Enhancing Biocompatibility and Mechanical Properties of Additively Manufactured Porous Gyroid Ti–6Al–4V Implants through Hydroxyapatite Infiltration

There is an increasing demand for durable metallic implants, particularly among elderly patients undergoing revision surgeries for degenerative bone diseases. Approximately 70–80% of the implants are made of metal. Despite their robustness, metallic implants exhibit a higher Young’s modulus than bon...

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Published inInternational journal of precision engineering and manufacturing Vol. 25; no. 10; pp. 2177 - 2189
Main Authors Arivazhagan, Adhiyamaan, Mani, Kalayarasan, Kamarajan, Banu Pradheepa, V, Athul Menon, G, Ashish Paul, Venugopal, Neo Tarun
Format Journal Article
LanguageEnglish
Published Seoul Korean Society for Precision Engineering 01.10.2024
Springer Nature B.V
Subjects
Biocompatibility
Biomedical materials
Compressive strength
Corrosion rate
Engineering
Hydroxyapatite
Industrial and Production Engineering
Materials Science
Mechanical properties
Modulus of elasticity
Polyamide resins
Powder beds
Protective coatings
Regular Paper
Sol-gel processes
Stress shielding
Surgical implants
Titanium base alloys
Transplants & implants
Porous structure
Hydroxyapatite
Ti–6Al–4V
Gyroid
Sol–gel
Stress-shielding
Online AccessGet full text
ISSN2234-7593
2005-4602
DOI10.1007/s12541-024-01046-z

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Abstract There is an increasing demand for durable metallic implants, particularly among elderly patients undergoing revision surgeries for degenerative bone diseases. Approximately 70–80% of the implants are made of metal. Despite their robustness, metallic implants exhibit a higher Young’s modulus than bone, leading to a stress-shielding effect. Although porous structures in implants aim to mitigate this issue, their porosity compromises overall strength. The present study focuses on the design of porous gyroid Ti–6Al–4V specimens and their fabrication using laser powder bed fusion. Subsequently, hydroxyapatite (HAp) combined with polyamide binders was synthesized using the sol–gel method from precursors and infiltrated into porous specimens to enhance their bio-mechanical compatibility. The X-ray diffraction analysis confirmed the presence of both Ti–6Al–4V and HAp. The Tafel plots revealed that the corrosion rate of the porous specimen infiltrated with HAp was about 0.394 mm/year, which is very minimal considering the prolonged implant lifespan. Furthermore, the results from the compression testing revealed that the average Young’s modulus and compressive strength of HAp-infiltrated specimens were found to be increased by 70% and 7.5% respectively when compared to the non-infiltrated porous gyroid Ti–6Al–4V samples. These findings confirm that the HAp not only enhances osseointegration and tissue growth but also enhances the compressive strength of the porous Ti–6Al–4V metallic implants.
AbstractList There is an increasing demand for durable metallic implants, particularly among elderly patients undergoing revision surgeries for degenerative bone diseases. Approximately 70–80% of the implants are made of metal. Despite their robustness, metallic implants exhibit a higher Young’s modulus than bone, leading to a stress-shielding effect. Although porous structures in implants aim to mitigate this issue, their porosity compromises overall strength. The present study focuses on the design of porous gyroid Ti–6Al–4V specimens and their fabrication using laser powder bed fusion. Subsequently, hydroxyapatite (HAp) combined with polyamide binders was synthesized using the sol–gel method from precursors and infiltrated into porous specimens to enhance their bio-mechanical compatibility. The X-ray diffraction analysis confirmed the presence of both Ti–6Al–4V and HAp. The Tafel plots revealed that the corrosion rate of the porous specimen infiltrated with HAp was about 0.394 mm/year, which is very minimal considering the prolonged implant lifespan. Furthermore, the results from the compression testing revealed that the average Young’s modulus and compressive strength of HAp-infiltrated specimens were found to be increased by 70% and 7.5% respectively when compared to the non-infiltrated porous gyroid Ti–6Al–4V samples. These findings confirm that the HAp not only enhances osseointegration and tissue growth but also enhances the compressive strength of the porous Ti–6Al–4V metallic implants.
There is an increasing demand for durable metallic implants, particularly among elderly patients undergoing revision surgeries for degenerative bone diseases. Approximately 70–80% of the implants are made of metal. Despite their robustness, metallic implants exhibit a higher Young’s modulus than bone, leading to a stress-shielding effect. Although porous structures in implants aim to mitigate this issue, their porosity compromises overall strength. The present study focuses on the design of porous gyroid Ti–6Al–4V specimens and their fabrication using laser powder bed fusion. Subsequently, hydroxyapatite (HAp) combined with polyamide binders was synthesized using the sol–gel method from precursors and infiltrated into porous specimens to enhance their bio-mechanical compatibility. The X-ray diffraction analysis confirmed the presence of both Ti–6Al–4V and HAp. The Tafel plots revealed that the corrosion rate of the porous specimen infiltrated with HAp was about 0.394 mm/year, which is very minimal considering the prolonged implant lifespan. Furthermore, the results from the compression testing revealed that the average Young’s modulus and compressive strength of HAp-infiltrated specimens were found to be increased by 70% and 7.5% respectively when compared to the non-infiltrated porous gyroid Ti–6Al–4V samples. These findings confirm that the HAp not only enhances osseointegration and tissue growth but also enhances the compressive strength of the porous Ti–6Al–4V metallic implants.
Author Venugopal, Neo Tarun
Kamarajan, Banu Pradheepa
Arivazhagan, Adhiyamaan
V, Athul Menon
G, Ashish Paul
Mani, Kalayarasan
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Keywords Porous structure
Hydroxyapatite
Ti–6Al–4V
Gyroid
Sol–gel
Stress-shielding
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Snippet There is an increasing demand for durable metallic implants, particularly among elderly patients undergoing revision surgeries for degenerative bone diseases....
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SubjectTerms Biocompatibility
Biomedical materials
Compressive strength
Corrosion rate
Engineering
Hydroxyapatite
Industrial and Production Engineering
Materials Science
Mechanical properties
Modulus of elasticity
Polyamide resins
Powder beds
Protective coatings
Regular Paper
Sol-gel processes
Stress shielding
Surgical implants
Titanium base alloys
Transplants & implants
Title Enhancing Biocompatibility and Mechanical Properties of Additively Manufactured Porous Gyroid Ti–6Al–4V Implants through Hydroxyapatite Infiltration
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