Abstract
This article summarizes current experimental knowledge on the efficacy, possible mechanisms and feasibility in the application of phytogenic products as feed additives for food-producing animals. Phytogenic compounds comprise a wide range of plant-derived natural bioactive compounds and essential oils are a major group. Numerous studies have demonstrated that phytogenic compounds have a variety of functions, including antimicrobial/antiviral, antioxidative and anti-inflammation effects and improvement in the palatability of feed and gut development/health. However, the mechanisms underlying their functions are still largely unclear. In the past, there has been a lack of consistency in the results from both laboratory and field studies, largely due to the varied composition of products, dosages, purities and growing conditions of animals used. The minimal inhibitory concentration (MIC) of phytogenic compounds required for controlling enteric pathogens may not guarantee the best feed intake, balanced immunity of animals and cost-effectiveness in animal production. The lipophilic nature of photogenic compounds also presents a challenge in effective delivery to the animal gut and this can partially be resolved by microencapsulation and combination with other compounds (synergistic effect). Interestingly, the effects of photogenic compounds on anti-inflammation, gut chemosensing and possible disruption of bacterial quorum sensing could explain a certain number of studies with different animal species for the better production performance of animals that have received phytogenic feed additives. It is obvious that phytogenic compounds have good potential as an alternative to antibiotics in feed for food animal production and the combination of different phytogenic compounds appears to be an approach to improve the efficacy and safety of phytogenic compounds in the application. It is our expectation that the recent development of high-throughput and “omics” technologies can significantly advance the studies on the mechanisms underlying phytogenic compounds’ functions and, therefore, guide the effective use of the compounds.
Highlights
Young animals are highly susceptible to various stressors, including bacterial diseases, resulting compromised growth performance and high mortality [1]
The practice without using antibiotic growth promoters in food animal production has been implemented in the European Union countries since 2006 and more countries are expected to follow
There are a number of challenges after the withdrawal of antibiotics from feed
Summary
Young animals are highly susceptible to various stressors, including bacterial diseases, resulting compromised growth performance and high mortality [1]. The use of antibiotics as growth promoters in animal feed is becoming limited due to increased public concerns over the spread of antibiotic resistance in zoonotic bacterial pathogens, which poses a threat to public health. There have been a significantly increased number of studies focused on searching alternatives to antibiotics with similar antimicrobial and growth-promoting effects without inducing bacterial resistance and potential side effects to animals. Besides the inconsistent results and inconclusive mechanisms, the challenges of using phytogenic compounds in animal feed may include side effects, regulatory obstacles and cost-effectiveness. Application of novel technologies integrating research to simultaneously examine genomes, metagenomes, transriptomes and proteomes should help to better understand the modes of action of phytogenic compounds and subsequently lead to the development of feasible and cost-effective ways to use phytogenic compounds in animal feed
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