Your search keyword '"Hamidreza Tolabi"' showing total 5 results

1. A critical review on polydopamine surface-modified scaffolds in musculoskeletal regeneration

Author

Hamidreza Tolabi, Negar Bakhtiary, Shaghayegh Sayadi, Maryam Tamaddon, Farnaz Ghorbani, Aldo R. Boccaccini, and Chaozong Liu

Subjects

polydopamine, surface engineering, tissue engineering, musculoskeletal tissue, scaffolds, Biotechnology, TP248.13-248.65

Abstract

Increasing concern about age-related diseases, particularly musculoskeletal injuries and orthopedic conditions, highlights the need for strategies such as tissue engineering to address them. Surface modification has been developed to create pro-healing interfaces, personalize scaffolds and provide novel medicines. Polydopamine, a mussel-inspired adhesive polymer with highly reactive functional groups that adhere to nearly all substrates, has gained attention in surface modification strategies for biomaterials. Polydopamine was primarily developed to modify surfaces, but its effectiveness has opened up promising approaches for further applications in bioengineering as carriers and nanoparticles. This review focuses on the recent discoveries of the role of polydopamine as a surface coating material, with focus on the properties that make it suitable for tackling musculoskeletal disorders. We report the evolution of using it in research, and discuss papers involving the progress of this field. The current research on the role of polydopamine in bone, cartilage, muscle, nerve, and tendon regeneration is discussed, thus giving comprehensive overview about the function of polydopamine both in-vitro and in-vivo. Finally, the report concludes presenting the critical challenges that must be addressed for the clinical translation of this biomaterial while exploring future perspectives and research opportunities in this area.

Published

2022

2. Photo-cross-linkable hyaluronic acid bioinks for bone and cartilage tissue engineering applications

Author

Farnaz Ghorbani, Behafarid Ghalandari, Mehran Khajehmohammadi, Negar Bakhtiary, Hamidreza Tolabi, Melika Sahranavard, Sonia Fathi-Karkan, Vida Nazar, Shalaleh Hasan Niari Niar, Amirhosein Armoon, Maryam Ettelaei, Milad Tavakoli Banizi, and Maurice N. Collins

Subjects

Mechanics of Materials, Mechanical Engineering, Materials Chemistry, Metals and Alloys

Published

2023

3. Progress of Microfluidic Hydrogel‐Based Scaffolds and Organ‐on‐Chips for the Cartilage Tissue Engineering

Author

Hamidreza Tolabi, Niyousha Davari, Mehran Khajehmohammadi, Haniyeh Malektaj, Katayoun Nazemi, Samaneh Vahedi, Behafarid Ghalandari, Rui L. Reis, Farnaz Ghorbani, and Joaquim Miguel Oliveira

Subjects

Mechanics of Materials, Mechanical Engineering, General Materials Science

Published

2023

4. Fabrication of meso/macroporous TiO2/PCL composite scaffolds by direct ink writing: The effects of porogen content on the compressive modulus and in vitro behavior

Author

Zahra Yahay, Hamidreza Tolabi, Farhan Delavar, S. Ali Poursamar, Seyed Mehdi Mirhadi, and Fariborz Tavangarian

Subjects

Mechanics of Materials, Materials Chemistry, General Materials Science

Published

2023

5. Protein-Based Hydrogels: Promising Materials for Tissue Engineering

Author

Niyousha Davari, Negar Bakhtiary, Mehran Khajehmohammadi, Soulmaz Sarkari, Hamidreza Tolabi, Farnaz Ghorbani, and Behafarid Ghalandari

Subjects

Polymers and Plastics, technology, industry, and agriculture, General Chemistry, ddc:620, complex mixtures

Abstract

The successful design of a hydrogel for tissue engineering requires a profound understanding of its constituents’ structural and molecular properties, as well as the proper selection of components. If the engineered processes are in line with the procedures that natural materials undergo to achieve the best network structure necessary for the formation of the hydrogel with desired properties, the failure rate of tissue engineering projects will be significantly reduced. In this review, we examine the behavior of proteins as an essential and effective component of hydrogels, and describe the factors that can enhance the protein-based hydrogels’ structure. Furthermore, we outline the fabrication route of protein-based hydrogels from protein microstructure and the selection of appropriate materials according to recent research to growth factors, crucial members of the protein family, and their delivery approaches. Finally, the unmet needs and current challenges in developing the ideal biomaterials for protein-based hydrogels are discussed, and emerging strategies in this area are highlighted.

Published

2022