التفاصيل البيبلوغرافية
| العنوان: |
Advancing fluorescence imaging: enhanced control of cyanine dye-doped silica nanoparticles. |
| المؤلفون: |
Son, Taewoong1,2 (AUTHOR), Kim, Minseo3,4 (AUTHOR), Choi, Minsuk3 (AUTHOR), Nam, Sang Hwan3 (AUTHOR), Yoo, Ara1 (AUTHOR), Lee, Hyunseung1 (AUTHOR), Han, Eun Hee1,5 (AUTHOR), Hong, Kwan Soo1,2,6 (AUTHOR) kshong@kbsi.re.kr, Park, Hye Sun1 (AUTHOR) hspark@kbsi.re.kr |
| المصدر: |
Journal of Nanobiotechnology. 6/19/2024, Vol. 22 Issue 1, p1-14. 14p. |
| مصطلحات موضوعية: |
*CYANINES, *SILICA nanoparticles, *FLUORESCENCE, *TARGETED drug delivery, *SURFACE charges, *FLUORESCENCE spectroscopy |
| مستخلص: |
Background: Silica nanoparticles (SNPs) have immense potential in biomedical research, particularly in drug delivery and imaging applications, owing to their stability and minimal interactions with biological entities such as tissues or cells. Results: With synthesized and characterized cyanine-dye-doped fluorescent SNPs (CSNPs) using cyanine 3.5, 5.5, and 7 (Cy3.5, Cy5.5, and Cy7). Through systematic analysis, we discerned variations in the surface charge and fluorescence properties of the nanoparticles contingent on the encapsulated dye-(3-aminopropyl)triethoxysilane conjugate, while their size and shape remained constant. The fluorescence emission spectra exhibited a redshift correlated with increasing dye concentration, which was attributed to cascade energy transfer and self-quenching effects. Additionally, the fluorescence signal intensity showed a linear relationship with the particle concentration, particularly at lower dye equivalents, indicating a robust performance suitable for imaging applications. In vitro assessments revealed negligible cytotoxicity and efficient cellular uptake of the nanoparticles, enabling long-term tracking and imaging. Validation through in vivo imaging in mice underscored the versatility and efficacy of CSNPs, showing single-switching imaging capabilities and linear signal enhancement within subcutaneous tissue environment. Conclusions: This study provides valuable insights for designing fluorescence imaging and optimizing nanoparticle-based applications in biomedical research, with potential implications for targeted drug delivery and in vivo imaging of tissue structures and organs. [ABSTRACT FROM AUTHOR] |
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