CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite

Ximena Mejía-Delgadillo; Antonio Gómez-Ruiz; Araceli Zapatero-Gutiérrez; Enrique Hidalgo-Peña; Rafael Alanis-Gómez; Fabiola Hernández-Rosas

doi:10.1007/978-3-031-89514-2_8

CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite

Ximena Mejía-Delgadillo, Antonio Gómez-Ruiz, Araceli Zapatero-Gutiérrez, Enrique Hidalgo-Peña, Rafael Alanis-Gómez, Fabiola Hernández-Rosas

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Introduction: Cranial defects resulting from trauma, tumors, surgical procedures, and congenital conditions, necessitate effective prosthetic solutions to restore both form and function. This study aims to design and evaluate a cranial prosthesis using advanced CAD techniques, and a biocompatible coating for enhanced mechanical properties and to promote osteointegration. Materials and Methods: Tomographic images of a patient with cranial decompression were reconstructed in 3D Slicer and used to design the prosthesis using software CAD: Rhino, and SolidWorks. Finite element analysis in SolidWorks assessed mechanical performance. Displacement and tension testing of the impact area were conducted. Furthermore, a prototype was 3D printed in PLA to evaluate the quality of the design and dimensions. Finally, hydroxyapatite was synthesized hydrothermally with microwave assistance and characterized for future coating applications of our cranial prosthesis. Results: Finite element analysis confirmed the prosthesis’ mechanical integrity and validated the prosthesis's mechanical performance under displacement and tension. The 3D-printed prototype exhibited accurate replication of the defect site. Hydroxyapatite coating displayed a high degree of purity and crystallinity, favorable conditions for osseointegration, and mechanical resistance. Conclusion: The integrated approach successfully yielded a cranial prosthesis prototype with optimized mechanical properties and biocompatibility. Utilization of tomographic imaging reconstructed in 3D Slicer, CAD design, 3D printing, and mechanical testing offers a comprehensive solution for cranial defect restoration, promising improved patient outcomes and quality of life.

Original language	English
Title of host publication	X Latin American Conference on Biomedical Engineering - Proceedings of CLAIB 2024
Editors	Fabiola M. Martinez-Licona, Virginia L. Ballarin, Ernesto A. Ibarra-Ramírez, Sandra M. Pérez-Buitrago, Luis R. Berriere
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	89-101
Number of pages	13
ISBN (Print)	9783031895135
DOIs	https://doi.org/10.1007/978-3-031-89514-2_8
State	Published - 1 Jan 2025
Event	10th Latin American Conference on Biomedical Engineering, CLAIB 2024 - Panama City, Panama Duration: 2 Oct 2024 → 5 Oct 2024

Publication series

Name	IFMBE Proceedings
Volume	121
ISSN (Print)	1680-0737
ISSN (Electronic)	1433-9277

Conference

Conference	10th Latin American Conference on Biomedical Engineering, CLAIB 2024
Country/Territory	Panama
City	Panama City
Period	2/10/24 → 5/10/24

Keywords

CAD design
Cranial Prostheses
Nanohydroxyapatite Coating
Patient-specific Customization

Access to Document

10.1007/978-3-031-89514-2_8

Cite this

Mejía-Delgadillo, X., Gómez-Ruiz, A., Zapatero-Gutiérrez, A., Hidalgo-Peña, E., Alanis-Gómez, R., & Hernández-Rosas, F. (2025). CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite. In F. M. Martinez-Licona, V. L. Ballarin, E. A. Ibarra-Ramírez, S. M. Pérez-Buitrago, & L. R. Berriere (Eds.), X Latin American Conference on Biomedical Engineering - Proceedings of CLAIB 2024 (pp. 89-101). (IFMBE Proceedings; Vol. 121). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-031-89514-2_8

Mejía-Delgadillo, Ximena ; Gómez-Ruiz, Antonio ; Zapatero-Gutiérrez, Araceli et al. / CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite. X Latin American Conference on Biomedical Engineering - Proceedings of CLAIB 2024. editor / Fabiola M. Martinez-Licona ; Virginia L. Ballarin ; Ernesto A. Ibarra-Ramírez ; Sandra M. Pérez-Buitrago ; Luis R. Berriere. Springer Science and Business Media Deutschland GmbH, 2025. pp. 89-101 (IFMBE Proceedings).

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title = "CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite",

abstract = "Introduction: Cranial defects resulting from trauma, tumors, surgical procedures, and congenital conditions, necessitate effective prosthetic solutions to restore both form and function. This study aims to design and evaluate a cranial prosthesis using advanced CAD techniques, and a biocompatible coating for enhanced mechanical properties and to promote osteointegration. Materials and Methods: Tomographic images of a patient with cranial decompression were reconstructed in 3D Slicer and used to design the prosthesis using software CAD: Rhino, and SolidWorks. Finite element analysis in SolidWorks assessed mechanical performance. Displacement and tension testing of the impact area were conducted. Furthermore, a prototype was 3D printed in PLA to evaluate the quality of the design and dimensions. Finally, hydroxyapatite was synthesized hydrothermally with microwave assistance and characterized for future coating applications of our cranial prosthesis. Results: Finite element analysis confirmed the prosthesis{\textquoteright} mechanical integrity and validated the prosthesis's mechanical performance under displacement and tension. The 3D-printed prototype exhibited accurate replication of the defect site. Hydroxyapatite coating displayed a high degree of purity and crystallinity, favorable conditions for osseointegration, and mechanical resistance. Conclusion: The integrated approach successfully yielded a cranial prosthesis prototype with optimized mechanical properties and biocompatibility. Utilization of tomographic imaging reconstructed in 3D Slicer, CAD design, 3D printing, and mechanical testing offers a comprehensive solution for cranial defect restoration, promising improved patient outcomes and quality of life.",

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Mejía-Delgadillo, X, Gómez-Ruiz, A, Zapatero-Gutiérrez, A, Hidalgo-Peña, E, Alanis-Gómez, R & Hernández-Rosas, F 2025, CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite. in FM Martinez-Licona, VL Ballarin, EA Ibarra-Ramírez, SM Pérez-Buitrago & LR Berriere (eds), X Latin American Conference on Biomedical Engineering - Proceedings of CLAIB 2024. IFMBE Proceedings, vol. 121, Springer Science and Business Media Deutschland GmbH, pp. 89-101, 10th Latin American Conference on Biomedical Engineering, CLAIB 2024, Panama City, Panama, 2/10/24. https://doi.org/10.1007/978-3-031-89514-2_8

CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite. / Mejía-Delgadillo, Ximena; Gómez-Ruiz, Antonio; Zapatero-Gutiérrez, Araceli et al.
X Latin American Conference on Biomedical Engineering - Proceedings of CLAIB 2024. ed. / Fabiola M. Martinez-Licona; Virginia L. Ballarin; Ernesto A. Ibarra-Ramírez; Sandra M. Pérez-Buitrago; Luis R. Berriere. Springer Science and Business Media Deutschland GmbH, 2025. p. 89-101 (IFMBE Proceedings; Vol. 121).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite

AU - Mejía-Delgadillo, Ximena

AU - Gómez-Ruiz, Antonio

AU - Zapatero-Gutiérrez, Araceli

AU - Hidalgo-Peña, Enrique

AU - Alanis-Gómez, Rafael

AU - Hernández-Rosas, Fabiola

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Switzerland AG 2025.

PY - 2025/1/1

Y1 - 2025/1/1

N2 - Introduction: Cranial defects resulting from trauma, tumors, surgical procedures, and congenital conditions, necessitate effective prosthetic solutions to restore both form and function. This study aims to design and evaluate a cranial prosthesis using advanced CAD techniques, and a biocompatible coating for enhanced mechanical properties and to promote osteointegration. Materials and Methods: Tomographic images of a patient with cranial decompression were reconstructed in 3D Slicer and used to design the prosthesis using software CAD: Rhino, and SolidWorks. Finite element analysis in SolidWorks assessed mechanical performance. Displacement and tension testing of the impact area were conducted. Furthermore, a prototype was 3D printed in PLA to evaluate the quality of the design and dimensions. Finally, hydroxyapatite was synthesized hydrothermally with microwave assistance and characterized for future coating applications of our cranial prosthesis. Results: Finite element analysis confirmed the prosthesis’ mechanical integrity and validated the prosthesis's mechanical performance under displacement and tension. The 3D-printed prototype exhibited accurate replication of the defect site. Hydroxyapatite coating displayed a high degree of purity and crystallinity, favorable conditions for osseointegration, and mechanical resistance. Conclusion: The integrated approach successfully yielded a cranial prosthesis prototype with optimized mechanical properties and biocompatibility. Utilization of tomographic imaging reconstructed in 3D Slicer, CAD design, 3D printing, and mechanical testing offers a comprehensive solution for cranial defect restoration, promising improved patient outcomes and quality of life.

AB - Introduction: Cranial defects resulting from trauma, tumors, surgical procedures, and congenital conditions, necessitate effective prosthetic solutions to restore both form and function. This study aims to design and evaluate a cranial prosthesis using advanced CAD techniques, and a biocompatible coating for enhanced mechanical properties and to promote osteointegration. Materials and Methods: Tomographic images of a patient with cranial decompression were reconstructed in 3D Slicer and used to design the prosthesis using software CAD: Rhino, and SolidWorks. Finite element analysis in SolidWorks assessed mechanical performance. Displacement and tension testing of the impact area were conducted. Furthermore, a prototype was 3D printed in PLA to evaluate the quality of the design and dimensions. Finally, hydroxyapatite was synthesized hydrothermally with microwave assistance and characterized for future coating applications of our cranial prosthesis. Results: Finite element analysis confirmed the prosthesis’ mechanical integrity and validated the prosthesis's mechanical performance under displacement and tension. The 3D-printed prototype exhibited accurate replication of the defect site. Hydroxyapatite coating displayed a high degree of purity and crystallinity, favorable conditions for osseointegration, and mechanical resistance. Conclusion: The integrated approach successfully yielded a cranial prosthesis prototype with optimized mechanical properties and biocompatibility. Utilization of tomographic imaging reconstructed in 3D Slicer, CAD design, 3D printing, and mechanical testing offers a comprehensive solution for cranial defect restoration, promising improved patient outcomes and quality of life.

KW - CAD design

KW - Cranial Prostheses

KW - Nanohydroxyapatite Coating

KW - Patient-specific Customization

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DO - 10.1007/978-3-031-89514-2_8

M3 - Contribución a la conferencia

AN - SCOPUS:105004637286

SN - 9783031895135

T3 - IFMBE Proceedings

SP - 89

EP - 101

BT - X Latin American Conference on Biomedical Engineering - Proceedings of CLAIB 2024

A2 - Martinez-Licona, Fabiola M.

A2 - Ballarin, Virginia L.

A2 - Ibarra-Ramírez, Ernesto A.

A2 - Pérez-Buitrago, Sandra M.

A2 - Berriere, Luis R.

PB - Springer Science and Business Media Deutschland GmbH

T2 - 10th Latin American Conference on Biomedical Engineering, CLAIB 2024

Y2 - 2 October 2024 through 5 October 2024

ER -

Mejía-Delgadillo X, Gómez-Ruiz A, Zapatero-Gutiérrez A, Hidalgo-Peña E, Alanis-Gómez R, Hernández-Rosas F. CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite. In Martinez-Licona FM, Ballarin VL, Ibarra-Ramírez EA, Pérez-Buitrago SM, Berriere LR, editors, X Latin American Conference on Biomedical Engineering - Proceedings of CLAIB 2024. Springer Science and Business Media Deutschland GmbH. 2025. p. 89-101. (IFMBE Proceedings). doi: 10.1007/978-3-031-89514-2_8

CAD-Designed Prototype of a Customized Neurocranial Prosthesis Covered with Nanohydroxyapatite

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Keywords

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