PURPOSE: To obtain robust estimates of (31) P metabolite content in mouse skeletal muscles using our recently developed MR absolute quantification method and a custom-built (1) H/(31) P dual tuned radiofrequency (RF) coil optimized for mouse leg. MATERIALS AND METHODS: We designed and fabricated a probe consisting of two dual tuned (1) H/(31) P solenoid coils: one leg was inserted to each solenoid. The mouse leg volume coil was incorporated with injector coils for MR absolute quantification. The absolute quantification method uses a synthetic reference signal injection approach and solves several challenges in MR absolute quantification including changes of coil loading and receiver gains. RESULTS: The (1) H/(31) P dual tuned probe was composed of two separate solenoid coils, one for each leg, to increase coil filling factors and signal-to-noise ratio. Each solenoid was equipped with a second coil to allow injection of reference signals. (31) P metabolite concentrations determined for normal mice were well within the expected range reported in the literature. CONCLUSION: We developed an RF probe and an absolute quantification approach adapted for mouse skeletal muscle.
PURPOSE: To obtain robust estimates of (31) P metabolite content in mouse skeletal muscles using our recently developed MR absolute quantification method and a custom-built (1) H/(31) P dual tuned radiofrequency (RF) coil optimized for mouse leg. MATERIALS AND METHODS: We designed and fabricated a probe consisting of two dual tuned (1) H/(31) P solenoid coils: one leg was inserted to each solenoid. The mouse leg volume coil was incorporated with injector coils for MR absolute quantification. The absolute quantification method uses a synthetic reference signal injection approach and solves several challenges in MR absolute quantification including changes of coil loading and receiver gains. RESULTS: The (1) H/(31) P dual tuned probe was composed of two separate solenoid coils, one for each leg, to increase coil filling factors and signal-to-noise ratio. Each solenoid was equipped with a second coil to allow injection of reference signals. (31) P metabolite concentrations determined for normal mice were well within the expected range reported in the literature. CONCLUSION: We developed an RF probe and an absolute quantification approach adapted for mouse skeletal muscle.
Authors: A E Deconinck; J A Rafael; J A Skinner; S C Brown; A C Potter; L Metzinger; D J Watt; J G Dickson; J M Tinsley; K E Davies Journal: Cell Date: 1997-08-22 Impact factor: 41.582
Authors: David J Marcinek; Wayne A Ciesielski; Kevin E Conley; Kenneth A Schenkman Journal: Am J Physiol Heart Circ Physiol Date: 2003-05-29 Impact factor: 4.733
Authors: Kenneth I Marro; Donghoon Lee; Eric G Shankland; Clinton M Mathis; Cecil E Hayes; Catherine E Amara; Martin J Kushmerick Journal: J Magn Reson Date: 2008-07-01 Impact factor: 2.229
Authors: E Salinero-Paniagua; A Esteban-García; A Traba; E Palencia-Herrejón; C Garzo-Fernández; J Prieto-Montalvo Journal: Rev Neurol Date: 2004 Nov 1-15 Impact factor: 0.870
Authors: Kenneth I Marro; Donghoon Lee; Eric G Shankland; C Mark Mathis; Cecil E Hayes; Seth D Friedman; Martin J Kushmerick Journal: PLoS One Date: 2010-12-28 Impact factor: 3.240