Biomaterials Effect on the Bone Microenvironment
Practical resource on clinical bone regeneration from a variety of related interdisciplinary researchers
Biomaterials Effect on the Bone Microenvironment focuses on the structure-activity relationship between bone biomaterials and microenvironment regulation, presenting a systematic exposition from all aspects of biomaterials regulated microenvironment in bone regeneration and covering design strategies, applications, and mechanisms of biomaterials that regulate bone microenvironment, along with the methods for manufacturing biomaterials and their clinical translation.
The subject’s potential challenges and future development direction are discussed, and the design and initiative principle of tailored biomaterials with various features, including bioactive components and physicochemical property, are elucidated in depth. Numerous biomaterials, including natural and synthetic, are summarized and compared. Their advantages and features are also evaluated, particularly in bone microenvironmental regulation and bone generation. Moreover, the stimulation mechanism of the microenvironment to bone generation is discussed in detail, including mechanical-support effect, redox effect, pro-angiogenesis effect, inflammatory immune effect, and anti-aging effect.
Biomaterials Effect on the Bone Microenvironment provides further coverage of sample topics such as:
- Role of bone microenvironment and its associated biomaterials in modulation bone diseases, reviewing the biomaterials used to regulate bone microenvironment
- Relationship between biological factors of various materials and physiological functions in bone microenvironment
- Application of the third generation of biomaterials, which would regenerate the bone to regulate bone microenvironment
- Emerging biological material manufacturing technology and mechanisms of novel biomaterial modulating microenvironment for bone regeneration
- Future outlook of bone tissue engineering along with the general process of bone remodeling and regeneration
With comprehensive coverage of one of the most promising and valuable candidates for clinical bone regeneration, Biomaterials Effect on the Bone Microenvironment is an ideal resource for materials scientists, biotechnologists, biochemists, bioengineers, orthopedists, and clinical chemists who want to stay on the cutting edge of this rapidly evolving field.