OBJECTIVES: The aim of this study was to compare testicular metabolite concentrations between fertile control subjects and infertile men. MATERIALS AND METHODS: Single voxel proton magnetic resonance spectroscopy (H-MRS) was performed in the testes with and without water suppression at 3 T in 9 fertile control subjects and 9 infertile patients (8 with azoospermia and 1 with oligospermia). In controls only, the T1 and T2 values of water and metabolites were also measured. Absolute metabolite concentrations were calculated using the unsuppressed water signal as a reference and correcting for the relative T1 and T2 weighting of the water and metabolite signals. RESULTS: Testicular T1 values of water, total choline, and total creatine were 2028 ± 125 milliseconds, 1164 ± 105 milliseconds, and 1421 ± 314 milliseconds, respectively (mean ± standard deviation). T2 values were 154 ± 11 milliseconds, 342 ± 53 milliseconds, and 285 ± 167 milliseconds, respectively. Total choline concentration was lower in patients (mean, 1.5 mmol/L; range, 0.9-2.1 mmol/L) than controls (mean, 4.4 mmol/L; range, 3.2-5.7 mmol/L; P = 4 × 10). Total creatine concentration was likewise reduced in patients (mean, 1.1 mmol/L; range, undetectable -2.7 mmol/L) compared with controls (mean, 3.6 mmol/L; range, 2.5-4.7 mmol/L; P = 1.6 × 10). The myo-inositol signal normalized to the water reference was also lower in patients than controls (P = 4 × 10). CONCLUSIONS: Testicular metabolite concentrations, measured by proton spectroscopy at 3 T, may be valuable as noninvasive biomarkers of spermatogenesis.
OBJECTIVES: The aim of this study was to compare testicular metabolite concentrations between fertile control subjects and infertilemen. MATERIALS AND METHODS: Single voxel proton magnetic resonance spectroscopy (H-MRS) was performed in the testes with and without water suppression at 3 T in 9 fertile control subjects and 9 infertilepatients (8 with azoospermia and 1 with oligospermia). In controls only, the T1 and T2 values of water and metabolites were also measured. Absolute metabolite concentrations were calculated using the unsuppressed water signal as a reference and correcting for the relative T1 and T2 weighting of the water and metabolite signals. RESULTS: Testicular T1 values of water, total choline, and total creatine were 2028 ± 125 milliseconds, 1164 ± 105 milliseconds, and 1421 ± 314 milliseconds, respectively (mean ± standard deviation). T2 values were 154 ± 11 milliseconds, 342 ± 53 milliseconds, and 285 ± 167 milliseconds, respectively. Total choline concentration was lower in patients (mean, 1.5 mmol/L; range, 0.9-2.1 mmol/L) than controls (mean, 4.4 mmol/L; range, 3.2-5.7 mmol/L; P = 4 × 10). Total creatine concentration was likewise reduced in patients (mean, 1.1 mmol/L; range, undetectable -2.7 mmol/L) compared with controls (mean, 3.6 mmol/L; range, 2.5-4.7 mmol/L; P = 1.6 × 10). The myo-inositol signal normalized to the water reference was also lower in patients than controls (P = 4 × 10). CONCLUSIONS: Testicular metabolite concentrations, measured by proton spectroscopy at 3 T, may be valuable as noninvasive biomarkers of spermatogenesis.
Authors: Martin Wilson; Greg Reynolds; Risto A Kauppinen; Theodoros N Arvanitis; Andrew C Peet Journal: Magn Reson Med Date: 2011-01 Impact factor: 4.668
Authors: Ahmet Kemal Firat; Murat Uğraş; Hakki M Karakaş; Gülnur Erdem; Meltem Kurus; Meltem Ugras; Tayfun Celik; Bayram Kahraman; Selim Doğanay Journal: Magn Reson Imaging Date: 2007-08-28 Impact factor: 2.546
Authors: Alexandra Ntorkou; Athina C Tsili; Loukas Astrakas; Anna Goussia; Eleni Panopoulou; Nikolaos Sofikitis; Maria I Argyropoulou Journal: Eur Radiol Date: 2020-03-30 Impact factor: 5.315