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Beilstein J. Nanotechnol. 2023, 14, 1028–1040, doi:10.3762/bjnano.14.85
Figure 1: Leukocyte subpopulations, DNA-stained, FITC-tagged anti-CD14 AB (for better readability, all captio...
Figure 2: (a) Reduction of normalized MFI (%) by pre-feeding cells with unlabeled E. coli; antibody blockade ...
Figure 3: Effect of blockade of CD14, CD33, CD163, and CD204 on HbMP uptake by monocytes; N = 3.
Figure 4: Non-interference of utilized antibodies with the uptake of FITC-tagged E. coli; N = 3.
Figure 5: Different uptake of untagged E. coli (39.8 ± 11.4%) vs HbMP (30′: 51.9 ± 6.0%; 120′: 47.1 ± 5.1%) b...
Figure 6: Phagocytosis of PMMA-FluoroGreen-COOH-MP diameter between 0.4 and 2.1 µm by monocytes and granulocy...
Figure 7: The confocal laser scanning microscopy image showing the uptake of FITC-labeled MPs (green) after i...
Beilstein J. Nanotechnol. 2022, 13, 114–126, doi:10.3762/bjnano.13.8
Figure 1: Microscopic images of HbMP. (A, D) SEM images of dried and adherent particles after precipitation w...
Figure 2: Effect of glutaraldehyde on bacterial growth of E. coli and S. epidermidis. E. coli (A) and S. epid...
Figure 3: Concentration of free hemoglobin in the supernatant of HbMP suspensions. Measuring points are means...
Figure 4: Effect of EDTA on bacterial growth of E. coli and S. epidermidis. E. coli (A) and S. epidermidis (B...
Figure 5: Effect of a combination of glutaraldehyde and EDTA on E. coli and S. epidermidis. E. coli (A) and S...
Figure 6: Simplified scheme of the experimental approach. The solution containing hemoglobin and MnCl2 was sp...
Figure 7: Particle preparation with E. coli and S. epidermidis. The solution containing hemoglobin and MnCl2 ...