A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery

Cláudio Rodrigues Leles; Leuçon de Oliveira Moura-Neto; Jésio Rodrigues Silva; Lays Noleto Nascimento; Thalita Fernandes Fleury Curado; Nadia Lago Costa; Martin Schimmel; Gerald McKenna

doi:10.1111/clr.14335

A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery

Cláudio Rodrigues Leles^*
, Leuçon de Oliveira Moura-Neto
, Jésio Rodrigues Silva
, Lays Noleto Nascimento
, Thalita Fernandes Fleury Curado
, Nadia Lago Costa
, Martin Schimmel
, Gerald McKenna

^*Corresponding author for this work

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

1 Citation (Scopus)

29 Downloads (Pure)

Abstract

Objective
To assess the relative position of mini-implants to retain a mandibular overdenture, according to the surgical protocol, technical and anatomical factors.

Methods
Mandibular cone-beam computed tomography (CBCT) scans were analyzed for 73 patients who received four one-piece titanium-zirconium mini-implants. Drilling was performed using a 1.6 mm needle drill and a 2.2 mm Pilot Drill, according to the bone density with a surgical stent. Post-insertion CBCT images in DICOM format were analyzed using the E-Vol-DX software with BAR filters. Divergence angle between implants and between implants and the overdenture path of insertion was measured using CliniView 10.2.6 software.

Results
Divergence between implants ranged from 0° to 22.3° (mean = 4.2; SD = 3.7) in the lateral and from 0° to 26.2° (mean = 5.3; SD = 4.1) in the frontal projections (p < .001). Only 1 (0.2%) and 3 (0.7%) of the measurements were higher than 20° in the lateral and frontal views, respectively. The mean angulations between the implant and the path of insertion for the overdenture were 9.3° (SD = 7.5) and 4.0° (SD = 2.9) for the lateral and frontal views, respectively (p < .001). Regression analyses showed a significant association between the divergence of implants and the frontal view projection (p < .001), greater distance between the paired implants (p = .017), the flapped surgical protocol (p = .002), higher final insertion torque (p = .011), and deeper preparation with the needle drill (p < .001).

Conclusions
The mini-implants were placed with low divergence angles and satisfactory parallelism. Factors including shorter distances between the implants, higher density bone, and a flapless surgical approach all contributed positively to improved parallelism of the mini-implants.

Original language	English
Pages (from-to)	1475-1484
Number of pages	10
Journal	Clinical Oral Implants Research
Volume	35
Issue number	11
Early online date	23 Jul 2024
DOIs	https://doi.org/10.1111/clr.14335
Publication status	Published - Nov 2024

Keywords

cone-beam computed tomography
dental implant
implant surgery
overdenture

ASJC Scopus subject areas

Oral Surgery

Access to Document

10.1111/clr.14335Licence: CC BY-NC

A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery
© 2024 The Authors. This is an open access article under the terms of the Creative Commons Attribution-NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
Final published version, 1.27 MBLicence: CC BY-NC

Cite this

Leles, C. R., de Oliveira Moura-Neto, L., Silva, J. R., Nascimento, L. N., Curado, T. F. F., Costa, N. L., Schimmel, M., & McKenna, G. (2024). A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery. Clinical Oral Implants Research, 35(11), 1475-1484. https://doi.org/10.1111/clr.14335

@article{98dc021813ca46a79d82874809641a04,

title = "A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery",

abstract = "Objective To assess the relative position of mini-implants to retain a mandibular overdenture, according to the surgical protocol, technical and anatomical factors. Methods Mandibular cone-beam computed tomography (CBCT) scans were analyzed for 73 patients who received four one-piece titanium-zirconium mini-implants. Drilling was performed using a 1.6 mm needle drill and a 2.2 mm Pilot Drill, according to the bone density with a surgical stent. Post-insertion CBCT images in DICOM format were analyzed using the E-Vol-DX software with BAR filters. Divergence angle between implants and between implants and the overdenture path of insertion was measured using CliniView 10.2.6 software. Results Divergence between implants ranged from 0° to 22.3° (mean = 4.2; SD = 3.7) in the lateral and from 0° to 26.2° (mean = 5.3; SD = 4.1) in the frontal projections (p < .001). Only 1 (0.2\%) and 3 (0.7\%) of the measurements were higher than 20° in the lateral and frontal views, respectively. The mean angulations between the implant and the path of insertion for the overdenture were 9.3° (SD = 7.5) and 4.0° (SD = 2.9) for the lateral and frontal views, respectively (p < .001). Regression analyses showed a significant association between the divergence of implants and the frontal view projection (p < .001), greater distance between the paired implants (p = .017), the flapped surgical protocol (p = .002), higher final insertion torque (p = .011), and deeper preparation with the needle drill (p < .001). Conclusions The mini-implants were placed with low divergence angles and satisfactory parallelism. Factors including shorter distances between the implants, higher density bone, and a flapless surgical approach all contributed positively to improved parallelism of the mini-implants. ",

keywords = "cone-beam computed tomography, dental implant, implant surgery, overdenture",

author = "Leles, \{Cl{\'a}udio Rodrigues\} and \{de Oliveira Moura-Neto\}, Leu{\c c}on and Silva, \{J{\'e}sio Rodrigues\} and Nascimento, \{Lays Noleto\} and Curado, \{Thalita Fernandes Fleury\} and Costa, \{Nadia Lago\} and Martin Schimmel and Gerald McKenna",

year = "2024",

month = nov,

doi = "10.1111/clr.14335",

language = "English",

volume = "35",

pages = "1475--1484",

journal = "Clinical Oral Implants Research",

issn = "0905-7161",

publisher = "Blackwell Munksgaard",

number = "11",

}

Leles, CR, de Oliveira Moura-Neto, L, Silva, JR, Nascimento, LN, Curado, TFF, Costa, NL, Schimmel, M & McKenna, G 2024, 'A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery', Clinical Oral Implants Research, vol. 35, no. 11, pp. 1475-1484. https://doi.org/10.1111/clr.14335

A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery. / Leles, Cláudio Rodrigues; de Oliveira Moura-Neto, Leuçon; Silva, Jésio Rodrigues et al.
In: Clinical Oral Implants Research, Vol. 35, No. 11, 11.2024, p. 1475-1484.

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

TY - JOUR

T1 - A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery

AU - Leles, Cláudio Rodrigues

AU - de Oliveira Moura-Neto, Leuçon

AU - Silva, Jésio Rodrigues

AU - Nascimento, Lays Noleto

AU - Curado, Thalita Fernandes Fleury

AU - Costa, Nadia Lago

AU - Schimmel, Martin

AU - McKenna, Gerald

PY - 2024/11

Y1 - 2024/11

N2 - Objective To assess the relative position of mini-implants to retain a mandibular overdenture, according to the surgical protocol, technical and anatomical factors. Methods Mandibular cone-beam computed tomography (CBCT) scans were analyzed for 73 patients who received four one-piece titanium-zirconium mini-implants. Drilling was performed using a 1.6 mm needle drill and a 2.2 mm Pilot Drill, according to the bone density with a surgical stent. Post-insertion CBCT images in DICOM format were analyzed using the E-Vol-DX software with BAR filters. Divergence angle between implants and between implants and the overdenture path of insertion was measured using CliniView 10.2.6 software. Results Divergence between implants ranged from 0° to 22.3° (mean = 4.2; SD = 3.7) in the lateral and from 0° to 26.2° (mean = 5.3; SD = 4.1) in the frontal projections (p < .001). Only 1 (0.2%) and 3 (0.7%) of the measurements were higher than 20° in the lateral and frontal views, respectively. The mean angulations between the implant and the path of insertion for the overdenture were 9.3° (SD = 7.5) and 4.0° (SD = 2.9) for the lateral and frontal views, respectively (p < .001). Regression analyses showed a significant association between the divergence of implants and the frontal view projection (p < .001), greater distance between the paired implants (p = .017), the flapped surgical protocol (p = .002), higher final insertion torque (p = .011), and deeper preparation with the needle drill (p < .001). Conclusions The mini-implants were placed with low divergence angles and satisfactory parallelism. Factors including shorter distances between the implants, higher density bone, and a flapless surgical approach all contributed positively to improved parallelism of the mini-implants.

AB - Objective To assess the relative position of mini-implants to retain a mandibular overdenture, according to the surgical protocol, technical and anatomical factors. Methods Mandibular cone-beam computed tomography (CBCT) scans were analyzed for 73 patients who received four one-piece titanium-zirconium mini-implants. Drilling was performed using a 1.6 mm needle drill and a 2.2 mm Pilot Drill, according to the bone density with a surgical stent. Post-insertion CBCT images in DICOM format were analyzed using the E-Vol-DX software with BAR filters. Divergence angle between implants and between implants and the overdenture path of insertion was measured using CliniView 10.2.6 software. Results Divergence between implants ranged from 0° to 22.3° (mean = 4.2; SD = 3.7) in the lateral and from 0° to 26.2° (mean = 5.3; SD = 4.1) in the frontal projections (p < .001). Only 1 (0.2%) and 3 (0.7%) of the measurements were higher than 20° in the lateral and frontal views, respectively. The mean angulations between the implant and the path of insertion for the overdenture were 9.3° (SD = 7.5) and 4.0° (SD = 2.9) for the lateral and frontal views, respectively (p < .001). Regression analyses showed a significant association between the divergence of implants and the frontal view projection (p < .001), greater distance between the paired implants (p = .017), the flapped surgical protocol (p = .002), higher final insertion torque (p = .011), and deeper preparation with the needle drill (p < .001). Conclusions The mini-implants were placed with low divergence angles and satisfactory parallelism. Factors including shorter distances between the implants, higher density bone, and a flapless surgical approach all contributed positively to improved parallelism of the mini-implants.

KW - cone-beam computed tomography

KW - dental implant

KW - implant surgery

KW - overdenture

U2 - 10.1111/clr.14335

DO - 10.1111/clr.14335

M3 - Article

C2 - 39041319

AN - SCOPUS:85199358603

SN - 0905-7161

VL - 35

SP - 1475

EP - 1484

JO - Clinical Oral Implants Research

JF - Clinical Oral Implants Research

IS - 11

ER -

A cross-sectional CBCT assessment of the relative position of one-piece titanium-zirconium mini-implants placed for mandibular overdentures using non-guided surgery

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Fingerprint

Cite this