The effects of torula yeast as a protein source on apparent total tract digestibility, inflammatory markers, and fecal microbiota dysbiosis index in Labrador Retrievers with chronically poor stool quality.
J Anim Sci
; 1022024 Jan 03.
Article
em En
| MEDLINE
| ID: mdl-38267019
ABSTRACT
This study examined the effects of varying protein sources on apparent total tract digestibility, inflammatory markers, and fecal microbiota in Labrador Retrievers with historically poor stool quality. Thirty dogs (15 male, 15 female; aged 0.93 to 11.7 yr) with stool quality scores ≤2.5 on a 5-point scale (1 representing liquid stool and 5 representing firm stool) were randomly assigned to 1 of 3 nutritionally complete diets with differing protein sources and similar macronutrient profiles 1) chicken meal (nâ
=â
10); 2) 10% brewer's yeast (nâ
=â
10); or 3) 10% torula yeast (nâ
=â
10). Another 10 dogs (five male, five female) with normal stool quality (scores ranging from 3 to 4) received diet 1 and served as negative control (NC). All dogs were fed diet 1 for 7 days, then provided their assigned treatment diets from days 7 to 37. Daily stool scores and weekly body weights were recorded. On days 7, 21, and 36, blood serum was analyzed for c-reactive protein (CRP), and feces for calgranulin C (S100A12), α1-proteinase inhibitor (α1-PI), calprotectin, and microbiota dysbiosis index. Apparent total tract digestibility was assessed using the indicator method with 2 g titanium dioxide administered via oral capsules. Stool scores were greater in NC (Pâ
<â
0.01) as designed but not affected by treatmentâ
×â
time interaction (Pâ
=â
0.64). Body weight was greater (Pâ
=â
0.01) and CRP lower (Pâ
<â
0.01) in NC dogs. Dry matter and nitrogen-free extract digestibility did not differ among groups (Pâ
≥â
0.14). Negative controls had greater fat digestibility compared to BY (94.64â
±â
1.33% vs. 91.65â
±â
1.25%; Pâ
=â
0.02). The overall effect of treatment was significant for protein digestibility (Pâ
=â
0.03), but there were no differences in individual post hoc comparisons (Pâ
≥â
0.07). Treatment did not affect S100A12 or α1-PI (Pâ
≥â
0.44). Calprotectin decreased at a greater rate over time in TY (Pâ
<â
0.01). The dysbiosis index score for BY and TY fluctuated less over time (Pâ
=â
0.01). Blautia (Pâ
=â
0.03) and Clostridium hiranonis (Pâ
=â
0.05) abundances were reduced in BY and TY. Dogs with chronically poor stool quality experienced reduced body weights and increased serum CRP, but TY numerically increased protein digestibility, altered the microbiome, and reduced fecal calprotectin. Torula yeast is a suitable alternative protein source in extruded canine diets, but further research is needed to understand the long-term potential for improving the plane of nutrition and modulating gut health.
Pet and human populations continue to grow and compete for nutritious, sustainable protein sources. The incorporation of alternative proteins like torula yeast can provide a solution to this problem. Torula yeast also may have additional health benefits like reducing gut inflammation. To test its effects in dogs, we fed Labrador Retrievers with chronically poor stool quality either a control diet with chicken meal, a diet with 10% brewer's yeast, or a diet with 10% torula yeast. We compared their responses to dogs with normal stool quality fed the control diet. Dogs with chronically poor stool quality had lower body weights and increased systemic inflammation compared to those with good stool quality. Calprotectin, a marker of gut inflammation, was reduced more in dogs fed torula yeast than in dogs fed chicken meal. Torula and brewer's yeast also changed the abundance of certain gut bacteria. Torula yeast may be added to dog diets with no negative effects and can alter the gut environment in Labrador Retrievers with chronically poor stool quality.
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Base de dados:
MEDLINE
Assunto principal:
Cryptococcus
/
Doenças do Cão
/
Microbiota
Idioma:
En
Ano de publicação:
2024
Tipo de documento:
Article