Search results for: BIOPRINTING

• Chitosan-based inks for 3D printing and bioprinting

  Publication

  • M. Taghizadeh
  • A. Taghizadeh
  • M. K. Yazdi
  • P. Zarrintaj
  • F. J. Stadler
  • J. D. Ramsey
  • S. Habibzadeh
  • G. Naderi
  • M. Saeb
  • M. Mozafari
  • U. Schubert

  - GREEN CHEMISTRY - Year 2022

  The advent of 3D-printing/additive manufacturing in biomedical engineering field has introduced great potential for the preparation of 3D structures that can mimic native tissues. This technology has accelerated the progress in numerous areas of regenerative medicine, especially led to a big wave of biomimetic functional scaffold developments for tissue engineering demands. In recent years, the introduction of smart bio-inks has...

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• Marine polymers in tissue bioprinting: Current achievements and challenges

  Publication

  • A. Banach-Kopeć
  • S. Mania
  • R. Tylingo

  - REVIEWS ON ADVANCED MATERIALS SCIENCE - Year 2024

  Bioprinting has a critical role in tissue engineering, allowing the creation of sophisticated cellular scaffolds with high resolution, shape fidelity, and cell viability. Achieving these parameters remains a challenge, necessitating bioinks that are biocompatible, printable, and biodegradable. This review highlights the potential of marine-derived polymers and crosslinking techniques including mammalian collagen and gelatin along...

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• An Overview on Materials and Techniques in 3D Bioprinting Toward Biomedical Application

  Publication

  • M. Parizi
  • S. Vanaei
  • F. Salemizadehparizi
  • H. Vanaei
  • M. Salemizadeh Parizi

  - Engineered Regeneration - Year 2021

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• Recent advances in 3D bioprinted tumor models for personalized medicine

  Publication

  • P. Gnatowski
  • E. Piłat
  • J. Kucińska-Lipka
  • M. Saeb
  • M. R. Hamblin
  • M. Mozafari

  - Translational Oncology - Year 2023

  Cancerous tumors are among the most fatal diseases worldwide, claiming nearly 10 million lives in 2020. Due to their complex and dynamic nature, modeling tumors accurately is a challenging task. Current models suffer from inadequate translation between in vitro and in vivo results, primarily due to the isotropic nature of tumors and their microenvironment's relationship. To address these limitations, hydrogel-based 3D bioprinting...

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• Application of 3D- printed hydrogels in wound healing and regenerative medicine

  Publication

  • M. Deptuła
  • M. Zawrzykraj
  • J. Sawicka
  • A. Banach-Kopeć
  • R. Tylingo
  • M. Pikuła

  - BIOMEDICINE & PHARMACOTHERAPY - Year 2023

  Hydrogels are three-dimensional polymer networks with hydrophilic properties. The modifiable properties of hydrogels and the structure resembling living tissue allow their versatile application. Therefore, increasing attention is focused on the use of hydrogels as bioinks for three-dimensional (3D) printing in tissue engineering. Bioprinting involves the fabrication of complex structures from several types of materials, cells,...

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• REVIEW OF CURRENT RESEARCH ON CHITOSAN AS A RAW MATERIAL IN THREE-DIMENSIONAL PRINTING TECHNOLOGY IN BIOMEDICAL APPLICATIONS

  Publication

  • S. Mania
  • A. Banach-Kopeć
  • R. Tylingo

  - Progress on Chemistry and Application of Chitin and Its Derivatives - Year 2020

  Three-dimensional (3D) biomaterial manufacturing strategies show an extraordinary driving force for the development of innovative solutions in the biomedical sector, including drug delivery systems, disease modelling and tissue and organ engineering. Due to its remarkable and promising biological and structural properties, chitosan has been widely studied for decades in several potential applications in the biomedical field. However,...

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• Artificial intelligence for biomedical engineering of polysaccharides: A short overview.

  Publication

  • H. Shokrani
  • A. Shokrani
  • F. Seidi
  • J. Kucińska-Lipka
  • B. Makurat-Kasprolewicz
  • M. Reza Saeb
  • S. Ramakrishna

  - Current Opinion in Biomedical Engineering - Year 2023

  The advent of computer-aided concepts and cognitive algorithms, along with fuzzy sets and fuzzy logic thoughts, supported the idea of ‘making computers think like people’ (Lotfi A. Zadeh, IEEE Spectrum, 21 (26–32), 1984). Such a school of thought enabled the sophistication of mission-oriented...

• From Bioink to Tissue: Exploring Chitosan-Agarose Composite in the Context of Printability and Cellular Behaviour

  Publication

  • S. Mania
  • A. Banach-Kopeć
  • N. Maciejewska
  • K. Czerwiec
  • M. Deptuła
  • P. Słonimska
  • J. Baczyński-Keller
  • M. Pikuła
  • P. Sachadyn
  • R. Tylingo

  - MOLECULES - Year 2024

  This study presents an innovative method for producing thermosensitive bioink from chitosan hydrogels saturated with carbon dioxide and agarose. It focuses on a detailed characterisation of their physicochemical properties and potential applications in biomedicine and tissue engineering. The ORO test approved the rapid regeneration of the three-dimensional structure of chitosan–agarose composites in a unidirectional bench press...

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• Methods for biomaterials printing: A short review and perspective

  Publication

  • H. Shokrani
  • A. Shokrani
  • M. Saeb

  - METHODS - Year 2022

  Printing technologies have opened larger windows of innovation and creativity to biomaterials engineers by providing them with the ability to fabricate complex shapes in a reasonable time, cost, and weight. However, there has always been a trouble with function adjusting in printing technologies in view of the multiplicity of materials and apparatus parameters. 3D printing, also known as additive manufacturing, revolutionized biomaterials...

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