The Use of Cone Beam Computed Tomography in Assessing the Insertion of Bone Conduction Hearing Implants

Tim George Ate Calon; Martin Lars Johansson; Elske Larissa van den Burg; Anna Maria Louisa Janssen; Marc van Hoof; Robert Jan Stokroos

doi:10.3389/fsurg.2017.00038

The Use of Cone Beam Computed Tomography in Assessing the Insertion of Bone Conduction Hearing Implants

Tim George Ate Calon^*, Martin Lars Johansson, Elske Larissa van den Burg, Anna Maria Louisa Janssen, Marc van Hoof, Robert Jan Stokroos

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

Objective: This study aimed to compare postoperative cone beam CT (CBCT) imaging to implant stability quotient (ISQ) measurement and direct caliper measurements as a suitable technique to assess bone conduction hearing implant (BCHI) seating and insertion depth. Methods: In vitro, BCHIs were completely (n = 9) and partially inserted (n = 9) in bone blocks of different densities and subsequently scanned. Scans were processed using 3DSlicer 4.3.1 and Mathematica 10.3. ISQ measurements were obtained for all BCHIs mounted with different abutment lengths (9, 12, and 14 mm). CBCT imaging was performed for patients with a clinical indication. Results: In vitro, 95% prediction intervals for partially inserted and completely inserted BCHIs were determined. ISQ values significantly decreased with partial insertion, low-density artificial bone, and longer abutment lengths. Evaluation of in vitro and in vivo 3D models allowed for assessment of insertion depth and inclination. Conclusion: CBCT imaging allows to study implant seating and insertion depth after BCHI surgery. This can be useful when visual confirmation is limited. It is possible to distinguish a partial BCHI insertion from a complete insertion in artificial bone blocks. This technique could prove to be a valuable research tool. In vitro, ISQ values for Ponto BCHIs relate to abutment length, insertion depth, and artificial bone density.

Original language	English
Article number	38
Pages (from-to)	38
Journal	Frontiers in surgery
Volume	4
DOIs	https://doi.org/10.3389/fsurg.2017.00038
Publication status	Published - 24 Jul 2017
Externally published	Yes

Keywords

BAHA
bone-anchored hearing implants
implant stability
Osstell
radiology
resonance frequency analysis

Access to Document

10.3389/fsurg.2017.00038

Cite this

@article{4596ebb013bf4a0689d4129ac21c63a9,

title = "The Use of Cone Beam Computed Tomography in Assessing the Insertion of Bone Conduction Hearing Implants",

abstract = "Objective: This study aimed to compare postoperative cone beam CT (CBCT) imaging to implant stability quotient (ISQ) measurement and direct caliper measurements as a suitable technique to assess bone conduction hearing implant (BCHI) seating and insertion depth. Methods: In vitro, BCHIs were completely (n = 9) and partially inserted (n = 9) in bone blocks of different densities and subsequently scanned. Scans were processed using 3DSlicer 4.3.1 and Mathematica 10.3. ISQ measurements were obtained for all BCHIs mounted with different abutment lengths (9, 12, and 14 mm). CBCT imaging was performed for patients with a clinical indication. Results: In vitro, 95% prediction intervals for partially inserted and completely inserted BCHIs were determined. ISQ values significantly decreased with partial insertion, low-density artificial bone, and longer abutment lengths. Evaluation of in vitro and in vivo 3D models allowed for assessment of insertion depth and inclination. Conclusion: CBCT imaging allows to study implant seating and insertion depth after BCHI surgery. This can be useful when visual confirmation is limited. It is possible to distinguish a partial BCHI insertion from a complete insertion in artificial bone blocks. This technique could prove to be a valuable research tool. In vitro, ISQ values for Ponto BCHIs relate to abutment length, insertion depth, and artificial bone density.",

keywords = "BAHA, bone-anchored hearing implants, implant stability, Osstell, radiology, resonance frequency analysis",

author = "Calon, {Tim George Ate} and Johansson, {Martin Lars} and {van den Burg}, {Elske Larissa} and Janssen, {Anna Maria Louisa} and {van Hoof}, Marc and Stokroos, {Robert Jan}",

note = "Funding Information: This investigator-initiated study was supported by a research grant from Oticon Medical AB (Askim, Sweden). MJ is an employee of Oticon Medical. Funding Information: We would like to acknowledge Tom Ambergen (Department of Methodology and Statistics, Care and Public Health Research Institute, Maastricht University, Maastricht, The Netherlands) for his statistical support. Funding. This investigator-initiated study was supported by a research grant from Oticon Medical AB (Askim, Sweden). MJ is an employee of Oticon Medical. Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2017 Calon, Johansson, van den Burg, Janssen, van Hoof and Stokroos.",

year = "2017",

month = jul,

day = "24",

doi = "10.3389/fsurg.2017.00038",

language = "English",

volume = "4",

pages = "38",

}

TY - JOUR

T1 - The Use of Cone Beam Computed Tomography in Assessing the Insertion of Bone Conduction Hearing Implants

AU - Calon, Tim George Ate

AU - Johansson, Martin Lars

AU - van den Burg, Elske Larissa

AU - Janssen, Anna Maria Louisa

AU - van Hoof, Marc

AU - Stokroos, Robert Jan

N1 - Funding Information: This investigator-initiated study was supported by a research grant from Oticon Medical AB (Askim, Sweden). MJ is an employee of Oticon Medical. Funding Information: We would like to acknowledge Tom Ambergen (Department of Methodology and Statistics, Care and Public Health Research Institute, Maastricht University, Maastricht, The Netherlands) for his statistical support. Funding. This investigator-initiated study was supported by a research grant from Oticon Medical AB (Askim, Sweden). MJ is an employee of Oticon Medical. Publisher Copyright: © Copyright © 2017 Calon, Johansson, van den Burg, Janssen, van Hoof and Stokroos.

PY - 2017/7/24

Y1 - 2017/7/24

N2 - Objective: This study aimed to compare postoperative cone beam CT (CBCT) imaging to implant stability quotient (ISQ) measurement and direct caliper measurements as a suitable technique to assess bone conduction hearing implant (BCHI) seating and insertion depth. Methods: In vitro, BCHIs were completely (n = 9) and partially inserted (n = 9) in bone blocks of different densities and subsequently scanned. Scans were processed using 3DSlicer 4.3.1 and Mathematica 10.3. ISQ measurements were obtained for all BCHIs mounted with different abutment lengths (9, 12, and 14 mm). CBCT imaging was performed for patients with a clinical indication. Results: In vitro, 95% prediction intervals for partially inserted and completely inserted BCHIs were determined. ISQ values significantly decreased with partial insertion, low-density artificial bone, and longer abutment lengths. Evaluation of in vitro and in vivo 3D models allowed for assessment of insertion depth and inclination. Conclusion: CBCT imaging allows to study implant seating and insertion depth after BCHI surgery. This can be useful when visual confirmation is limited. It is possible to distinguish a partial BCHI insertion from a complete insertion in artificial bone blocks. This technique could prove to be a valuable research tool. In vitro, ISQ values for Ponto BCHIs relate to abutment length, insertion depth, and artificial bone density.

AB - Objective: This study aimed to compare postoperative cone beam CT (CBCT) imaging to implant stability quotient (ISQ) measurement and direct caliper measurements as a suitable technique to assess bone conduction hearing implant (BCHI) seating and insertion depth. Methods: In vitro, BCHIs were completely (n = 9) and partially inserted (n = 9) in bone blocks of different densities and subsequently scanned. Scans were processed using 3DSlicer 4.3.1 and Mathematica 10.3. ISQ measurements were obtained for all BCHIs mounted with different abutment lengths (9, 12, and 14 mm). CBCT imaging was performed for patients with a clinical indication. Results: In vitro, 95% prediction intervals for partially inserted and completely inserted BCHIs were determined. ISQ values significantly decreased with partial insertion, low-density artificial bone, and longer abutment lengths. Evaluation of in vitro and in vivo 3D models allowed for assessment of insertion depth and inclination. Conclusion: CBCT imaging allows to study implant seating and insertion depth after BCHI surgery. This can be useful when visual confirmation is limited. It is possible to distinguish a partial BCHI insertion from a complete insertion in artificial bone blocks. This technique could prove to be a valuable research tool. In vitro, ISQ values for Ponto BCHIs relate to abutment length, insertion depth, and artificial bone density.

KW - BAHA

KW - bone-anchored hearing implants

KW - implant stability

KW - Osstell

KW - radiology

KW - resonance frequency analysis

UR - http://www.scopus.com/inward/record.url?scp=85063876277&partnerID=8YFLogxK

U2 - 10.3389/fsurg.2017.00038

DO - 10.3389/fsurg.2017.00038

M3 - Article

C2 - 28791294

AN - SCOPUS:85063876277

SN - 2296-875X

VL - 4

SP - 38

JO - Frontiers in surgery

JF - Frontiers in surgery

M1 - 38

ER -

The Use of Cone Beam Computed Tomography in Assessing the Insertion of Bone Conduction Hearing Implants

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this