• In a medical first, a young boy named Jace who was born completely blind regained partial vision after receiving experimental gene therapy in London. Doctors at Great Ormond Street and Moorfields Eye Hospital injected a working copy of the faulty AIPL1 gene directly into his retina.

    Just one month after the procedure, Jace began reacting to light—and soon after, he could see shapes, objects, and even walk without assistance. His progress marks a historic milestone in treating inherited blindness and gives hope to families worldwide.

    #GeneTherapy #BlindnessCure #MedicalBreakthrough #ChildHealth #VisionRestoration #LCA #ScienceNews #HopeForTheFuture
    In a medical first, a young boy named Jace who was born completely blind regained partial vision after receiving experimental gene therapy in London. Doctors at Great Ormond Street and Moorfields Eye Hospital injected a working copy of the faulty AIPL1 gene directly into his retina. Just one month after the procedure, Jace began reacting to light—and soon after, he could see shapes, objects, and even walk without assistance. His progress marks a historic milestone in treating inherited blindness and gives hope to families worldwide. #GeneTherapy #BlindnessCure #MedicalBreakthrough #ChildHealth #VisionRestoration #LCA #ScienceNews #HopeForTheFuture
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  • Scientists at Newcastle University have developed a groundbreaking method to 3D-print human corneas using a unique bio-ink composed of stem cells, collagen, and alginate. The technique takes less than 10 minutes per cornea and can be precisely tailored to fit each patient’s eye.

    With over 10 million people worldwide in need of corneal transplants, this innovation could dramatically reduce transplant wait times and restore vision to millions suffering from corneal blindness or injury.

    The Future of Eye Care
    These 3D-printed corneas offer a scalable and ethical solution to donor shortages, paving the way for personalized, on-demand eye care and regenerative medicine.

    #3DPrinting #MedicalBreakthrough #BlindnessCure #CornealTransplant #RegenerativeMedicine
    Scientists at Newcastle University have developed a groundbreaking method to 3D-print human corneas using a unique bio-ink composed of stem cells, collagen, and alginate. The technique takes less than 10 minutes per cornea and can be precisely tailored to fit each patient’s eye. With over 10 million people worldwide in need of corneal transplants, this innovation could dramatically reduce transplant wait times and restore vision to millions suffering from corneal blindness or injury. The Future of Eye Care These 3D-printed corneas offer a scalable and ethical solution to donor shortages, paving the way for personalized, on-demand eye care and regenerative medicine. #3DPrinting #MedicalBreakthrough #BlindnessCure #CornealTransplant #RegenerativeMedicine
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