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1. A novel fluffy PLGA/HA composite scaffold for bone defect repair

   Treatment of bone defects remains crucial challenge for successful bone healing, which arouses great interests in designing and fabricating ideal...

   Yuan Tao, Meng Jia, ... Bao Ni-Rong in Journal of Materials Science: Materials in Medicine

   Article Open access 15 March 2024
   

2. Three-dimensional printed polylactic acid and hydroxyapatite composite scaffold with urine-derived stem cells as a treatment for bone defects

   Bone defects still pose various challenges in osteology. As one treatment method for bone defects, tissue engineering requires biomaterials with good...

   **ang Zhang, Jia-Lei Chen, ... **n Duan in Journal of Materials Science: Materials in Medicine

   Article Open access 03 October 2022
   

3. Biodegradable Nanocomposite as Advanced Bone Tissue Scaffold

   The continuous advancements in nanotechnology, understanding of reinforcement procedures of nanoscale materials, and related fabrication technologies...

   Yara A. Kammoun, Amal Ashry in Handbook of Biodegradable Materials

   Reference work entry 2023
   

4. Carbon Nanotubes for Tissue Engineering Scaffold Applications

   With the advancement of the tissue engineering applications, there are many biomaterials used as the scaffold materials for the treatment of...

   R. Rajakumari, Sabu Thomas, Nandakumar Kalarikkal in Handbook of Carbon Nanotubes

   Reference work entry 2022
   

5. Polymeric Nano-Composite Scaffolds for Bone Tissue Engineering: Review

   Bone tissues have an amazing ability to repair and regenerate. However, complex bone fractures and defects still present a significant challenge to...

   Lokesh Kumar, Dheeraj Ahuja in Biodegradable and Environmental Applications of Bionanocomposites

   Chapter 2023
   

6. Biodegradable Nanocomposite as Advanced Bone Tissue Scaffold

   The continuous advancements in nanotechnology, understanding of reinforcement procedures of nanoscale materials, and related fabrication technologies...

   Yara A. Kammoun, Amal Ashry in Handbook of Biodegradable Materials

   Living reference work entry 2022
   

7. Recent advances of collagen composite biomaterials for biomedical engineering: antibacterial functionalization and 3D-printed architecturalization

   Collagen possesses high biocompatibility with all tissue and cell types in the body, enabling the creation of multifunctional composite materials for...

   Lu Zheng, Natalya Tseomashko, ... **aoying Wang in Collagen and Leather

   Article Open access 22 May 2024
   

8. Fabrication and characterization of 3D-printed composite scaffolds of coral-derived hydroxyapatite nanoparticles/polycaprolactone/gelatin carrying doxorubicin for bone tissue engineering

   In this study, nanocomposite scaffolds of hydroxyapatite (HA)/polycaprolactone (PCL)/gelatin (Gel) with varying amounts of HA (42–52 wt. %), PCL...

   Fatima Kadi, Ghasem Dini, ... Fatemeh Ejeian in Journal of Materials Science: Materials in Medicine

   Article Open access 29 January 2024
   

9. Electroactive nanofibrous scaffold based on polythiophene for bone tissue engineering application

   Electrically conductive polymeric biomaterials are promising candidates for bone tissue engineering (TE) due to pivotal role of electrical...

   Somayeh Vandghanooni, Hadi Samadian, ... Mehdi Jaymand in Journal of Materials Research

   Article 06 January 2022
   

10. A hyaluronic acid/PVA electrospun coating on 3D printed PLA scaffold for orthopedic application

    The need for bone tissue replacement, repair and regeneration for orthopedic application is constantly growing. Therefore, the application of...

    Mina Farsi, Azadeh Asefnejad, Hadi Baharifar in Progress in Biomaterials

    Article 22 January 2022
    

11. Bioinspired Polymer Composite Implants

    Long bone fractures are treated with internal fixation prostheses such as screws, pins, intramedullary nails, and bone plates, depending on the type...

    Ali Mehboob, Hassan Mehboob in Advanced Functional Polymers

    Chapter 2023
    

12. Augmented Repair and Regeneration of Critical Size Rabbit Calvaria Defects with 3D Printed Silk Fibroin Microfibers Reinforced PCL Composite Scaffolds

    Treatment of critical size defects is quite challenging, often requiring autologous bone grafts for bone regeneration. A massive volume of autologous...

    Sri Sai Ramya Bojedla, Vivekananda Kattimani, ... Falguni Pati in Biomedical Materials & Devices

    Article 10 April 2023
    

13. Carbon Nanotubes for Tissue Engineering Scaffold Applications

    With the advancement of the tissue engineering applications, there are many biomaterials used as the scaffold materials for the treatment of...

    R. Rajakumari, Sabu Thomas, Nandakumar Kalarikkal in Handbook of Carbon Nanotubes

    Living reference work entry 2021
    

14. Scaffold Production and Bone Tissue Healing Using Electrospinning: Trends and Gap of Knowledge

    Purpose

    Bone fractures are the most common large organ injuries to humans, and critical situations can delay the consolidation process or even in...

    Michele Amendoeira Giaconia, Sergiana dos Passos Ramos, ... Anna Rafaela Cavalcante Braga in Regenerative Engineering and Translational Medicine

    Article 31 May 2022
    

15. A gradient four-layered gelatin methacrylate/agarose construct as an injectable scaffold for mimicking osteochondral tissue

    Due to complexity of the osteochondral (OC) lesion sites, injectable hydrogels, as minimally invasive approach, are promising OC tissue engineering...

    Ali Mokhtarzade, Rana Imani, Parvin Shokrollahi in Journal of Materials Science

    Article 27 March 2023
    

16. Carbon nanotubes-reinforced polylactic acid/hydroxyapatite porous scaffolds for bone tissue engineering

    In the field of bone defect repair, critical requirements for favorable cytocompatibility and optimal mechanical properties have propelled research...

    Weiwei Lan, Mingbo Wang, ... Weiyi Chen in Frontiers of Materials Science

    Article 18 March 2024

17. Zinc-doped hydroxyapatite and poly(propylene fumarate) nanocomposite scaffold for bone tissue engineering

    Hydroxyapatite (HA) is a bioceramic material that shares similar crystal and chemical structures with inorganic components of the bone. However, HA...

    Yong Li, **feng Liu, ... Lichun Lu in Journal of Materials Science

    Article 01 March 2022
    

18. Preparation and characterization of a novel polylactic acid/hydroxyapatite composite scaffold with biomimetic micro-nanofibrous porous structure

    Combining synthetic polymer scaffolds with inorganic bioactive factors is widely used to promote the bioactivity and bone conductivity of bone...

    Shuqiong Liu, Yuying Zheng, ... Chao Tian in Journal of Materials Science: Materials in Medicine

    Article 03 August 2020
    

19. Post-process optimization of 3D printed poly(lactic-co-glycolic acid) dental implant scaffold for enhanced structure and mechanical properties: effects of sonication duration and power

    We described a technique of a post-process stage to partially remove the poly(vinyl alcohol) (PVA) binder in Poly(lactic-co-glycolic acid) (PLGA)...

    R. N. V. C. Virinthorn, M. Chandrasekaran, ... K. L. Goh in Journal of Materials Science: Materials in Medicine

    Article Open access 31 July 2021
    

20. Biodegradable Polymers for 3D Printing of Tissue Engineering Scaffolds: Challenges and Future Directions

    Tissue engineeringTissue engineering holds great promise for tissue regeneration and organ replacement. The integration of biodegradable...

    Eribe M. Jonathan, Osarumen E. Oghama, ... Gregory E. Onaiwu in TMS 2024 153rd Annual Meeting & Exhibition Supplemental Proceedings

    Conference paper 2024