Functional near-infrared fluorescence nanoparticles and preparation and application thereof
A fluorescent nano and near-infrared technology, applied in the field of nano-near-infrared fluorescent materials, can solve the problems of inactive groups, low fluorescence intensity, weak photostability, etc. Ease of disintegration
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Embodiment 1
[0033] Preparation method of near-infrared fluorescent nanoparticles:
[0034] (1) Indocyanine Green (ICG) - chitosan (CA) electrostatic binding
[0035] Add ICG to 0.1M HAc / NaAc buffer solution (pH4.2), prepare 1mg / mL ICG solution, and remove a small amount of insoluble matter through 0.22μm filter membrane to obtain a solution. Use HAc / NaAc buffer solution (0.1M, pH 4.2) to prepare 5mg / mL chitosan solution, figure 1 It is the gel exclusion chromatography result of CA, and its molecular weight is calculated as 25.5kDa based on the standard curve obtained from the standard dextran, and it is treated with a 0.22μm filter membrane to obtain a solution. In the state of magnetic stirring, 50 μL of ICG solution was dropped into 2 mL of chitosan solution through a liquid inlet pump at a constant speed to prepare an ICG-CA electrostatic binding solution.
[0036](2) Preparation of indocyanine green (ICG)-chitosan (CA)-sodium polyphosphate (STPP) nanoparticles
[0037] Add sodium p...
Embodiment 2
[0041] Characterization of ICG-CA-STPP-ALG near-infrared fluorescent nanoparticles:
[0042] (1) Shape and size of ICG-CA-STPP-ALG near-infrared fluorescent nanoparticles
[0043] figure 2 It is a transmission electron microscope photo of ICG-CA-STPP-ALG near-infrared fluorescent nanoparticles. The results show that indocyanine green can form nanoparticles after being electrostatically wrapped by nanocarriers such as chitosan and sodium alginate, and the dispersion between nanoparticles Good performance, little condensation occurs. image 3 It is the particle size distribution of ICG-CA-STPP-ALG near-infrared fluorescent nanoparticles observed by electron microscope, and the statistical analysis results show that the particle size distribution of the nanoparticles is ~9nm. The particle size can be controlled by adjusting the ratio of CA to STPP, CA concentration, stirring speed, pump speed, etc.
[0044] (2) Effect of different concentrations of NaCl on the particle size o...
Embodiment 3
[0051] Imaging of mice using ICG-CA-STPP-ALG near-infrared fluorescent nanoparticles: After the mice were anesthetized with anesthesia, 7.5 μl / g of body weight of ICG was injected into the tail vein of the mice at a concentration of (83 μg / mL) ICG-CA -STPP-ALG near-infrared fluorescent nanoparticles, using a small animal in vivo imaging system to perform fluorescence imaging under the excitation of 770nm excitation light, the fluorescence imaging conditions are 780nm-950nm, the step size is 10nm, and the exposure time is 400ms. Figure 7 The left column is the fluorescence imaging images of nude mice at different time points after injection of free ICG, and the right column is the fluorescence imaging images of nude mice at different time points after injection of ICG-CA-STPP-ALG nanoparticles. It can be seen from the results that after 1 minute of injection of ICG-CA-STPP-ALG near-infrared fluorescent nanoparticles, the surface skin of the mouse emitted a stronger fluorescent ...
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