Coaxial 3D printing of hierarchical structured hydrogel scaffolds for repair of spinal cord injury
In vivo evaluation of bone scaffold fabricated by 3D bioprinting method by researchers of OmidAfrinan company
Fabrication of 3D printed hybrid scaffolds carrying dental pulp stem cells
Bioprinting Bone Constructs During Surgery
The beating of the first bioprinted human heart created from stem cells
۳D Bioprinted Multicellular Vascular Models
۳D Printed Punctal Plugs for Controlled Ocular Drug Delivery
Fabrication of 3D printed hybrid scaffolds carrying dental pulp stem cells
- 3DBioprinting, News, Recently News, Technology
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Fabrication of scaffolds and then cell seeding is one of the common methods in tissue engineering. Although synthetic polymers have adequate mechanical properties to replace some bone tissues, they are generally hydrophobic and do not have any specific cell...
The beating of the first bioprinted human heart created from stem cells
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In a groundbreaking new study, researchers at the University of Minnesota have 3D printed a functioning centimeter-scale human heart pump in the lab. Videos show the production of the human heart using a 3D bioprinter and its function in...
۳D bioprinting of constructs made of hydrogels and thermoplastic polymers for articular cartilage engineering
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In a national collaboration of Spain scientists, a new bio-ink made of alginate and hyaluronic acid was developed for articular cartilage engineering. To provide the mechanical properties required in cartilage tissue, Polylactic acid was co-printed with the cell-encapsulated hydrogel....
۳D-Printing Responds to Covid-19 Outbreak: A Review on Simple and Feasible Ideas
- 3DBioprinting, Bioprinting Event, Technology
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With the outbreak of the coronavirus, the daily activities have been significantly disrupted. Therefore, the efforts of many research institutes in the world are focused on combating the spread of the virus. In this session of 3D Bio Club,...
Priming mesenchymal stem cells in vivo: A game-changer to treat myocardial infarction induced hearts
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Despite the great potential of mesenchymal stem cells in various regeneration therapies, their application to treat myocardial infarction (MI)–induced hearts is limited. In recent research by an international joint research team of POSTECH, Seoul St. Mary’s Hospital, and City...
Development of high performance nano- bioink
- 3DBioprinting, Technology, Workshops
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Despite considerable development of bioprinting methods, real applications in tissue engineering are still limited due to challenges in development of a suitable bioink with high printability and cell viability. Therefore, we will host Dr. Zandi for the introduction of...
The importance of neural and muscular cells integration in 3D bioprinted skeletal muscle constructs
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Regenerative medicine has been promised regeneration of muscular constructs that mimic structural and functional characteristics of native skeletal muscles. Recently, scientists at Wake Forest Institute for Regenerative Medicine (WFIRM), have accelerated restoration of skeletal muscle through integration of neural...
A New Kit from Omiad Afarinan Company for Printing of Hollow and Core/Shell structures
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Nowadays, technologies such as 3D bioprinting boost the fabrication of various tissue and organ models. One of the challenging models is tubular structures preset in various body parts. Omid Afarinan company has recently provided an innovative kit named 3DbioHollow®...
The 3DBioprinting Technology
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Innovative techniques for tissue engineering can have a tremendous impact on the future of the medical world. 3D bio-printing is a transformational technology holds great promise for the development of processes in the field of tissue engineering and regenerative...
Fabrication of Hydrogel Fibers with Controllable Biophysical and Biochemical Features
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Hydrogel structures with morphological features at microscale have various applications in tissue engineering and regenerative medicine due to their ability to induce cellular behavior in a controlled and desired manner. In a very recent study managed by Iranian researchers...
A New Product from Omiad Afarinan Company for Treatment of Bone Defects
- 3DBioprinting, Activities, Technology
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۳D printing can be used for many industrial and biomedical purposes. Omid Afarinan company has recently produced an innovative product named Cranio® for treatment of diseases such as craniosynostosis, hemifacial microsomia (HFM), and hypertelorism in which a person is inflicted...
۳D Bioprinting Technology in Plant Science: A New Approach
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Over the last decade, the development of technologies such as 3D bioprinting has engendered paradigm shift in many scientific areas including plant biology. For instance, 3D bioprinted constructs of plant cells or inspired by plants decipher information about single-cell,...
Experts at OmidAfarinan Mohandesi Ayande Hold Special Training Courses and Workshops
- Bioprinting Event, Technology, Workshops
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For the first time, the team of experts at OmidAfarinan Mohandesi Ayande, the first commercial group focusing on 3D Bioprinting in Iran, hold Special Training Courses and Workshops in the following context Training (Theoretical And Practical) Workshops Comprehensive Course...
Patient‐Specific 3D Bioprinted Model for treatment of pediatric cardiology
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In a collaboration between Georgia Tech, Emory and Children’s Healthcare of Atlanta, a patient‐specific 3D bioprinted model based on modified gelatin was developed for treatment of pediatric cardiology
Unveiling the Latest Achievements of Omid Afarinan Mohandesi Ayandeh Company in the Field of 3D Bioprinting
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The latest achievements of Omid Afarinan Mohandesi Ayandeh company in the field of 3D Bioprinting have been unveiled at the 7th IranLabExpo (Laboratory Equipment and Chemicals Exhibition) in the presence of Dr. Sattari, Vice President for Science and Technology...
Time-Consuming And Cost-Effective Medical Testing Using A Microfluidic Kit, A New Product From Omid Afarinan Mohandesi Ayandeh Company
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Recently, the manufacture of microfluidic chips has been provided by researchers of Omid Afarinan Co. using 3D printing technology. With this modern technology, researchers are able to perform many experiments at low cost
: Bioprinting a wide range of biomaterials and cell lines are now possible with modular printheads provided by OmidAfarinan
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According to recent advances in bioprinting and to meet new needs from researchers, 3D-Bio introduced a new modular system for bioprinting a wide range of biomaterials. These printheads made 3D-Bio bioprinters one of the most flexible devices in the...
Conducted researches by Omid Afrinan BioPrinters customers caught the attention of researchers participating in the 4th international and 6th national Congress of Wound and Tissue Repair
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The 4th international and 6th national Congress of Wound and Tissue Repair was held at Razi Conference Hall of Iran University of Medical Sciences from 19 to 22 November. Among the latest achievements in the field of dermatology, wound...
A step closer to bone tissue engineering with aid of new Bioink manufactured by OmidAfarinan Co
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Restoration of bone defects requires creative strategies that can be applied to the hierarchical structure of bone tissue from the nanoscale to the macro. For this purpose, we have to select materials that provide porous structures, with cell compatibility,...