• 3D Printed Ears with Hearing aids cheaper than glasses

    Children born with ear deformities can now receive prosthetic ears that come with Hearing aids fitted. This silicone made 3D ear will be fitted within few hours. Researchers at Queensland are already working on stage two of cosmetics and will be available within 2 years as they received funding from national government.

  • Bio-Printing New Jaw and Gum Cells to pioneer Dentistry Evolution

    Bio Printing New Jaw and Gum Cells to pioneer Dentistry Evolution

    Periodontist Professor Saso Ivanovski, from Griffith University’s Menzies Institute has announced that he has developed a way to engineer missing bone and tissue in the gums and jaw by using a patient’s own cells after 5 years of research. This will involve taking CT scan of patient's damaged region which will be sent to bioprinter to 3D Print new part and the whole procedure will decrease the significant pain, nerve damage and postoperative swelling. National Health and Medical Research Council has granted it $650,000 for the potential it holds in dental industry.

  • Hear and Say Campaign seeks Crowdfunding after no support from Australian Govt.

    Hear and Say Campaign seeks Crowdfunding after no support from Australian Govt

    Australian researchers from Queensland University of Technology and Brisbane-based Hear and Say Centre are working on FutureHear Project which aims to create 3D printed prosthetic ears for children suffering from microtia, a condition with underdeveloped/missing ears. After failing to receive any help from government, they have now headed to Pozible Crowdfunding campaign for raising around $200,000.

  • Biocompatible Cartilage For Implants Made From Crocodile Cartilage, 3D Printing And Human Stem Cells

    Biocompatible Cartilage For Implants Made From Crocodile Cartilage 3D Printing And Human Stem Cells

    Dr. Pardraig Strappe, a microbiologist in central Queensland along with a team of researchers at CQUniversity, is using 3D printing, human stem cells, and crocodile cartilage to develop a 3D Printed Joint Cartilage to treat arthritis and joint injuries. The process involves extracting growth factors from crocodile cartilage, removing the proteins that set off a human immune response and adding adult stem cells using CELLINK 3D bioprinter.

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8485 E McDonald Dr #550
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Phone 480.755.1155

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