TY - JOUR
T1 - Upper airways evaluation in young adults with an anterior open bite
T2 - A CBCT retrospective controlled and cross-sectional study
AU - Vidal-Manyari, Patricia Aurora
AU - Arriola-Guillén, Luis Ernesto
AU - Jimenez-Valdivia, Ludy Marileidy
AU - Dias-Da Silveira, Heraldo Luis
AU - Boessio-Vizzotto, Mariana
N1 - Publisher Copyright:
© 2020 CEO
PY - 2020/6
Y1 - 2020/6
N2 - Objective: To compare the dimensions of the upper airway in young adults with anterior open bite versus matched individuals with an adequate overbite (control group) using different measurement approaches (linear, area, and volume measures). Materials and methods: The sample included 137 cone-beam computed tomographies (CBCTs) of young adults (74 men and 63 women) divided into two groups: 47 CBCTs of individuals (mean age 27.89) with open bite (overbite depth indicator (ODI) 56.84° ± 9.48° and Frankfort mandibular plane angle (FMA) 31.21° ± 6.44°) and 90 CBCTs of individuals (mean age 26.87) without an open bite (ODI 62.24° ± 9.47°, FMA 26.79° ± 5.81°). Two trained and calibrated orthodontists made all linear, area, and volume measurements on the CBCT records of the upper airways using Planmeca Romexis software. The Mann-Whitney U-test, chi-squared test, and multiple linear regression were applied. Significance was set at P < 0.05. Results: There were no differences in linear or volume measurements between groups, but there was a greater area in the open bite group (greater mean difference between groups 928.3 mm2) than the control group. No variable influenced nasopharyngeal airway volume, but ANB angle affected oropharyngeal airway volume (β = −623.87) and total airway volume (β = −651.48). Conclusions: Orthodontists should be aware that the airways diagnosis can vary depending on the measurement approach used, the volumetric method being the gold standard. The pharyngeal airway volume was similar in individuals with vs. without an open bite and is mainly influenced by ANB angle in both groups.
AB - Objective: To compare the dimensions of the upper airway in young adults with anterior open bite versus matched individuals with an adequate overbite (control group) using different measurement approaches (linear, area, and volume measures). Materials and methods: The sample included 137 cone-beam computed tomographies (CBCTs) of young adults (74 men and 63 women) divided into two groups: 47 CBCTs of individuals (mean age 27.89) with open bite (overbite depth indicator (ODI) 56.84° ± 9.48° and Frankfort mandibular plane angle (FMA) 31.21° ± 6.44°) and 90 CBCTs of individuals (mean age 26.87) without an open bite (ODI 62.24° ± 9.47°, FMA 26.79° ± 5.81°). Two trained and calibrated orthodontists made all linear, area, and volume measurements on the CBCT records of the upper airways using Planmeca Romexis software. The Mann-Whitney U-test, chi-squared test, and multiple linear regression were applied. Significance was set at P < 0.05. Results: There were no differences in linear or volume measurements between groups, but there was a greater area in the open bite group (greater mean difference between groups 928.3 mm2) than the control group. No variable influenced nasopharyngeal airway volume, but ANB angle affected oropharyngeal airway volume (β = −623.87) and total airway volume (β = −651.48). Conclusions: Orthodontists should be aware that the airways diagnosis can vary depending on the measurement approach used, the volumetric method being the gold standard. The pharyngeal airway volume was similar in individuals with vs. without an open bite and is mainly influenced by ANB angle in both groups.
KW - Airways
KW - Cone-beam computed tomography
KW - Open bite
UR - http://www.scopus.com/inward/record.url?scp=85081982328&partnerID=8YFLogxK
U2 - 10.1016/j.ortho.2020.02.007
DO - 10.1016/j.ortho.2020.02.007
M3 - Artículo
C2 - 32199748
AN - SCOPUS:85081982328
SN - 1761-7227
VL - 18
SP - 276
EP - 285
JO - International Orthodontics
JF - International Orthodontics
IS - 2
ER -