Anas Islam, Ambareen Fatima Ahmed, Widhilika Singh, Md. Faiyazuddin, Usama Ahmad , Faiyaz Shakeel2025-07-022025978-3-031-91789-9, 978-3-031-91790-5https://doi.org/10.1007/978-3-031-91790-5_9http://136.232.12.194:4000/handle/123456789/1381Book Title: Design and Processing of Green Materials - Exploring Sustainable Applications in Medical and Pharmaceuticals Sciences Book Author(s)/Editor(s): Md. Faiyazuddin, Meghraj SuryawanshiBioinspired scaffolds are revolutionizing the field of tissue regeneration by mimicking the complex structures and functionalities of natural tissues. The concepts of bioinspiration are examined in this chapter, along with how natural patterns might be adapted into artificial scaffolds to improve tissue regeneration and repair. Along with cutting-edge manufacturing techniques including electrospinning, 3D printing, and self-assembly approaches, it covers a variety of bioinspired scaffold types, such as polymer-based, ceramic-based, composite, and nanostructured scaffolds. Additionally, the chapter emphasizes how crucial scaffold functionalization is for enhancing bioactivity, cell adhesion, and proliferation. It also discusses how the manufacture of scaffolds affects the environment, highlighting the need of sustainable processes and eco-friendly materials. Examples from the fields of bone, cartilage, skin, and brain tissue engineering show how bioinspired scaffolds may be used practically and effectively. The difficulties, prospects, and possibilities of bioinspired scaffolds in promoting tissue engineering while reducing environmental effect are covered in the chapter’s conclusion.en-USBioinspired scaffoldstissue regenerationBiomaterialsenvironmental impactfabrication techniquesBook chapter