Add to ORKGPrevious studies have shown, that the inclusion of a macromolecular baseline in the basis set for fitting can influence the quantification 1,2, while other studies have shown the possible clinical relevance of macromolecules (MM) in clinical diagnostics 3. Hence, a characterization of MMs is of crucial importance 4, and knowing the apparent T2 (2ρ) relaxation times can lead to a better understanding of these MMs
Proton MR spectra of the brain, especially those measured at short and intermediate echo times, cont...
The broad resonances underlying the entire (1) H NMR spectrum of the brain, ascribed to macromolecul...
Proton MR spectra of the brain, especially those measured at short and intermediate echo times, cont...
This work reports the apparent T2 relaxation times of macromolecules measured at 9.4 T in the human ...
PURPOSE: Relaxation times can contribute to spectral assignment. In this study, effective T2 relaxat...
In order to determine the T1 relaxation times of the metabolites in human brain including the ones t...
Purpose: Macromolecular peaks underlying metabolite spectra influence the quantification of metaboli...
Purpose: Ultrahigh field MRS has improved characterization of the neurochemical profile. To compare ...
Purpose/Introduction: For the absolute quantification1 of metabolites, appropriate T2 relaxation tim...
Purpose Reliable detection and fitting of macromolecules (MM) are crucial for accurate quantificatio...
T2 relaxations times for the downfield metabolites in human brain 1H MR spectra were estimated at 9....
The determination of accurate transverse (T2) relaxation times for brain metabolites is essential fo...
Macromolecular signals are crucial constituents of short echo-time 1 H MR spectra with potential cli...
The precise assessment of transverse relaxation time constant T2 of brain metabolites is a prerequis...
Purpose: The transverse relaxation times T2 of 17 metabolites in vivo at 3T is reported and region s...
Proton MR spectra of the brain, especially those measured at short and intermediate echo times, cont...
The broad resonances underlying the entire (1) H NMR spectrum of the brain, ascribed to macromolecul...
Proton MR spectra of the brain, especially those measured at short and intermediate echo times, cont...
This work reports the apparent T2 relaxation times of macromolecules measured at 9.4 T in the human ...
PURPOSE: Relaxation times can contribute to spectral assignment. In this study, effective T2 relaxat...
In order to determine the T1 relaxation times of the metabolites in human brain including the ones t...
Purpose: Macromolecular peaks underlying metabolite spectra influence the quantification of metaboli...
Purpose: Ultrahigh field MRS has improved characterization of the neurochemical profile. To compare ...
Purpose/Introduction: For the absolute quantification1 of metabolites, appropriate T2 relaxation tim...
Purpose Reliable detection and fitting of macromolecules (MM) are crucial for accurate quantificatio...
T2 relaxations times for the downfield metabolites in human brain 1H MR spectra were estimated at 9....
The determination of accurate transverse (T2) relaxation times for brain metabolites is essential fo...
Macromolecular signals are crucial constituents of short echo-time 1 H MR spectra with potential cli...
The precise assessment of transverse relaxation time constant T2 of brain metabolites is a prerequis...
Purpose: The transverse relaxation times T2 of 17 metabolites in vivo at 3T is reported and region s...
Proton MR spectra of the brain, especially those measured at short and intermediate echo times, cont...
The broad resonances underlying the entire (1) H NMR spectrum of the brain, ascribed to macromolecul...
Proton MR spectra of the brain, especially those measured at short and intermediate echo times, cont...