Magnetization transfer (MT) has recently become popular a means to improve contrast in in vivoMRI by demonstra-ting transfer of magnetization between the macromolecular compound and the surrounding free water in a tissue. Use of this technique has been reported in imaging of several parts of the human body, including knee, liver, leg, breast, heart, and brain. In particular, published T1-weighted images based on magnetization trans-fer contrast (MTC) at 1.5 T have shown hyperintensity in areas such as the substantia nigra, putamen, and globus pallidus known to be rich in iron, and the question has been posed whether MTC can be used to improve MRI localiza- tion and quantitation of brain iron.
Lack of magnetization transfer from the ferritin molecule
Salustri C
1996
Abstract
Magnetization transfer (MT) has recently become popular a means to improve contrast in in vivoMRI by demonstra-ting transfer of magnetization between the macromolecular compound and the surrounding free water in a tissue. Use of this technique has been reported in imaging of several parts of the human body, including knee, liver, leg, breast, heart, and brain. In particular, published T1-weighted images based on magnetization trans-fer contrast (MTC) at 1.5 T have shown hyperintensity in areas such as the substantia nigra, putamen, and globus pallidus known to be rich in iron, and the question has been posed whether MTC can be used to improve MRI localiza- tion and quantitation of brain iron.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
