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Quantification of in vivo pH-weighted amide proton transfer (APT) MRI in acute ischemic stroke
Zhou, Iris Y ; Igarashi, Takahiro ; Guo, Yingkun ; Sun, Phillip Z Gimi, Barjor ; Molthen, Robert C
SPIE 2015
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Título:
Quantification of in vivo pH-weighted amide proton transfer (APT) MRI in acute ischemic stroke
Autor:
Zhou, Iris Y
;
Igarashi, Takahiro
;
Guo, Yingkun
;
Sun, Phillip Z
Gimi, Barjor
;
Molthen, Robert C
Notas:
Conference Date: 2015-02-21|2015-02-26
Conference Location: Orlando, Florida, United States
Descrição:
Amide proton transfer (APT) imaging is a specific form of chemical exchange saturation transfer (CEST) MRI that probes the pH-dependent amide proton exchange.The endogenous APT MRI is sensitive to tissue acidosis, which may complement the commonly used perfusion and diffusion scans for characterizing heterogeneous ischemic tissue damage. Whereas the saturation transfer asymmetry analysis (MTRasym) may reasonably compensate for direct RF saturation, in vivo MTRasym is however, susceptible to an intrinsically asymmetric shift (MTR’asym). Specifically, the reference scan for the endogenous APT MRI is 7 ppm upfield from that of the label scan, and subjects to concomitant RF irradiation effects, including nuclear overhauser effect (NOE)-mediated saturation transfer and semisolid macromolecular magnetization transfer. As such, the commonly used asymmetry analysis could not fully compensate for such slightly asymmetric concomitant RF irradiation effects, and MTRasym has to be delineated in order to properly characterize the pH-weighted APT MRI contrast. Given that there is very little change in relaxation time immediately after ischemia and the concomitant RF irradiation effects only minimally depends on pH, the APT contrast can be obtained as the difference of MTRasym between the normal and ischemic regions. Thereby, the endogenous amide proton concentration and exchange rate can be solved using a dual 2-pool model, and the in vivo MTR’asym can be calculated by subtracting the solved APT contrast from asymmetry analysis (i.e., MTR’asym =MTRasym-APTR). In addition, MTR’asym can be quantified using the classical 2-pool exchange model. In sum, our study delineated the conventional in vivo pH-sensitive MTRasym contrast so that pHspecific contrast can be obtained for imaging ischemic tissue acidosis.
Editor:
SPIE
Data de criação/publicação:
2015
Idioma:
Inglês
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