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1. Developments of additive manufacturing and 5D printing in tissue engineering

   Additive manufacturing, popularly known as “3D printing”, enables us to fabricate advanced scaffolds and cell-scaffold constructs for tissue...

   Jiahui Lai, Min Wang in Journal of Materials Research

   Article Open access 31 October 2023
   

2. Polymer/Ceramic Nanocomposite Fibers in Bone Tissue Engineering

   In the past three decades, many types of electrospun fibers have been developed and utilized for innumerable tissue engineering applications....

   S. Sowmya, Nirmal Mathivanan, ... R. Jayakumar in Electrospun Polymeric Nanofibers

   Chapter 2023
   

3. Revascularization and angiogenesis for bone bioengineering in the craniofacial region: a review

   The revascularization of grafted tissues is a complicated and non-straightforward process, which makes it challenging to perform reconstructive...

   Randa AL-Fotawi, Waleed Fallatah in Journal of Materials Science: Materials in Medicine

   Article Open access 30 May 2023
   

4. A Review on the Biomaterials Fabricated for Cardiac Tissue Engineering Using Decellularized Extracellular Matrix

   Abstract

   Biomaterials synthesized using a variety of polymers are extensively used in tissue engineering for the repair and regeneration of tissues,...

   Shiny Punalur John, Ramamurthy Nagarajan in Regenerative Engineering and Translational Medicine

   Article 16 April 2024
   

5. Recent Advancements on Three-Dimensional Electrospun Nanofiber Scaffolds for Tissue Engineering

   Electrospinning is widely accepted as a technique for the fabrication of nanofibrous three-dimensional (3D) scaffolds which mimic extracellular...

   Yujie Chen, Xutao Dong, ... **umei Mo in Advanced Fiber Materials

   Article 16 May 2022
   

6. Three-dimensional printing of scaffolds for facial reconstruction

   Three-dimensional (3D) printing of scaffolds for tissue engineering applications has grown substantially in the past two decades. Unlike conventional...

   Yuxiao Zhou, Warren Grayson in MRS Bulletin

   Article Open access 01 January 2022
   

7. Study of barium-based bioactive glass-ceramic/starch nanobiocomposite as a candidate graft material for bone repair

   Bioactive glass-ceramic/polymer composites as implants induce bone bonding and congruent degradability without eliciting adverse immunological...

   Enobong R. Essien, Violette N. Atasie, ... Luqman A. Adams in Journal of the Australian Ceramic Society

   Article 08 August 2023
   

8. Polyurethane/phosphatidylcholine composite nanofibers conjugated with heparin-tagged cerium oxide nanoparticles for surface modification of cardiovascular stents

   Nanotextured coating strategies have become a new option to achieve the rupture atheroma thin layer after endovascular stent application. In this...

   Zeynep Karahaliloğlu in Journal of Materials Research

   Article 11 January 2023
   

9. Biodegradable Materials from Natural Origin for Tissue Engineering and Stem Cells Technologies

   Tissue engineering is emerging as an interdisciplinary field in biomedical engineering that aims to regenerate new biological material for replacing...

   Ahmed Atwa, Mahmoud R. Sofy, ... Sayed Bakry in Handbook of Biodegradable Materials

   Reference work entry 2023
   

10. Nanomaterials-incorporated hydrogels for 3D bioprinting technology

    In the field of tissue engineering and regenerative medicine, various hydrogels derived from the extracellular matrix have been utilized for creating...

    Jungbin Yoon, Hohyeon Han, **ah Jang in Nano Convergence

    Article Open access 15 November 2023
    

11. Hybrid Biodegradable Polymeric Scaffolds for Cardiac Tissue Engineering

    Cardiovascular diseases are accounted the number one cause of death worldwide. Besides, this great threat will continue to arise in the future....

    Hussein M. El-Husseiny, Eman A. Mady, ... Ryou Tanaka in Handbook of Biodegradable Materials

    Reference work entry 2023
    

12. Growing Skin-Like Tissue

    Skin substitutes offer new therapeutic options for treating acute and chronic skin wounds.

    Tanja Zidarič, Karin Stana Kleinschek, ... Tina Maver in Function-Oriented Bioengineered Skin Equivalents

    Chapter 2023
    

13. Evaluation of Adhesion, Growth and Differentiation of Human Umbilical Cord Stem Cells to Osteoblast Cells on PLA Polymeric Scaffolds

    Tissue engineering is used for regenerating bioartificial tissues using suitable cells and biocompatible scaffold materials. The present study aims...

    Mohsen Esmaeilzadeh, Asadollah Asadi, ... Farzaneh Shahabi in Biomedical Materials & Devices

    Article 08 February 2023
    

14. Biodegradable Polymers in Biomedical Applications: A Focus on Skin and Bone Regeneration

    Natural biodegradable polymers have attracted a lot of attention over the past decade because of their outstanding physical, chemical, mechanical,...

    Mai Abdelgawad, M. Abd Elkodous, Waleed M. A. El Rouby in Handbook of Biodegradable Materials

    Reference work entry 2023
    

15. Biodegradable GdPO₄·H₂O/PLGA microcarriers for stem cell delivery and non-invasive MRI translocation tracing

    Within brain tissue engineering, stem cell implantation assisted by biodegradable injectable scaffolds is a crucial method. However, implanted...

    Wenhao Zhu, Zhenxu Wu, ... Peibiao Zhang in Journal of Materials Science

    Article 14 July 2022
    

16. Biopolymer Derived Scaffolds

    Vipin Kumar, Sanjay Dey, ... Mayank Kumar Malik in Encyclopedia of Green Materials

    Living reference work entry 2023
    

17. Nanomaterials, Neural Stem Cells, and The Path to Neural Tissue Engineering

    Repairing damaged nervous system to confer functional recovery is a daunting mission; however, advances in stem cell therapy and tissue engineering...

    Swati Dubey, Rahul Shivahare, G. Taru Sharma in Engineered Nanomaterials for Innovative Therapies and Biomedicine

    Chapter 2022
    

18. Integration of Electrospinning and 3D Printing Technology

    Combining the equally valued electrospinning technology with 3D printing3D Printing can form specific patterns on electrospun fibersFibers and...

    Zhaoxu Zhang, Wei Zhang, ... Yunqian Dai in Electrospun Nanofibers

    Chapter 2022
    

19. Current Advances in Hydroxyapatite- and β-Tricalcium Phosphate-Based Composites for Biomedical Applications: A Review

    This review focuses on the advances made in the synthesis and application of hydroxyapatite (HA)- and β-tricalcium phosphate (β-TCP)-based composites...

    Sierra K. Kucko, Sarah M. Raeman, Timothy J. Keenan in Biomedical Materials & Devices

    Article 26 October 2022
    

20. Bioinspired Scaffold Designs for Regenerating Musculoskeletal Tissue Interfaces

    Abstract

    The musculoskeletal system works at a very advanced level of synchrony, where all the physiological movements of the body are systematically...

    Mohammed A. Barajaa, Lakshmi S. Nair, Cato T. Laurencin in Regenerative Engineering and Translational Medicine

    Article 17 December 2019