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Beilstein J. Nanotechnol. 2023, 14, 804–818, doi:10.3762/bjnano.14.66
Figure 1: TEM image of NLC-BNZ.
Figure 2: DSC thermograms of BNZ, myristyl myristate, poloxamer 188, NLC VEHICLE, and NLC-BNZ.
Figure 3: Thermogravimetric (A) and derivative thermogravimetric (B) curves of BNZ, myristyl myristate, polox...
Figure 4: ATR-FTIR spectra of BNZ, myristyl myristate, poloxamer 188, NLC VEHICLE, and NLC-BNZ.
Figure 5: WAXS patterns for BNZ, myristyl myristate, poloxamer 188, NLC-VEHICLE, and NLC-BNZ.
Figure 6: SAXS patterns for samples with myristyl myristate in their composition.
Figure 7: Lorentz/Kratky plot for SAXS patterns of NLC-VEHICLE (continuous line) and NLC-BNZ (dashed line). T...
Figure 8: In vitro release profile of free BNZ and NLC-BNZ for 24 hours. The inset graph shows the release pr...
Figure 9: Followed-up of relevant physical parameters of the formulation for up to six months to test its sta...
Figure 10: Cell cytotoxicity in CHO cells treated with free BNZ, NLC-VEHICLE, and NLC-BNZ.
Figure 11: Hemolytic activity (%) of BNZ, NLC-VEHICLE, and NLC-BNZ at three different concentrations. * = p < ...
Figure 12: Dose-response effect of BNZ, NLC-BNZ, and NLC-VEHICLE (empty, non-loaded with BNZ) on T. cruzi tryp...