Magnetic Nanoparticles in Human Health and Medicine. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Химия
Год издания: 0
isbn: 9781119754749
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images. However, in the presence of a liver tumor, deficient phagocytic activity will be highlighted as a bright spot because MNPs do not accumulate in the tumor cells. Based on the same mechanism, normal lymph nodes will become dark in T2‐weighted images, and the lymph nodes produced by the metastasis will remain white and will be easily identified in the MRI pictures (Figures 2.2 and 2.3) (Motomura et al. 2011).

Schematic illustration of (a) CT lymphography demonstrated a sentinel node (arrow). (b) The corresponding node was identified on T2 asterisk-weighted axial MR imaging (arrow). (c) After the administration of SPIO, the node showed strong SPIO enhancement and was diagnosed as benign (arrow). (d) Histologic findings confirmed it as benign.

      Source: Reproduced with permission from Motomura et al. (2011). Copyright © 2011, Springer Nature DOI‐https://doi.org/10.1245/s10434‐011‐1710‐7.

Schematic illustrations of (a) CT lymphography demonstrated a sentinel node (arrow). (b) The corresponding node was identified on T2 asterisk-weighted axial MR imaging (arrow). (c) After the administration of SPIO, the node showed no SPIO enhancement and was diagnosed as malignant (arrow). (d) Histologic findings confirmed it as malignant.

      Source: Reproduced with permission from Motomura et al. (2011). Copyright © 2011, Springer Nature. DOI‐https://doi.org/10.1245/s10434‐011‐1710‐7.

      The development of a nanoplatform able to create dual T1T2 contrast agents would represent a great advancement for medical applications of MNPs. This implies to create a CA with a high r1 but, in the same time, with a low ratio r2/r1 (close to 1) (Blanco‐Andujar et al. 2016). Several strategies have been tested so far: doping the MNPs with T1 ions, attaching T1 ions on the surface of MNPs, and elaboration of core‐shell nanostructures having a r2/r1 ratio close to 1 but with the cost of a low r2 (Xiao et al. 2014). Core@shell structures led to MNPs with higher r2 values, especially if the distance between the core and the shell is increased by adding a nonmagnetic layer (SiO2). Recent studies show that, in a case of a dual core@shell nanostructure, by increasing the thickness of the nonmagnetic layer, the r2/r1 ratio decreased. Very interestingly, the r2 was quite high, reaching a value of 312 m M−1 s−1 (Yang et al. 2015a). This finding demonstrates the huge potential of these nanostructures in MRI applications.

      2.2.2 Magnetic Particle Imaging (MPI)

      MRI cell‐tracking applications and inflammation response characterization by using MNPs might be replaced soon by a novel emerging technique called Magnetic Particle Imaging (MPI) (Gleich and Weizenecker 2005). As it was stated before, the use of MNPs in MRI does have several drawbacks worth mentioning. Arguably, the most relevant is their rapid elimination from the bloodstream by MPS, hampering their use as more specific targeting agents. The negative contrast they produce is often masking the underlying anatomical tissue structure. Concurrently, the presence of different endogenous sources of contrast such as hemorrhage, air tissue interfaces, and magnetic field imperfections may lead to artefactual images. Because the contrast is produced by the change in the relaxation time of the protons, which in turn is inextricably connected to MNPs concentration, a reliable quantification of their concentration is difficult. Some of these restrictions are eliminated in MPI.