QUANTUM DOTS AND MAGNETIC NANOPARTICLES FOR EARLY DISEASE DETECTION

Authors

  • Alfa Zanib Malik Department of Chemistry, Faculty of Physical Science, Government College University, Faisalabad-38000, Pakistan Author
  • Maloof Fatima Malik Department of Chemistry, Faculty of Physical Science, Government College University, Faisalabad-38000, Pakistan Author
  • Qurat-ul-ain First Laboratory Specialist, Private Engineering Office(PEO), Doha, Qatar Author
  • Amna Abrar Department of Chemistry, School of Science, Tianjin Key Laboratory of Molecular Optoelectronic Science, Tianjin University, Tianjin 300072, China Author
  • Ali Asgher Shuja Department of Basic Medical Sciences, Faculty of Pharmacy, Salim Habib University, Karachi, Pakistan Author
  • Muhammad Salman Khalid Department of Biomedical Engineering and Sciences, School of Mechanical and Manufacturing Engineering, National University of Sciences and Technology, Punjab Pakistan Author
  • Dr. Zara Khalid Khan Department of Biochemistry, Rawal Institute of Health Sciences, Islamabad, Pakistan Author
  • Usman Asghar Department of Chemical Engineering, University of Wah, Wah Cantonment, 47010 Author
  • Syed Farhan Ali Shah Center for Advanced Studies in Physics, Government College University Lahore, Pakistan Author

DOI:

https://doi.org/10.62019/bmgw9991

Keywords:

Quantum dots, Magnetic Nanoparticles, Early Disease Detection, Biomarker, Nano Diagnostics, Fluorescence, Magnetic Separation

Abstract

In order to improve treatment outcomes and lower healthcare costs, early disease detection is essential. However, traditional diagnostic techniques frequently lack the sensitivity, speed, and multiplexing capabilities needed for prompt intervention. By creating a hybrid nanodiagnostic platform that combines the magnetic capabilities of superparamagnetic iron oxide nanoparticles (SPIONs) with the fluorescent qualities of quantum dots (QDs), this work overcomes these constraints. To target clinically significant protein and nucleic acid biomarkers, such as prostate-specific antigen (PSA), alpha-fetoprotein (AFP), HER2/neu, KRAS mutations, and miRNA-21, cadmium selenide/zinc sulfide (CdSe/ZnS) QDs and functionalized SPIONs were created and conjugated.By combining magnetic prosperity and fluorescence-based quantification, the platform allowed dual-mode detection, resulting in remarkably high sensitivity, with detection limits as low as 5 pM for proteins and 10 copies per reaction for nucleic acids. High specificity, low nonspecific binding, and effective biomarker localization were shown during validation using ex vivo human tissue samples and in vitro cell lines (MCF-7, HeLa, HepG2, LNCaP). Superior performance over conventional techniques such as PCR and ELISA was found through comparative analysis; these techniques offered improved signal-to-noise ratios, multiplexing capabilities, and faster results (less than two hours). TEM, HR-TEM, UV-Vis, FTIR, and XRD characterization methods confirmed the nanoparticles' successful functionalization, structural integrity, and crystallinity. The platform's potential as a flexible, quick, and sensitive diagnostic tool for early disease detection is highlighted in this study, opening the door for enhanced clinical results.

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Published

2025-06-12

Issue

Vol. 2 No. 2 (2025): Journal of Medical & Health Sciences Review

Section

Articles

How to Cite

QUANTUM DOTS AND MAGNETIC NANOPARTICLES FOR EARLY DISEASE DETECTION. (2025). Journal of Medical & Health Sciences Review, 2(2). https://doi.org/10.62019/bmgw9991

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