Free and Microencapsulated Essential Oils Incubated In Vitro: Ruminal Stability and Fermentation Parameters

Amin, Nida; Tagliapietra, Franco; Arango, Sheyla; Guzzo, Nadia; Bailoni, Lucia

doi:10.3390/ani11010180

Cited by 18 publications

(15 citation statements)

References 61 publications

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“…Negligible changes in pH due to GEO (Mateos et al 2013), REO (Castillejos et al 2008), and EEO (Cobellis et al 2016) have previously been reported. Decreases of pH were previously observed for CEO in vivo (Chaves et al 2008) and in vitro (Amin et al 2021). However, decreases are often related to VFA increases, not observed in the present study.…”

Section: Fermentation Parameterssupporting

confidence: 47%

Effect of essential oils and aqueous extracts of plants on in vitro rumen fermentation and methane production

Molho-Ortiz

Romero-Pérez

Ramírez-Bribiesca

et al. 2022

JABB

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The objective of this study was to evaluate in vitro rumen fermentation and methane production under the influence of two sources of phytochemicals: essential oils (EOs) and aqueous extracts (AEs). Treatments were set up in a completely randomized block design, with 4×2+1 factorial arrangement of four species, S (garlic, G; cinnamon, C; rosemary, R; eucalyptus; EU) × two types of presentation, P (essential oil, EO; aqueous extract, AE) and a basal diet, BD (50% concentrate, 20% alfalfa and 30% corn silage). Rumen fermentation was evaluated using the in vitro gas production technique. All experimental units were incubated with 500 mg of BD for 72 hours. Treatments were added at a single dose of 900 mg/L of rumen inoculum. Gas pressure was recorded at 0, 2, 4, 6, 8, 10, 14, 18, 24, 30, 36, 42, 48, 60 and 72 h postincubation. There was an interaction effect (P × S) between plant extract presentation (P) and plant species (S) for all variables. Treatments GEO, CEO, REO decreased volatile fatty acids (mmol/200 mg), microbial mass production (mg/g), CH4 production (mL/g), in vitro dry matter digestibility (P < 0.05), and total gas production at 24 and 72 h post-incubation (P < 0.05; mL/g DM, mL/g OM). No differences (P > 0.05) were observed between AEs and BD. In conclusion, the use of EOs negatively affected rumen fermentation parameters and the production of CH4. Garlic and cinnamon EOs effectively reduced methane emissions; however, they also reduced in vitro dry matter digestibility.

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Section: Fermentation Parameterssupporting

confidence: 47%

Effect of essential oils and aqueous extracts of plants on in vitro rumen fermentation and methane production

Molho-Ortiz

Romero-Pérez

Ramírez-Bribiesca

et al. 2022

JABB

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“…Essential oils (EOs) have been known to have varying chemical structures and bioactive compounds as they are extracted from different plants [ 1 ]. Essential oils are also known for their antiprotozoal and antimicrobial properties [ 2 , 3 ]. Due to their broad range of antimicrobial activities, EOs are commonly regarded as potential antibiotic replacements [ 4 ].…”

Section: Introductionmentioning

confidence: 99%

“…The inclusion of EOs in ruminant diets has been reported to have significant influence in ruminant digestion and fermentation, as well as microbial populations and methanogenesis [ 5 , 6 , 7 , 8 ]. The use of EO blends (EOBs) over single EOs has been reported to be more advantageous [ 3 ]. Friedman et al [ 9 ] reported that by combining cinnamaldehyde with eugenol, cinnamaldehyde can be preserved from heat-induced degradation.…”

Section: Introductionmentioning

confidence: 99%

“…Friedman et al [ 9 ] reported that by combining cinnamaldehyde with eugenol, cinnamaldehyde can be preserved from heat-induced degradation. The use of EOBs is often preferred as it is unlikely that a single EO has all the attributes or properties to be as effective as an antibiotic [ 3 ]. However, few studies have been carried out to evaluate the effects of different blends of EOs on in vitro rumen fermentation parameters.…”

Section: Introductionmentioning

confidence: 99%

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Effects of Essential Oil Blends on In Vitro Apparent and Truly Degradable Dry Matter, Efficiency of Microbial Production, Total Short-Chain Fatty Acids and Greenhouse Gas Emissions of Two Dairy Cow Diets

Brice

Dele

Ike

et al. 2022

Animals

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The current study evaluated nine essential oil blends (EOBs) for their effects on ruminal in vitro dry matter digestibility (IVDMD), efficiency of microbial production, total short-chain fatty acid concentration (SCFA), total gas, and greenhouse gas (GHG) emissions using two dietary substrates (high forage and high concentrate). The study was arranged as a 2 × 2 × 9 + 1 factorial design to evaluate the effects of the nine EOBs on the two dietary substrates at two time points (6 and 24 h). The inclusion levels of the EOBs were 0 µL (control) and 100 µL with three laboratory replicates. Substrate × EOBs × time interactions were not significant (p > 0.05) for total gas and greenhouse gas emissions. The inclusion of EOBs in the diets resulted in a reduction (p < 0.001) in GHG emissions, except for EOB1 and EOB8 in the high concentrate diet at 6 h and for EOB8 in the high forage diet at 24 h of incubation. Diet type had no effect on apparent IVDMD (IVADMD) whereas the inclusion of EOBs reduced (p < 0.05) IVADMD with higher values noted for the control treatment. The efficiency of microbial production was greater (p < 0.001) for EOB treatments except for EOB1 inclusion in the high forage diet. The inclusion of EOBs affected (p < 0.001) the total and molar proportion of volatile fatty acid concentrations. Overall, the inclusion of the EOBs modified the rumen function resulting in improved efficiency of microbial production. Both the apparent and truly degraded DM was reduced in the EOB treatments. The inclusion of EOBs also resulted in reduced GHG emissions in both diets, except for EOB8 in the high forage diet which was slightly higher than the control treatment.

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“…Owing to the highly volatile nature of EOs, they are usually microencapsulated to protect from digestion in the upper digestive tract and thus maintain their efficacy in the lower bowel 22‐24 . The concept for EO microencapsulation is to provide a physical barrier for bioactive compounds from the environment and ensure a slow and progressive intestinal release 25 .…”

Section: Discussionmentioning

confidence: 99%

Effects of essential oil mixtures on nitrogen metabolism and odor emission via in vitro simulated digestion and in vivo growing pig experiments

Hsu

Lin

et al. 2021

J Sci Food Agric

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BACKGROUND Essential oils (EOs) are extensively used in swine production because of their bioactive action in gut health. In addition, some EOs have the potential to reduce waste emission. The present study aimed to find an optimal combination of carvacrol, thymol and cinnamaldehyde to promote nitrogen utilization and reduce waste emission by a model in vitro and an animal study. RESULTS In the study in vitro, various dosages of essential oils (EOs) were used to evaluate the effect on nitrogen metabolism through a three‐step model. Compared with other EO combinations, 2EO (10 ppm cinnamaldehyde and 20 ppm thymol), and 3EO (10 ppm cinnamaldehyde, 20 ppm thymol and 200 ppm carvacrol) displayed greater nitrogen digestibility, lesser ammonia production and lower activity of microbial enzymes. In the animal study, growing male Landrace × Yorkshire pigs (initial body weight: 31.8 ± 3.3 kg, n = 18) were randomly divided into three groups and fed the control, 2EO or 3EO diet for 4 weeks. Pigs fed 3EO exhibited the greatest nitrogen digestibility (85.4%, P < 0.05). EO supplementation decreased the emission of ammonia (130–140 vs. 223 mg g−1) and total fecal nitrogen (8.0–9.9 vs. 12.4 g d−1) (P < 0.05). Microbial protease and urease activities were inhibited by EO treatments (P < 0.01). Both 2EO and 3EO reduced the content of indole and 3‐methylindole (P < 0.01), whereas only 2EO caused a decrease in p‐cresol (P < 0.1). CONCLUSION 2EO was suitable for reducing waste emission and odorous compounds in growing pigs, whereas 3EO was optimal for increasing nitrogen utilization and partially reducing waste odorous compounds. © 2021 Society of Chemical Industry.

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Free and Microencapsulated Essential Oils Incubated In Vitro: Ruminal Stability and Fermentation Parameters

Cited by 18 publications

References 61 publications

Effect of essential oils and aqueous extracts of plants on in vitro rumen fermentation and methane production

Effect of essential oils and aqueous extracts of plants on in vitro rumen fermentation and methane production

Effects of Essential Oil Blends on In Vitro Apparent and Truly Degradable Dry Matter, Efficiency of Microbial Production, Total Short-Chain Fatty Acids and Greenhouse Gas Emissions of Two Dairy Cow Diets

Effects of essential oil mixtures on nitrogen metabolism and odor emission via in vitro simulated digestion and in vivo growing pig experiments

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