An innovative centre for the printing of cells, tissues, and organs have been established in the Faculty of Biomedical Engineering led by Professor Shulamit Levenberg at the Technion.
Article by Kevin Hattori, published on American Technion Society on March 28, 2019.
Professor Shulamit Levenberg, who heads the centre, said at the event that “the new centre is open to all Technion researchers and will guide the Technion’s tissue engineering department into new areas.” Prof. Levenberg is dean of the Faculty of Biomedical Engineering, and the Stanley and Sylvia Shirvan Chair in Cancer and Life Sciences.
The field of tissue engineering has undergone dizzying progress in recent decades – and the Technion has filled a significant role in this revolution. Technion researchers are developing complex and precise artificial tissues that significantly improve their integration in the target organ. This involves, among other things, the creation of tissue containing a developed system of blood vessels that quickly connect to the patient’s blood vessels.
Click here for a video of the 3D printer at work.
The 3-D Bio-Printing Center for Cell and Biomaterials Printing will provide a significant boost to tissue engineering at the Technion. The centre operates an innovative printer that prints three-dimensional scaffolds and the cells that grow into tissue. The printer translates the information obtained from the patient’s CT scans into three-dimensional tissue suited to the injury area. The system has additional tools to design scaffolds or cells to make 3D tissues, Levenberg said. “You can design as you wish and seed cells in the proper orientation to allow them to better organize into the right tissue structure.”
The printer is relevant to all areas of regenerative medicine and makes possible the printing of various tissues and the integration of controlled-release systems. It has several different printing heads, enabling the simultaneous creation of printed tissue from different. It is equipped with precise motors of variable speed and accuracy of 0.001 mm, as well as a built-in camera that improves the exactitude of the printing needle.
The system is suitable for a wide range of raw materials, such as hydrogels, thermoplastic materials, and ointments, with precise temperature and radiation control (ranging from 0 to 70 degrees Celsius and 30 to 250 degrees Celsius for ultraviolet radiation). The printing can be carried out directly into the growth plate.
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