Biodegradable ceramic materials for orthopedic and dentistry applications

From the standpoint of tissue engineering and biology, synthesizing bioceramic materials for implants and devices that promote bone regeneration is a significant challenge. Degradable materials for bone repair and regeneration are actively sought after, and it is the subject of much attention in the...

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Published inDiscover applied sciences Vol. 7; no. 9; p. 990
Main Authors Mahmoud, E. M., Sayed, M., Mansour, T. S., Naga, S. M.
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 26.08.2025
Springer Nature B.V
Subjects
Applied and Technical Physics
Bioceramics
Biocompatibility
Biodegradability
Biodegradable materials
Biodegradation
Biological activity
Biomaterials
Biomedical materials
Bone growth
Bone healing
Bone implants
Bones
Calcium phosphates
Ceramics
Chemistry/Food Science
Cobalt
Corrosion resistance
Crack propagation
Dental materials
Dental prosthetics
Dental restorative materials
Dentistry
Earth Sciences
Engineering
Environment
Fabrication
Hyaluronic acid
Hydroxyapatite
Magnesium
Magnesium base alloys
Materials Science
Maxillofacial
Mechanical properties
Medical equipment
Orthopaedic implants
Orthopedics
Physical characteristics
Physical properties
Polymers
Polyvinyl alcohol
Regeneration
Regeneration (physiology)
Review
Skin & tissue grafts
Stainless steel
Steel alloys
Tissue engineering
Titanium alloys
Transplants & implants
Biodegradable ceramic materials
Bone regeneration
Orthopedic and dentistry applications, hard tissue
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Abstract From the standpoint of tissue engineering and biology, synthesizing bioceramic materials for implants and devices that promote bone regeneration is a significant challenge. Degradable materials for bone repair and regeneration are actively sought after, and it is the subject of much attention in the bioceramic materials research field, because of their biodegradable nature, which enables patients to avoid a second operation with lower pain and cost. This review article represents an overview of the most significant biodegradable ceramic materials used in orthopedic and dental applications. In addition, it discusses and summarizes the considerable advancements in the use of biodegradable ceramic materials for bone replacement as the perfect choice for orthopedic and maxillofacial applications. Additionally, it highlights the causes of biodegradability, together with an overview of traditional and modern research. It defines various biodegradable ceramic materials, their bioactivity, clinical applications, advantages, limitations, fabrication techniques, mechanical and physical characteristics, and the criteria for selecting long-lasting implant devices for bioceramic biodegradable materials. The article stated that there is still a vital need to develop a range of improved biomaterials and their manufacturing approaches. For this purpose, biodegradable materials, including polymers, ceramics, magnesium alloys and their composites, should be intensely studied as materials for repair and applications, either alone or as a coating layer for implants.
AbstractList From the standpoint of tissue engineering and biology, synthesizing bioceramic materials for implants and devices that promote bone regeneration is a significant challenge. Degradable materials for bone repair and regeneration are actively sought after, and it is the subject of much attention in the bioceramic materials research field, because of their biodegradable nature, which enables patients to avoid a second operation with lower pain and cost. This review article represents an overview of the most significant biodegradable ceramic materials used in orthopedic and dental applications. In addition, it discusses and summarizes the considerable advancements in the use of biodegradable ceramic materials for bone replacement as the perfect choice for orthopedic and maxillofacial applications. Additionally, it highlights the causes of biodegradability, together with an overview of traditional and modern research. It defines various biodegradable ceramic materials, their bioactivity, clinical applications, advantages, limitations, fabrication techniques, mechanical and physical characteristics, and the criteria for selecting long-lasting implant devices for bioceramic biodegradable materials. The article stated that there is still a vital need to develop a range of improved biomaterials and their manufacturing approaches. For this purpose, biodegradable materials, including polymers, ceramics, magnesium alloys and their composites, should be intensely studied as materials for repair and applications, either alone or as a coating layer for implants.
ArticleNumber 990
Author Mansour, T. S.
Naga, S. M.
Sayed, M.
Mahmoud, E. M.
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Bone regeneration
Orthopedic and dentistry applications, hard tissue
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Snippet From the standpoint of tissue engineering and biology, synthesizing bioceramic materials for implants and devices that promote bone regeneration is a...
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SubjectTerms Applied and Technical Physics
Bioceramics
Biocompatibility
Biodegradability
Biodegradable materials
Biodegradation
Biological activity
Biomaterials
Biomedical materials
Bone growth
Bone healing
Bone implants
Bones
Calcium phosphates
Ceramics
Chemistry/Food Science
Cobalt
Corrosion resistance
Crack propagation
Dental materials
Dental prosthetics
Dental restorative materials
Dentistry
Earth Sciences
Engineering
Environment
Fabrication
Hyaluronic acid
Hydroxyapatite
Magnesium
Magnesium base alloys
Materials Science
Maxillofacial
Mechanical properties
Medical equipment
Orthopaedic implants
Orthopedics
Physical characteristics
Physical properties
Polymers
Polyvinyl alcohol
Regeneration
Regeneration (physiology)
Review
Skin & tissue grafts
Stainless steel
Steel alloys
Tissue engineering
Titanium alloys
Transplants & implants
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Title Biodegradable ceramic materials for orthopedic and dentistry applications
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