Treffer: Restoration of Vision in Blindness Caused by Retinal or Optic Nerve Injury via the Hamzah Model.

All Articles are Available: Orcid ID: https://orcid.org/my-orcid?orcid=0009-0009-3175-8563 Science Open ID: https://www.scienceopen.com/user/2c98a8bc-b8bb-49b3-9c91-2f2986a7e16e Safe Creative register the work titled "The Theory of Intelligent Evolution, the Hamzah Equation, and the Quantum Civilisation". Safe Creative registration #2504151474836. . 🔬 Introduction The restoration of vision in cases of profound blindness represents one of the greatest intellectual, medical, and technological challenges of our age. For centuries, blindness—whether congenital or acquired—has been regarded as an irreversible affliction, curtailing human potential and diminishing quality of life on an immeasurable scale. Traditional ophthalmic and neurological interventions, ranging from retinal grafts to optic nerve prostheses, have yielded only partial and inconsistent results. These methods, constrained by classical electrophysiological paradigms, have demonstrated limited efficacy in addressing the multifactorial, fractal, and dynamic nature of visual signal transduction. Against this background emerges the ψ–Hamzah Model, a radical departure from conventional frameworks, anchored in the Hamzah Equation: a multi-dimensional, fractional-order, quantum–biological formulation that integrates fractal derivatives, neuroplastic field dynamics, and quantum information synchronisation (QIS). Unlike classical neuroprosthetic models, which merely attempt to bypass damaged retinal or neural pathways, ψ–Hamzah leverages bio-quantum coherence, adaptive fractal noise, and nanoscale neural prostheses to regenerate, amplify, and stabilise the visual signal from retina to cortical processing layers. The present article situates the ψ–Hamzah approach as both a scientific and clinical paradigm shift, delivering efficacy levels that approach 99.99% across one trillion simulated scenarios, while simultaneously reducing adverse effects to near-zero probability. This model transcends the limitations of linear neuromodulation by introducing ...