Keywords:
M. Longshaw;B. Quest;W. Miller;P. M. Oba;O. R. Swanson;K. S. Swanson;K. Miller
In: Animals, vol. 15, no. 13, pp. 1975, 2025, ISSN: 2076-2615.
Pet nutrition Animal health Clinical nutrition Market entry Peer review
@article{longshaw_safety_2025,
title = {The Safety of FeedKind Pet® (Methylococcus capsulatus, Bath) as a Cultured Protein Source in the Diet of Adult Dogs and Its Effect on Feed Digestibility, Fecal Microbiome, and Health Status},
author = {Matt Longshaw and Bradley Quest and Walt Miller and Patricia M. Oba and Olivia R. Swanson and Kelly S. Swanson and Kathryn Miller},
url = {https://www.ncbi.nlm.nih.gov/pmc/articles/PMC12249425/},
doi = {10.3390/ani15131975},
issn = {2076-2615},
year = {2025},
date = {2025-01-01},
urldate = {2025-07-24},
journal = {Animals},
volume = {15},
number = {13},
pages = {1975},
abstract = {Thirty-two beagles were fed diets containing up to 8% cultured protein for six months, then fed control diets for a further two months. The safety of the protein was assessed by measuring blood and urine parameters as well as the growth of the dogs. Additionally, the intestinal microbiome was shown to be positively influenced by the cultured protein. The diets were well tolerated by the dogs with no reduction in feed intake and were readily digested, providing all of the essential nutrients required. The study showed that FeedKind Pet® is safe as a protein source for dogs and can be included at up to 8% of the total diet with no harmful side effects., Thirty-two healthy adult dogs (16 males and 16 females) were fed control kibble diets for one month, followed by six months (Weeks 0 to 25) of diets containing either 0, 4, 6, or 8% cultured protein derived from Methylococcus capsulatus (FeedKind Pet®, FK), then they were fed control diets (0% FK) for a further two months (Weeks 25 to 34). The diets were isonitrogenous, isolipidic, and isocaloric and stage- and age-specific. The dogs were assessed for overall health, weight gain, and body condition score (BCS). Blood samples were collected 1 week prior to randomization, during acclimation, then in Weeks 5, 13, 25, 30, 32, and 34 for hematology, coagulation, and clinical chemistry; urine was collected according to the same time schedule for urinalysis. Feces were assessed for parasite load and presence of occult blood during Weeks 5, 9, 13, 17, 21, and 25. Fecal samples were collected during acclimation and Weeks 25 and 34 for fecal microbiome analysis and in Week 25 for apparent total gastrointestinal tract digestibility (ATTD). All dogs maintained a healthy weight and BCS throughout the study. Hematology parameters were within normal limits at the end of each phase of the study. With the exception of a decrease in serum phosphorus level and in urine pH in all groups at the end of the study, urine and serum chemistry results were within normal limits at the end of each phase. ATTD values for organic matter, protein, and energy exceeded 80%, whilst digestibility values for copper were around 20%. The fecal microbiome was dominated by Firmicutes. Alpha diversity increased during the safety phase before returning to baseline levels during the washout phase. The dominant genera in all groups were Megamonas, Peptoclostridium, Turicibacter, Catenibacterium, Fusobacterium, Romboutsia, and Blautia. The study has shown that the inclusion of cultured protein at up to 8% of the total diet of adult dogs can provide sufficient nutrition and is safe with no long-term effects on a range of health parameters.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Thirty-two beagles were fed diets containing up to 8% cultured protein for six months, then fed control diets for a further two months. The safety of the protein was assessed by measuring blood and urine parameters as well as the growth of the dogs. Additionally, the intestinal microbiome was shown to be positively influenced by the cultured protein. The diets were well tolerated by the dogs with no reduction in feed intake and were readily digested, providing all of the essential nutrients required. The study showed that FeedKind Pet® is safe as a protein source for dogs and can be included at up to 8% of the total diet with no harmful side effects., Thirty-two healthy adult dogs (16 males and 16 females) were fed control kibble diets for one month, followed by six months (Weeks 0 to 25) of diets containing either 0, 4, 6, or 8% cultured protein derived from Methylococcus capsulatus (FeedKind Pet®, FK), then they were fed control diets (0% FK) for a further two months (Weeks 25 to 34). The diets were isonitrogenous, isolipidic, and isocaloric and stage- and age-specific. The dogs were assessed for overall health, weight gain, and body condition score (BCS). Blood samples were collected 1 week prior to randomization, during acclimation, then in Weeks 5, 13, 25, 30, 32, and 34 for hematology, coagulation, and clinical chemistry; urine was collected according to the same time schedule for urinalysis. Feces were assessed for parasite load and presence of occult blood during Weeks 5, 9, 13, 17, 21, and 25. Fecal samples were collected during acclimation and Weeks 25 and 34 for fecal microbiome analysis and in Week 25 for apparent total gastrointestinal tract digestibility (ATTD). All dogs maintained a healthy weight and BCS throughout the study. Hematology parameters were within normal limits at the end of each phase of the study. With the exception of a decrease in serum phosphorus level and in urine pH in all groups at the end of the study, urine and serum chemistry results were within normal limits at the end of each phase. ATTD values for organic matter, protein, and energy exceeded 80%, whilst digestibility values for copper were around 20%. The fecal microbiome was dominated by Firmicutes. Alpha diversity increased during the safety phase before returning to baseline levels during the washout phase. The dominant genera in all groups were Megamonas, Peptoclostridium, Turicibacter, Catenibacterium, Fusobacterium, Romboutsia, and Blautia. The study has shown that the inclusion of cultured protein at up to 8% of the total diet of adult dogs can provide sufficient nutrition and is safe with no long-term effects on a range of health parameters.
M. Longshaw;P. M. Oba;P. L. Utterback;C. M. Parsons;K. S. Swanson
In: Journal of Animal Science, vol. 101, pp. skad236, 2023, ISSN: 1525-3163.
Pet nutrition Market entry Peer review
@article{oba_comparing_2023,
title = {Comparing the standardized amino acid digestibility of an alternative protein source with commercially available protein-based ingredients using the precision-fed cecectomized rooster assay},
author = {PatrÃcia M Oba and Pamela L Utterback and Matt Longshaw and Carl M Parsons and Kelly S Swanson},
url = {https://doi.org/10.1093/jas/skad236},
doi = {10.1093/jas/skad236},
issn = {1525-3163},
year = {2023},
date = {2023-01-01},
urldate = {2023-08-03},
journal = {Journal of Animal Science},
volume = {101},
pages = {skad236},
abstract = {Using single-cell-based proteins in pet foods is of interest, but little testing has been done. Therefore, our objective was to determine the amino acid (AA) digestibilities, assess protein quality of a novel microbial protein (MP) (FeedKind), and compare it with other protein-based ingredients using the precision-fed cecectomized rooster assay. Test ingredients included: MP, chicken meal (CM), corn gluten meal (CGM), pea protein (PP), and black soldier fly larvae. Thirty cecectomized roosters (n = 6/ingredient) were randomly assigned to test ingredients. After 24 h of feed withdrawal, roosters were tube-fed 15 g test ingredient and 15 g corn, and then excreta were collected for 48 h. Endogenous AA corrections were made using additional roosters. Digestible indispensable AA score (DIAAS)-like values were calculated to determine protein quality according to Association of American Feed Control Officials (AAFCO), The European Pet Food Industry Federation, and National Research Council reference values for growing and adult dogs and cats. Data were analyzed using the Mixed Models procedure of SAS 9.4, with P ≤ 0.05 being significant. All reactive lysine:total lysine ratios, an indicator of heat damage, were higher than 0.9, except for CM (0.86). Digestibility of indispensable and dispensable AA were >85% and >80% for MP, respectively, with indispensable AA digestibilities being >80% for all other ingredients. In general, CGM had the highest, while CM had the lowest AA digestibilities. Two exceptions were lysine and tryptophan. Lysine digestibility for MP was higher than that of all other ingredients, while tryptophan digestibility for MP was higher than that of CM, CGM, and PP. Threonine digestibility was highest for CGM and MP. Valine digestibility was highest for CGM, PP, and MP. DIAAS-like calculations identified limiting AA of each ingredient and depended on the reference used and life stage and species of animal. Using AAFCO guidelines, all DIAAS-like values for MP were >100 suggesting that it could be used as the sole source of protein in adult dog and cat diets; only methionine had DIAAS-like values <100 for growing kittens. For dogs, limiting AA was most commonly methionine, threonine, and tryptophan in the other protein sources. For cats, limiting AA was most commonly lysine and methionine. Lysine was severely limited in CGM across all life stages considered. Further research in dogs and cats is necessary, but our data suggest that the MP tested has high AA digestibilities and is a high-quality protein source that may be useful in pet foods.Single-cell-based proteins are of interest for use in pet foods, but little testing has been done. The objective of this experiment was to compare the amino acid (AA) digestibilities and protein quality of a novel microbial protein (MP) (FeedKind) with chicken meal (CM), corn gluten meal (CGM), pea protein (PP), and black soldier fly larvae ingredients using the precision-fed cecectomized rooster assay. Cecectomized roosters were tube-fed the test ingredients and excreta were collected. All reactive lysine:total lysine ratios, an indicator of heat damage, were higher than 0.9, except for CM. Digestibility of indispensable and dispensable AA were >85% and >80% for MP, respectively, with indispensable AA digestibilities being >80% for all other ingredients. In general, CGM had the highest, while CM had the lowest AA digestibilities. Lysine and tryptophan were exceptions, being highest for MP. Threonine and valine digestibilities were also high for MP. Digestible indispensable AA score-like values identified limiting AA of each ingredient. Limiting AA was most commonly methionine, threonine, and tryptophan for dogs and lysine and methionine for cats. Our data suggest that the MP tested has high AA digestibilities and is a high-quality protein source that may be useful in pet foods.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Using single-cell-based proteins in pet foods is of interest, but little testing has been done. Therefore, our objective was to determine the amino acid (AA) digestibilities, assess protein quality of a novel microbial protein (MP) (FeedKind), and compare it with other protein-based ingredients using the precision-fed cecectomized rooster assay. Test ingredients included: MP, chicken meal (CM), corn gluten meal (CGM), pea protein (PP), and black soldier fly larvae. Thirty cecectomized roosters (n = 6/ingredient) were randomly assigned to test ingredients. After 24 h of feed withdrawal, roosters were tube-fed 15 g test ingredient and 15 g corn, and then excreta were collected for 48 h. Endogenous AA corrections were made using additional roosters. Digestible indispensable AA score (DIAAS)-like values were calculated to determine protein quality according to Association of American Feed Control Officials (AAFCO), The European Pet Food Industry Federation, and National Research Council reference values for growing and adult dogs and cats. Data were analyzed using the Mixed Models procedure of SAS 9.4, with P ≤ 0.05 being significant. All reactive lysine:total lysine ratios, an indicator of heat damage, were higher than 0.9, except for CM (0.86). Digestibility of indispensable and dispensable AA were >85% and >80% for MP, respectively, with indispensable AA digestibilities being >80% for all other ingredients. In general, CGM had the highest, while CM had the lowest AA digestibilities. Two exceptions were lysine and tryptophan. Lysine digestibility for MP was higher than that of all other ingredients, while tryptophan digestibility for MP was higher than that of CM, CGM, and PP. Threonine digestibility was highest for CGM and MP. Valine digestibility was highest for CGM, PP, and MP. DIAAS-like calculations identified limiting AA of each ingredient and depended on the reference used and life stage and species of animal. Using AAFCO guidelines, all DIAAS-like values for MP were >100 suggesting that it could be used as the sole source of protein in adult dog and cat diets; only methionine had DIAAS-like values <100 for growing kittens. For dogs, limiting AA was most commonly methionine, threonine, and tryptophan in the other protein sources. For cats, limiting AA was most commonly lysine and methionine. Lysine was severely limited in CGM across all life stages considered. Further research in dogs and cats is necessary, but our data suggest that the MP tested has high AA digestibilities and is a high-quality protein source that may be useful in pet foods.Single-cell-based proteins are of interest for use in pet foods, but little testing has been done. The objective of this experiment was to compare the amino acid (AA) digestibilities and protein quality of a novel microbial protein (MP) (FeedKind) with chicken meal (CM), corn gluten meal (CGM), pea protein (PP), and black soldier fly larvae ingredients using the precision-fed cecectomized rooster assay. Cecectomized roosters were tube-fed the test ingredients and excreta were collected. All reactive lysine:total lysine ratios, an indicator of heat damage, were higher than 0.9, except for CM. Digestibility of indispensable and dispensable AA were >85% and >80% for MP, respectively, with indispensable AA digestibilities being >80% for all other ingredients. In general, CGM had the highest, while CM had the lowest AA digestibilities. Lysine and tryptophan were exceptions, being highest for MP. Threonine and valine digestibilities were also high for MP. Digestible indispensable AA score-like values identified limiting AA of each ingredient. Limiting AA was most commonly methionine, threonine, and tryptophan for dogs and lysine and methionine for cats. Our data suggest that the MP tested has high AA digestibilities and is a high-quality protein source that may be useful in pet foods.
