Impacts of F18 + Escherichia coli on Intestinal Health of Nursery Pigs and Dietary Interventions.
Marcos Elias DuarteYesid Garavito-DuarteSung Woo KimPublished in: Animals : an open access journal from MDPI (2023)
This review focused on the impact of F18 + E. coli on pig production and explored nutritional interventions to mitigate its deleterious effects. F18 + E. coli is a primary cause of PWD in nursery pigs, resulting in substantial economic losses through diminished feed efficiency, morbidity, and mortality. In summary, the F18 + E. coli induces intestinal inflammation with elevated IL6 (60%), IL8 (43%), and TNF-α (28%), disrupting the microbiota and resulting in 14% villus height reduction. Besides the mortality, the compromised intestinal health results in a 20% G:F decrease and a 10% ADFI reduction, ultimately culminating in a 28% ADG decrease. Among nutritional interventions to counter F18 + E. coli impacts, zinc glycinate lowered TNF-α (26%) and protein carbonyl (45%) in jejunal mucosa, resulting in a 39% ADG increase. Lactic acid bacteria reduced TNF-α (36%), increasing 51% ADG, whereas Bacillus spp. reduced IL6 (27%), increasing BW (12%). Lactobacillus postbiotic increased BW (14%) and the diversity of beneficial bacteria. Phytobiotics reduced TNF-α (23%) and IL6 (21%), enhancing feed efficiency (37%). Additional interventions, including low crude protein formulation, antibacterial minerals, prebiotics, and organic acids, can be effectively used to combat F18 + E. coli infection. These findings collectively underscore a range of effective strategies for managing the challenges posed by F18 + E. coli in pig production.
Keyphrases
- escherichia coli
- rheumatoid arthritis
- physical activity
- lactic acid
- healthcare
- public health
- mental health
- oxidative stress
- klebsiella pneumoniae
- biofilm formation
- body mass index
- health information
- cardiovascular events
- cardiovascular disease
- type diabetes
- risk assessment
- staphylococcus aureus
- drug delivery
- small molecule
- risk factors
- cystic fibrosis
- social media
- climate change
- coronary artery disease
- amino acid
- protein protein
- silver nanoparticles
- candida albicans