(23)Na Magnetic Resonance Imaging of the Lower Leg of Acute Heart Failure Patients during Diuretic Treatment

OBJECTIVE: Na(+) can be stored in muscle and skin without commensurate water accumulation. The aim of this study was to assess Na(+) and H(2)O in muscle and skin with MRI in acute heart failure patients before and after diuretic treatment and in a healthy cohort. METHODS: Nine patients (mean age 78 years; range 58–87) and nine age and gender-matched controls were studied. They underwent (23)Na/(1)H-MRI at the calf with a custom-made knee coil. Patients were studied before and after diuretic therapy. (23)Na-MRI gray-scale measurements of Na(+)-phantoms served to quantify Na(+)-concentrations. A fat-suppressed inversion recovery sequence was used to quantify H(2)O content. RESULTS: Plasma Na(+)-levels did not change during therapy. Mean Na(+)-concentrations in muscle and skin decreased after furosemide therapy (before therapy: 30.7±6.4 and 43.5±14.5 mmol/L; after therapy: 24.2±6.1 and 32.2±12.0 mmol/L; p˂0.05 and p˂0.01). Water content measurements did not differ significantly before and after furosemide therapy in muscle (p = 0.17) and only tended to be reduced in skin (p = 0.06). Na(+)-concentrations in calf muscle and skin of patients before and after diuretic therapy were significantly higher than in healthy subjects (18.3±2.5 and 21.1±2.3 mmol/L). CONCLUSIONS: (23)Na-MRI shows accumulation of Na(+) in muscle and skin in patients with acute heart failure. Diuretic treatment can mobilize this Na(+)-deposition; however, contrary to expectations, water and Na(+)-mobilization are poorly correlated.