Background A recent study showed higher high‐sensitivity cardiac troponin I (hs‐cTnI) concentrations in healthy dogs eating grain‐free (GF) compared to those eating grain‐inclusive (GI) diets. Hypothesis/Objectives Healthy dogs with subclinical cardiac abnormalities eating GF diets at baseline will show improvements in cardiac biomarkers and echocardiographic variables after diet change, whereas healthy dogs eating GI diets at baseline will not improve. Animals Twenty healthy dogs with subclinical cardiac abnormalities (12 Golden Retrievers, 5 Doberman Pinschers, 3 Miniature Schnauzers). Methods This prospective study included dogs with increased hs‐cTnI or N‐terminal pro‐B‐type natriuretic peptide (NT‐proBNP) concentrations, or echocardiographic abnormalities. Mixed modeling was used to evaluate echocardiographic, hs‐cTnI, and NT‐proBNP differences between groups (GF or GI diet at baseline) over time (1 y after diet change). Results Ten GF and 10 GI dogs were evaluated. There were statistically significant time: group interactions for hs‐cTnI (P = .02) and normalized left ventricular internal systolic diameter (LVIDsN; P = .02), with GF dogs showing larger decreases in these variables than GI dogs. Median (range) hs‐cTnI (ng/mL) for GF dogs was 0.141 (0.012‐0.224) at baseline and 0.092 (0.044‐0.137) at 1 y, and for GI dogs was 0.051 (0.016‐0.195) at baseline and 0.060 (0.022‐0.280) at 1 y. Median LVIDsN for GF dogs was 1.01 (0.70‐1.30) at baseline and 0.87 (0.79‐1.24) at 1 y, and for GI dogs was 1.05 (0.84‐1.21) at baseline and 1.10 (0.85‐1.28) at 1 y. Conclusions and Clinical Importance Decreased hs‐cTnI and LVIDsN in GF dogs after diet change supports reversibility of these subclinical myocardial abnormalities.
OBJECTIVE To compare metabolomic profiles of dogs eating grain-free (GF) versus grain-inclusive (GI) diets (1) for healthy dogs at baseline and (2) for dogs with subclinical cardiac abnormalities at 12 months after a diet change. SAMPLE Serum samples from 23 dogs eating GF diets and 79 dogs eating GI diets, of which 17 (8 eating a GF diet and 9 eating a GI diet) were reevaluated 12 months after a diet change. PROCEDURES Metabolomic profiles were developed by means of ultrahigh-performance liquid chromatography–tandem mass spectroscopy of serum samples. Baseline results for the GF group were compared with those for the GI group. Dogs from both groups with subclinical cardiac abnormalities were transitioned to a GI, pulse-free, intervention diet, and samples collected 12 months later were compared between diet groups. Statistical significance for biochemical group differences was defined as P < .05 with a false discovery rate (q) < .10. RESULTS Baseline differences in lipid metabolism and amino acid metabolism were found between the GF and GI diet groups. There were 46 metabolites that were higher and 82 metabolites that were lower in the GF group (n = 23), compared with the GI group (79). Comparison of the GF (n = 8) and GI (9) groups 12 months after the diet change showed only 6 metabolites that were higher and 11 metabolites that were lower in the GF group, compared with the GI group. CLINICAL RELEVANCE Metabolomic pathway differences between dogs eating GF versus GI diets highlight the important effect of diet in metabolomics analyses. The clinical importance of these differences and how they might relate to cardiac disease in dogs remains undetermined.
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