michael Locher; Owen Addison

doi:10.1016/j.jmbbm.2020.103711

Extraction force and its determinants for minimally invasive vertical tooth extraction

Thomas Dietrich, Ivan Schmid, Michael Locher, Owen Addison

Dentistry

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

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Abstract

Background: Minimally invasive vertical extraction devices have been developed to minimise the need for flap surgery and trauma to alveolar bone during tooth extraction. The objective of this study was to measure the forces required for vertical tooth extraction and evaluate the determinants of these forces.

Methods: The investigators coupled a precision load cell with a Benex® extractor to record extraction forces for 59 consecutive routine extractions of tooth roots. Age, sex, tooth type, root surface attachment area (RSAA) and whether or not the tooth was in functional occlusion were evaluated as determinants of extraction forces using linear mixed models.

Results: Maximum extraction forces (Fmax) varied widely from 41N to 629N. On average, maximum extraction forces were 104N (95% CI: 38N, 169N) higher for teeth/roots in occlusion vs. teeth not in occlusion. An increase in RSSA by one standard deviation was associated with a marked increase in Fmax by 64N (95% CI: 34N, 94N). Extraction forces were not associated with age, sex or tooth type (maxillary vs. mandibular).

Conclusions: Extraction forces using the Benex® vertical extraction system vary widely and can be less than 50N or exceed 600N. On average, higher extraction forces are required to extract teeth with longer and thicker roots, as well as for teeth that are in functional occlusion.

Original language	English
Article number	103711
Journal	Journal of the Mechanical Behavior of Biomedical Materials
Volume	105
Early online date	19 Feb 2020
DOIs	https://doi.org/10.1016/j.jmbbm.2020.103711
Publication status	E-pub ahead of print - 19 Feb 2020

Keywords

atraumatic extraction
risk factors
socket healing
tooth extraction
wound healing

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Dietrich_et_al_Extraction_force_and_its_determinants_Journal_of_the_Mechanical_Behaviour_of_Biomedical_Materials_2020Accepted author manuscript, 774 KBLicence: Creative Commons: Attribution-NonCommercial-NoDerivs (CC BY-NC-ND)

https://www.sciencedirect.com/science/article/pii/S1751616120302551Licence: None: All rights reserved

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title = "Extraction force and its determinants for minimally invasive vertical tooth extraction",

abstract = "Background: Minimally invasive vertical extraction devices have been developed to minimise the need for flap surgery and trauma to alveolar bone during tooth extraction. The objective of this study was to measure the forces required for vertical tooth extraction and evaluate the determinants of these forces.Methods: The investigators coupled a precision load cell with a Benex{\textregistered} extractor to record extraction forces for 59 consecutive routine extractions of tooth roots. Age, sex, tooth type, root surface attachment area (RSAA) and whether or not the tooth was in functional occlusion were evaluated as determinants of extraction forces using linear mixed models.Results: Maximum extraction forces (Fmax) varied widely from 41N to 629N. On average, maximum extraction forces were 104N (95% CI: 38N, 169N) higher for teeth/roots in occlusion vs. teeth not in occlusion. An increase in RSSA by one standard deviation was associated with a marked increase in Fmax by 64N (95% CI: 34N, 94N). Extraction forces were not associated with age, sex or tooth type (maxillary vs. mandibular).Conclusions: Extraction forces using the Benex{\textregistered} vertical extraction system vary widely and can be less than 50N or exceed 600N. On average, higher extraction forces are required to extract teeth with longer and thicker roots, as well as for teeth that are in functional occlusion.",

keywords = "atraumatic extraction, risk factors, socket healing, tooth extraction, wound healing",

author = "Thomas Dietrich and Ivan Schmid and Michael Locher and Owen Addison",

year = "2020",

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doi = "10.1016/j.jmbbm.2020.103711",

language = "English",

volume = "105",

journal = "Journal of the Mechanical Behavior of Biomedical Materials",

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AU - Dietrich, Thomas

AU - Schmid, Ivan

AU - Locher, Michael

AU - Addison, Owen

PY - 2020/2/19

Y1 - 2020/2/19

N2 - Background: Minimally invasive vertical extraction devices have been developed to minimise the need for flap surgery and trauma to alveolar bone during tooth extraction. The objective of this study was to measure the forces required for vertical tooth extraction and evaluate the determinants of these forces.Methods: The investigators coupled a precision load cell with a Benex® extractor to record extraction forces for 59 consecutive routine extractions of tooth roots. Age, sex, tooth type, root surface attachment area (RSAA) and whether or not the tooth was in functional occlusion were evaluated as determinants of extraction forces using linear mixed models.Results: Maximum extraction forces (Fmax) varied widely from 41N to 629N. On average, maximum extraction forces were 104N (95% CI: 38N, 169N) higher for teeth/roots in occlusion vs. teeth not in occlusion. An increase in RSSA by one standard deviation was associated with a marked increase in Fmax by 64N (95% CI: 34N, 94N). Extraction forces were not associated with age, sex or tooth type (maxillary vs. mandibular).Conclusions: Extraction forces using the Benex® vertical extraction system vary widely and can be less than 50N or exceed 600N. On average, higher extraction forces are required to extract teeth with longer and thicker roots, as well as for teeth that are in functional occlusion.

AB - Background: Minimally invasive vertical extraction devices have been developed to minimise the need for flap surgery and trauma to alveolar bone during tooth extraction. The objective of this study was to measure the forces required for vertical tooth extraction and evaluate the determinants of these forces.Methods: The investigators coupled a precision load cell with a Benex® extractor to record extraction forces for 59 consecutive routine extractions of tooth roots. Age, sex, tooth type, root surface attachment area (RSAA) and whether or not the tooth was in functional occlusion were evaluated as determinants of extraction forces using linear mixed models.Results: Maximum extraction forces (Fmax) varied widely from 41N to 629N. On average, maximum extraction forces were 104N (95% CI: 38N, 169N) higher for teeth/roots in occlusion vs. teeth not in occlusion. An increase in RSSA by one standard deviation was associated with a marked increase in Fmax by 64N (95% CI: 34N, 94N). Extraction forces were not associated with age, sex or tooth type (maxillary vs. mandibular).Conclusions: Extraction forces using the Benex® vertical extraction system vary widely and can be less than 50N or exceed 600N. On average, higher extraction forces are required to extract teeth with longer and thicker roots, as well as for teeth that are in functional occlusion.

KW - atraumatic extraction

KW - risk factors

KW - socket healing

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KW - wound healing

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Extraction force and its determinants for minimally invasive vertical tooth extraction

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Keywords

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