Logo-bi
Editorial

1. Recombinant Proteins: Hopes for Tissue Engineering
Mohammad Morad Farajollahi, Sepideh Hamzehlou, Ahmad Mehdipour, Ali Samadikuchaksaraei*
Bioimpacts. 2012;2(3): 123-125. doi: 10.5681/bi.2012.010
PMCID: PMC3648934     PMID: 23678450     Scopus ID: 84876695772    
Article
PDF
XML
Cited By:
6
2
0
Editorial

2. Hydrogels for ocular drug delivery and tissue engineering

Marzieh Fathi, Jaleh Barar ORCID, Ayuob Aghanejad, Yadollah Omidi* ORCID
Bioimpacts. 2015;5(4): 159-164. doi: 10.15171/bi.2015.31
PMCID: PMC4769784     PMID: 26929918     Scopus ID: 84958155033    
Article
PDF
XML
Cited By:
67
16
76
Short Communication

3. Infection-resistant MRI-visible scaffolds for tissue engineering applications
Morteza Mahmoudi, Mingming Zhao, Yuka Matsuura, Sophie Laurent, Phillip C. Yang, Daniel Bernstein, Pilar Ruiz-Lozano*, Vahid Serpooshan*
Bioimpacts. 2016;6(2): 111-115. doi: 10.15171/bi.2016.16
PMCID: PMC4981249     PMID: 27525229     Scopus ID: 84983548259    
Article
PDF
XML
Cited By:
40
16
47
Original Research

4. Barrier Functionality of Porcine and Bovine Brain Capillary Endothelial Cells
Ailar Nakhlband, Yadollah Omidi* ORCID
Bioimpacts. 2011;1(3): 153-159. doi: 10.5681/bi.2011.021
PMCID: PMC3648965     PMID: 23678421     Scopus ID: 84876701721    
Article
PDF
XML
Cited By:
17
4
0
Review

5. An Update to Space Biomedical Research: Tissue Engineering in Microgravity Bioreactors
Abolfazl Barzegari, Amir Ata Saei*
Bioimpacts. 2012;2(1): 23-32. doi: 10.5681/bi.2012.003
PMCID: PMC3648913     PMID: 23678438     Scopus ID: 84876798249    
Article
PDF
XML
Cited By:
53
20
0
Original Research

6. Freeze-dried multiscale porous nanofibrous three dimensional scaffolds for bone regenerations
Maryam Sadat Khoramgah ORCID, Javad Ranjbari, Hojjat-Allah Abbaszadeh, Fatemeh Sadat Tabatabaei Mirakabad, Shadie Hatami, Simzar Hosseinzadeh* ORCID, Hossein Ghanbarian* ORCID
Bioimpacts. 2020;10(2): 73-85. doi: 10.34172/bi.2020.10
PMCID: PMC7186540     PMID: 32363151     Scopus ID: 85083393226    
Article
PDF
Full Text
XML
Cited By:
36
11
35
Nanofibrous scaffold made from PTFE, PVA and GO nanoparticles could be a candidate for bone tissue engineering due to appropriate activity for commitment and differentiation of hADSCs to bone tissue cells.
Original Research

7. Hollow pollen grains as scaffolding building blocks in bone tissue engineering
Solmaz Zakhireh ORCID, Jaleh Barar* ORCID, Younes Beygi-Khosrowshahi, Abolfazl Barzegari, Yadollah Omidi, Khosro Adibkia* ORCID
BioImpacts. 2022;12(3): 183-193. doi: 10.34172/bi.2021.24
PMCID: PMC9124872     PMID: 35677670     Scopus ID: 85132071807    
Article
PDF
Full Text
XML
Cited By:
5
1
0
The pollen grain of Pistacia vera L. is proposed as a scaffolding building block with the encapsulation capability of bioactive compounds. A modified simple method was developed to create nonallergic hollow pollen grains (HPGs).
Original Research

8. Fabrication, characterization, and optimization of a novel copper-incorporated chitosan/gelatin-based scaffold for bone tissue engineering applications

Azam Bozorgi ORCID, Masoud Mozafari ORCID, Mozafar Khazaei ORCID, Mansooreh Soleimani* ORCID, Zahra Jamalpoor* ORCID
BioImpacts. 2022;12(3): 233-246. doi: 10.34172/bi.2021.23451
PMCID: PMC9124876     PMID: 35677664     Scopus ID: 85128388055    
Article
PDF
Suppl 1
Full Text
XML
Cited By:
16
0
10
An overview of the fabrication process of pure and Copper (Cu)-substitutednano-hydroxyapatite/chitosan/gelatin (nHA/Cs/Gel) scaffolds followed by the characterization of physical, chemical, and biological properties as proper candidates to bone tissue engineering scaffolds.
Original Research

9. Designing robust chitosan-based hydrogels for stem cell nesting under oxidative stress
Zahra Olfat Noubari ORCID, Asal Golchin, Marziyeh Fathi* ORCID, Ailar Nakhlband* ORCID
Bioimpacts. 2022;12(1): 57-64. doi: 10.34172/bi.2021.23831
PMCID: PMC8783080     PMID: 35087717     Scopus ID: 85127219250    
Article
PDF
Full Text
XML
Cited By:
3
1
3
The prepared CS-based hydrogels with desired properties including porous structure, high swelling ability, and cytocompatibility did not show oxidative stress for the nesting of stem cells.
Original Research

10. Injectable thermosensitive chitosan/gelatin hydrogel for dental pulp stem cells proliferation and differentiation
Mohammad Samiei ORCID, Elaheh Dalir Abdollahinia ORCID, Nazanin Amiryaghoubi ORCID, Marziyeh Fathi* ORCID, Jaleh Barar ORCID, Yadollah Omidi* ORCID
Bioimpacts. 2023;13(1): 63-72. doi: 10.34172/bi.2022.23904
PMCID: PMC9923811     PMID: 36816999     Scopus ID: 85146923274    
Article
PDF
Full Text
XML
Cited By:
12
0
21
Injectable thermosensitive hydrogel (PNIPAAm-g-CS copolymer/gelatin hybrid hydrogel) can be used for osteogenic differentiation of human dental pulp stem cells (hDPSCs).
Original Article

11. Preparation of poly(acrylic acid)/tricalcium phosphate nanoparticles scaffold: Characterization and releasing UC-MSCs derived exosomes for bone differentiation
Nahid Moradi ORCID, Saeid Kaviani* ORCID, Mina Soufizomorrod* ORCID, Simzar Hosseinzadeh* ORCID, Masoud Soleimani ORCID
Bioimpacts. 2023;13(5): 425-438. doi: 10.34172/bi.2022.24142
PMCID: PMC10509736     PMID: 37736343     Scopus ID: 85172768741    
Article
PDF
Full Text
XML
Cited By:
3
0
3
Review

12. Bioscaffolds of graphene based-polymeric hybrid materials for myocardial tissue engineering
Nazanin Amiryaghoubi ORCID, Marziyeh Fathi* ORCID
Bioimpacts. 2024;14(1): 27684. doi: 10.34172/bi.2023.27684
PMCID: PMC10844587     PMID: 38327630     Scopus ID: 85182760306    
Article
PDF
Full Text
XML
Cited By:
7
0
7
Review

13. Molecular dynamics simulation in tissue engineering
Ali Rahmani ORCID, Rahim Jafari* ORCID, Samad Nadri* ORCID
Bioimpacts. 2025;15: 30160 | Published on: 2024 Aug 03. doi: 10.34172/bi.30160
PMCID: PMC11954742     PMID: 40161944     Scopus ID: 85215708793    
Article
PDF
Full Text
XML
Cited By:
1
0
1
Original Article

14. Fabrication and characterization of nanocomposite scaffold containing zinc-doped mesoporous bioglass: Evaluation of the antioxidant properties, hemocompatibility and proliferation of apical papilla stem cells
Morteza Jalilvand, Elham Khoshbin ORCID, Zahra Barabadi, Hamed Karkehabadi, Esmaeel Sharifi* ORCID
Bioimpacts. 2025;15: 30300 | Published on: 2024 Oct 28. doi: 10.34172/bi.30300
PMCID: PMC11954743     PMID: 40161949     Scopus ID: 85218115503    
Article
PDF
Full Text
XML
Cited By:
1
0
0
Review

15. Free and encapsulated stem cells for skin regeneration
Kimia Esmaeilzadeh ORCID, Sina Farzi Molan, Farshid Sefat, Samad Nadri* ORCID
Bioimpacts. 2025;15: 30806 | Published on: 2025 Jun 25. doi: 10.34172/bi.30806
PMCID: PMC12413985     PMID: 40922954     Scopus ID: 105009120642    
Article
PDF
Full Text
XML
Cited By:
0
0
0
CitedBy Google Scholar 0
Original Article

16. Enhancing bone tissue engineering with polyacrylonitrile electrospun scaffolds and graphene quantum dots: A comprehensive approach to regenerative medicine
Siavash Sehat-kashani ORCID, Hadi Naddaf ORCID, Elham Hoveizi* ORCID
Bioimpacts. 2025;15: 30835 | Published on: 2025 Jul 01. doi: 10.34172/bi.30835
PMCID: PMC12319219     PMID: 40761523     Scopus ID: 105010169440    
Article
PDF
Full Text
XML
Cited By:
0
0
0
Original Article

17. Development, in vitro, and in vivo assessments of PCL-gelatin-βTCP fibrous scaffolds for cardiac regeneration
Mahnaz Fathi ORCID, Nafiseh Baheiraei* ORCID, Nahid Moradi, Majid Salehi, Sepehr Zamani ORCID, Mehdi Razavi, Hossein Eyni
Bioimpacts. 2025;15: 31096 | Published on: 2025 Aug 17. doi: 10.34172/bi.31096
Scopus ID: 105014821052    
Article
PDF
Full Text
XML
Cited By:
0
0
0

As a peer-reviewed international open-access journal, BioImpacts publishes articles on basic and translational aspects of pharmaceutical and biomedical sciences. 
Acceptance rate (2024): 20% 
Publication fee: Free of charge

Indexing/Abstracting Info
PubMedPubMed Central; Scopus; Science Citation Index Expanded; Google Scholar;   SJR; Essential Science IndicatorsEmbase; EBSCOhost; CAS: DOAJSHERPA/RoMEO
Member of   
Follower of ICMJE
Permission: Creative Commons