In an article, author is Xia, Xuejian, once mentioned the application of 3493-12-7, COA of Formula: C6H14ClNO2S, Name is DL-Methionine Methylsulfonium Chloride, molecular formula is C6H14ClNO2S, molecular weight is 199.7, MDL number is MFCD00031700, category is amides-buliding-blocks. Now introduce a scientific discovery about this category.
R1 rho sensitivity to pH and other compounds at clinically accessible spin-lock fields in the presence of proteins
Numerous human diseases involve abnormal metabolism, and proton exchange is an effective source of magnetic resonance imaging (MRI) contrast for assessing metabolism. One MRI technique that capitalizes on proton exchange is R-1 relaxation in the rotating frame (R-1 rho). Here, we investigated the sensitivity of R-1 rho to various proton-exchange mechanisms at spin-lock pulses within Food and Drug Administration (FDA) safety guidelines for radiofrequency-induced heating. We systematically varied pH known to change the rate of proton exchange as well as the glucose and lysine concentrations, thus changing the number of amide, hydroxyl and amine exchangeable sites in a series of egg-white albumin phantoms. The resulting effects on quantitative relaxation time measurements of R-1 rho, R-1 and R-2 were observed at 3 T. Using spin-lock amplitudes available for human imaging (less than 23.5 mu T) at near physiologic temperatures, we found R-1 rho was more sensitive to physiologic changes in pH than to changes in glucose and lysine concentrations. In addition, R-1 rho was more sensitive to pH changes than R-1 and R-2. Models of proton exchange fitted to the relaxation measurements suggest that amide groups were the primary source of pH sensitivity. Together, these experiments suggest an optimal spin-lock amplitude for measuring pH changes while not exceeding FDA-subject heating limitations.
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