Enhancement of Optical Coherence Tomography for Early Diagnostics Through Ag-Decorated ZnO Quantum Dots-Induced Motion Analysis

Abstract

Optical Coherence Tomography (OCT) stands as a pivotal imaging modality in medical diagnostics, providing intricate insights into microstructural alterations within biological tissues. This research delves into the augmentative impact of nanostructures on OCT, with a specific emphasis on their potential applications in early diagnostic scenarios. The article introduces a novel composite material, Silver-Zinc Oxide (Ag-ZnO) nano-structures, synthesized through the amalgamation of zinc oxide (ZnO) quantum dots and silver (Ag) particles. The study scrutinizes the enhancement effect of these nanostructures on the depth imaging capability and diagnostic precision of OCT. Employing the finite difference time domain method, the research simulates and calculates the extinction spectrum enhancement effect of Ag-ZnO quantum dots in OCT. Comparative analyses are conducted to evaluate the effectiveness and diagnostic accuracy of OCT imaging when enhanced with Ag-ZnO quantum dots against Magnetic Resonance Imaging (MRI) technology. The outcomes manifest a noteworthy improvement in diagnostic accuracy with the integration of Ag-ZnO quantum dots in OCT, underscoring their efficacy in heightening imaging depth and diagnostic precision for early diagnostic applications. This study not only accentuates the pivotal role played by quantum dots in amplifying the capabilities of OCT but also paves the way for the advancement of sophisticated diagnostic tools within the realm of medical imaging.