Abstract
BACKGROUND: Hypochloremia associated with congestive heart failure (CHF) in dogs is likely multifactorial. Loop diuretics cause 1:2 sodium [Na(+) ]:chloride [Cl(-) ] loss, whereas water retention causes a 1:1 [Na(+) ]:[Cl(-) ] dilution. Mathematical [Cl(-) ] correction separates these effects on [Cl(-) ]. HYPOTHESIS: We hypothesized that corrected [Cl(-) ] (c[Cl(-) ]) would not differ from measured [Cl(-) ] (m[Cl(-) ]) in dogs with controlled CHF because of loop diuretics, and dogs with refractory CHF would have higher c[Cl(-) ] than m[Cl(-) ], indicating relative water excess. ANIMALS: Seventy-one client-owned dogs with acquired heart disease, without CHF (NO-CHF), 76 with Stage C CHF and 24 with Stage D CHF. METHODS: Clinicopathological data from a previous study were retrospectively analyzed. Corrected [Cl(-) ], m[Cl(-) ], and differences were compared among NO-CHF, Stage C CHF, and Stage D CHF, using the formula: c[Cl(-) ] = (mid-reference range [Na(+) ]/measured [Na(+) ]) × m[Cl(-) ]. RESULTS: Corrected [Cl(-) ] and m[Cl(-) ] were lower in Stage D vs Stage C and NO-CHF (all P < .0001). The c[Cl(-) ] was higher than m[Cl(-) ] in Stage D (P < .0001) but not Stage C or NO-CHF. Median difference between c[Cl(-) ] and m[Cl(-) ] was higher for Stage D vs Stage C (P = .0003). No hypochloremic Stage D dogs had normal c[Cl(-) ], but 11/24 had [Cl(-) ] that was increased by >2 mmol/L. CONCLUSIONS AND CLINICAL IMPORTANCE: Serum [Cl(-) ] increased after mathematical correction in Stage D CHF dogs but not in Stage C and NO-CHF dogs. Although c[Cl(-) ] was higher than m[Cl(-) ] in Stage D dogs supportive of relative water excess, hypochloremia persisted, consistent with concurrent loop diuretic effects on electrolytes. Future study correlating c[Cl(-) ] to antidiuretic hormone concentrations is warranted.