Smart/stimuli-responsive hydrogels: State-of-the-art platforms for bone tissue engineering
• 2022
معلومات البحث
المؤلفون
Hussein M. El-Husseiny, Eman A. Mady, Walaa A. El-Dakroury, Moataz B. Zewail, Mina Noshy, Amr M. Abdelfatah, Ahmed S. Doghish
الكلمات المفتاحية
Smart/stimuli-responsive hydrogels (SSRHs)Bone tissue engineeringDrug deliveryTissue engineeringNanomaterialsBTE
المجلة العلمية
Not Available
الناشر
Not Available
المجلد
Not Available
العدد
Not Available
الصفحات
Not Available
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
Repair of bone defects is a time-consuming, self-healing process based on tissue modeling and remodeling. However, the capacity of this method is limited, especially for critical-sized bone defects where bone augmentation is necessary. Hence, bone tissue engineering (BTE) with the execution of curative strategies that merge biomolecules, biomimetic scaffolds, and cells plays a decisive role in this track. Smart/stimuli-responsive hydrogels (SSRHs) are superb three-dimensional (3D) biomaterials intended for tissue engineering and other biomedical implementations. They can imitate the diverse mechanical, biological and physicochemical nature of the natural tissues. Besides, they provide 3D configuration, afford ample aqueous circumstances, and support mechanical constancy necessary for cell growth.
Furthermore, they function as competent delivery platforms for various biomolecules. Different nature-derived and synthetic polymers were largely exploited to produce smart scaffolds with distinctive characters and customized functionalities matching BTE applications. In the current review, we outlined the fundamentals of bone biology and the existing strategies for BTE. Moreover, we discussed different SSRHs, their synthesis scheme, their present situation, and future perspectives for BTE. In conclusion, recent progress in the assembly of SSRHs reinforces their potential to serve as smart and intricate platforms for regenerating injured bone tissues.
Furthermore, they function as competent delivery platforms for various biomolecules. Different nature-derived and synthetic polymers were largely exploited to produce smart scaffolds with distinctive characters and customized functionalities matching BTE applications. In the current review, we outlined the fundamentals of bone biology and the existing strategies for BTE. Moreover, we discussed different SSRHs, their synthesis scheme, their present situation, and future perspectives for BTE. In conclusion, recent progress in the assembly of SSRHs reinforces their potential to serve as smart and intricate platforms for regenerating injured bone tissues.
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