Effect of supplementation with microencapsulated essential oils of Stachys arvensis "Pedorra", Eugenia punicifolia "Unquia" y Salvia sagittata "Salvia Azul" on production parameters and intestinal morphology in broiler chickens
Abstract
The present study aimed to investigate the effect of dietary supplementation of different microencapsulated essential oils on productive parameters and intestinal morphology of broiler chickens. A total of 100 Cobb 500 male broilers were randomly assigned to four dietary treatments (T). The control group (T0) was fed with a commercial diet without additives, while the experimental groups received supplementation of essential oils of Unquia (T1), Salvia Azul (T2) and Pedorra (T3). The results showed that the T2 group obtained the highest values (P<0.05) for final weight, daily weight gain and food consumption. The conversion rate was significantly lower in the T2 and T3 groups. In addition, the experimental groups presented the lowest yield of abdominal fat (P<0.05). On day 42, the T2 group increased villus height and width (P<0.05); likewise, T0 presented the lowest value in crypt depth. In conclusion, dietary supplementation of microencapsulated essential oils improves productive parameters and intestinal morphology in in broiler chickens.
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Paul SS, Rama–Ra SV, Hegde N, Williams NJ, Chatterjee RN, Raju MVLN, Reddy GN, Kumar V, Phani–Kumar PS, Mallick S, Garji M. Effects of Dietary Antimicrobial Growth Promoters on Performance Parameters and Abundance and Diversity of Broiler Chicken Gut Microbiome and Selection of Antibiotic Resistance Genes. Front. Microbiol. [Internet]. 2022; 13:905050. doi: https://doi.org/kkzm
Muaz K, Riaz M, Akhtar S, Park S, Ismail A. Antibiotic Residues in Chicken Meat: Global Prevalence, Threats, and Decontamination Strategies: A Review. J. Food Protect. [Internet]. 2018; 81(4):619–627. doi: https://doi.org/gdbg3z
Galli GM, Aniecevski E, Petrolli TG, Rosa G, Boiago MM, Simões CADP, Wagner R, Copetti PM, Morsch VM, Araujo DN, Marcon H, Pagnussatt H, Santos HV, Mendes RE, Loregian KE, Da Silva ASD. Growth performance and meat quality of broilers fed with microencapsulated organic acids. Anim. Feed Sci. Technol. [Internet]. 2021; 271:114706. doi: https://doi.org/gmzbng
Manafi M, Khalaji S, Hedayati M, Pirany N. Efficacy of Bacillus subtilis and bacitracin methylene disalicylate on growth performance, digestibility, blood metabolites, immunity, and intestinal microbiota after intramuscular inoculation with Escherichia coli in broilers. Poult. Sci. [Internet]. 2017; 96(5):1174–1183. doi: https://doi.org/kkzn
Van Boeckel TP, Pires J, Silvester R, Zhao C, Song J, Criscuolo NG, Gilbert M, Bonhoeffer S, Laxminarayan R. Global Trends in Antimicrobial Resistance in Animals in Low–And Middle–Income Countries. Sci. [Internet]. 2019; 365:6459. doi: https://doi.org/gf85mx
Nhung NT, Chansiripornchai N, Carrique–Mas JJ. Antimicrobial Resistance in Bacterial Poultry Pathogens: A Review. Front. Vet. Sci. [Internet]. 2017; 4:126. doi: https://doi.org/gbtcpq
Ardoino SM, Toso RE, Toribio MS, Álvarez HL, Mariani E, Cachau PD, Mancilla MV, Oriani DS. Antimicrobianos como promotores de crecimiento (AGP) en alimentos balanceados para aves: uso, resistencia bacteriana, nuevas alternativas y opciones de reemplazo. Cien. Vet. Univ. Nac. Plata. [Internet]. 2017; 19(1):50–66. doi: https://doi.org/kmgp
Nogueira W, Rippel D, Almeida A, Santos E, Wenceslau R, Ferreira F. Lemon grass essential oil on productive characteristics of broiler chickens. Acta Vet. Brasilica. [Internet]. 2017; 11(2):93–97. doi: https://doi.org/kmgq
Sidiropoulou E, Skoufos I, Marugan–Hernandez V, Giannenas I, Bonos E, Aguiar–Martins K, Lazari D, Blake DP, Tzora A. In vitro anticoccidial study of oregano and garlic essential oils and effects on growth performance, fecal oocyst output, and intestinal Microbiota in vivo. Front. Vet. Sci. [Internet]. 2020; 7:420. doi: https://doi.org/gnb6qv
Irawan A, Hidayat C, Jayanegara A, Ratriyanto A. Essential Oils as Growth–Promoting Additives on Performance, Nutrient Digestibility, Cecal Microbes, and Serum Metabolites of Broiler Chickens: A Meta–Analysis. Anim. BioSci. [Internet]. 2021; 34(9):1499. doi: https://doi.org/kmgt
Jin L, Dersjant–Li Y, Giannenas I. Application of aromatic plants and their extracts in diets of broiler chickens. Feed Additives: Aromatic Plants Herbs Anim. Nutrit. Health. [Internet]. 2020; 2020:159–185. doi: https://doi.org/kmgw
Sousa VI, Parente JF, Marques J., Forte MA, Tavares CJ. Microencapsulation of Essential Oils: A Review. Polymers. [Internet]. 2022; 14(9):1730. doi: https://doi.org/kmgx
Furuta T, Neoh TL. Microencapsulation of food bioactive components by spray drying: A review. Drying Technol. [Internet]. 2021; 39(12):1800–1831. doi: https://doi.org/kmgz
Rocha J. de CG, De Barros FAR, Perrone ÍT, Viana KWC, Tavares GM, Stephani R, Stringheta PC. Microencapsulation by atomization of the mixture of phenolic extracts. Powder Technol. [Internet]. 2019; 343:317–325. doi: https://doi.org/kmg3
Thuekeaw S, Angkanaporn K, Nuengjamnong C. Microencapsulated basil oil (Ocimum basilicum Linn.) enhances growth performance, intestinal morphology, and antioxidant capacity of broiler chickens in the tropics. Anim. BioSci. [Internet]. 2022; 35(5):752–762. doi: https://doi.org/kmhn
Rahimpour F, Mohiti–Asli M, Mottaghitalab M, Mohit A. Microencapsulation of savory essential oil within alginate: Effect on performance, oxidative stability of meat, and intestinal microflora of broilers. Anim. Product. Res. [Internet]. 2022; 11(2):43–55. doi: https://doi.org/kmhp
Rostagno HS, Teixeira–Albino LF, Hannas MI, Donzele JL, Sakomura NK, Perazzo FG, Saraiva A, Teixeira de A, ML, Borges–Rodrigues P, De Oliveira RF, Toledo–Barreto SL, Oliveira–Brito C. En: Rostagno HS. (ed.). Tablas Brasileñas Para Aves y Cerdos: Composición de Alimentos y Requerimientos Nutricionales. 4. ed. Viçosa: Universidad Federal de Viçosa. 2017; 488 p. ISBN: 9788581791227.
Sialer M, Icochea E, González AE. Eficacia de una vacuna vectorizada para el control de la enfermedad de Newcastle aplicada en pollitos BB en planta de incubación. Rev. Investig. Vet. Perú. [Internet]. 2020; 31(2):e17835. doi: https://doi.org/kmhq
Cobb–Vantress. Pollo de Engorde Guía de Manejo Cobb–Vantress International. 2018; 88 p.
Fioramonti SA, Stepanic EM, Tibaldo AM, Pavón YL, Santiago LG. Spray Dried Flaxseed Oil Powdered Microcapsules Obtained Using Milk Whey Proteins–Alginate Double Layer Emulsions. Food Res. Intern. [Internet]. 2019; 119:931–940. doi: https://doi.org/gpvmw6
Loyaga–Cortéz B, Ordoñez GM, Ybañez–Julca R, Asunción–Alvarez D. La Suplementación de Aceite Esencial de Orégano En La Dieta Reduce El Estrés Oxidativo En La Yema de Huevo y Mejora Los Parámetros Productivos de La Codorniz Japonesa (Coturnix coturnix japonica). Rev. Investig. Vet. Perú. [Internet]. 2020; 31(3):16637. doi: https://doi.org/kmhr
Mendoza–Ordoñez G, Caceda–Gallardo L, Loyaga–Cortéz B, Ybañez–Julca R, Gonzales–Nonato D, Asunción–Alvarez D. Oregano Essential Oil Supplementation Improves Productive Performance, Oxidative Stability, and Lipid Parameters in Turkeys. Scientia Agrop. [Internet]. 2020; 11(2):187–193. doi: https://doi.org/kmhs
Seidavi A, Tavakoli M, Slozhenkina M, Gorlov I, Hashem NM, Asroosh F, Taha AE, Abd El–Hack ME; Swelum AA. The Use of Some Plant–Derived Products as Effective Alternatives to Antibiotic Growth Promoters Organic Poultry Production: A Review. Environm. Sci. Pollut. Res. [Internet]. 2021; 28:47856–47868. doi: https://doi.org/kmht
Quiñones M, Miguel M, Aleixandre A. Los polifenoles, compuestos de origen natural con efectos saludables sobre el sistema cardiovascular. Nutric. Hospit. 2012; 27(1):76–89.
Silva L, Oliveira MG, de Paula JR, da Silva VB. ADMET predictions for γ–muurolene as the major chemical constituent of essential oil from leaves of Eugenia punicifolia (kunth) DC. En: Proceedings of 6th Brazilian Conference on Natural Products and Annual Meeting on Micromolecular Evolution, Systematics and Ecology. [Internet] 2017 Nov 05–08; Campinas: Galoá; 2017. [consultado 02 Feb 2023]. Disponible en: https://bit.ly/3DxDjwk.
Martínez, M.A. Aceites Esenciales. [Internet]. Medellín: Universidad de Antioquia; 2003. [consultado 03 Feb 2023]. 34 p. Disponible en: https://bit.ly/43Mo0KX.
Debbabi H, El Mokni R, Jlassi I, Falconieri D, Piras A, Mastouri M, Porcedda S, Hammami S. Gas chromatography combined with mass spectrometry and flame ionization detection for identifying the organic volatiles from Stachys arvensis, S. marrubiifolia and S. ocymastrum. International J. Mass Spectrom. [Internet]. 2018; 432:59–64. doi: https://doi.org/gfbspk
Ponce GA. Composición química por cromatografía a gases y actividad antibacteriana del aceite esencial de Salvia sagittata Ruiz & Pav frente a la Escherichia coli y Staphylococcus aureus. [tesis de grado en Internet]. Perú: Universidad Nacional del Centro del Perú; 2019 [consultado 12 Ene 2023]. 98 p. Disponible en: https://bit.ly/43HzTSo.
Franco C de JP, Ferreira OO, de Moraes ÂAB, Varela ELP, do Nascimento LD, Percário S, de Oliveira M, Andrade EH de A. Chemical Composition and Antioxidant Activity of Essential Oils from Eugenia patrisii Vahl, E. punicifolia (Kunth) DC., and Myrcia tomentosa (Aubl.) DC., Leaf of Family Myrtaceae. Molec. [Internet]. 2021; 26(11):3292. doi: https://doi.org/kmh2
Carhuallanqui–Avila S, Ricaldi–Flores CJ, Terrel–Rivas CE, De La Cruz–Calderón G. Evaluación de la conservación del aceite esencial de Salvia sagittata Ruiz & Pav en la elaboración del queso aromatizado envasado al vacío. J. Agri–Food Sci. [Internet]. 2020 [consultado 15 Ene 2023]; 1(1):11–20. Disponible en: https://bit.ly/3Ozovn3.
Silva L de S, Martins CF, Abrão FY, Romano CA, Bezerra SF, Borges LL, dos Santos AH, da Cunha LC, Oliveira–Neto JR, Fiuza T, de Paula JR. Comparative study of the chemical composition, larvicidal, antimicrobial and cytotoxic activities of volatile oils from E. punicifolia leaves from Minas Gerais and Goiás. Res. Soc. Developm. [Internet]. 2021; 10(11):34101119354. doi: https://doi.org/kmh8
Hesabi –Nameghi A, Edalatian O, Bakhshalinejad R. Effects of a Blend of Thyme, Peppermint and Eucalyptus Essential Oils on Growth Performance, Serum Lipid and Hepatic Enzyme Indices, Immune Response and Ileal Morphology and Microflora in Broilers. J. Anim. Physiol. Anim. Nutrit. [Internet]. 2019; 103(5):1388–1398. doi: https://doi.org/kmh9
Reyer H, Zentek J, Männer K, Youssef IMI, Aumiller T, Weghuber J, Wimmers K, Mueller AS. Possible Molecular Mechanisms by Which an Essential Oil Blend from Star Anise, Rosemary, Thyme, and Oregano and Saponins Increase the Performance and Ileal Protein Digestibility of Growing Broilers. J. Agricult. Food Chem. [Internet]. 2022; 65(32):6821–6830. doi: https://doi.org/gbq8c7
Bahr T, Butler G, Rock C, Welburn K, Allred K, Rodriguez D. Cholesterol – Lowering Activity of Natural Mono– and Sesquiterpenoid Compounds in Essential Oils: A Review and Investigation of Mechanisms Using in Silico Protein–Ligand Docking. Phytother. Res. [Internet]. 2021; 35(8):4215–4245. doi: https://doi.org/kmjb
Di Y, Cao A, Zhang Y, Li J, Sun Y, Geng S, Li Y, Zhang L. Effects of Dietary 1,8–Cineole Supplementation on Growth Performance, Antioxidant Capacity, Immunity, and Intestine Health of Broilers. Anim. [Internet]. 2022; 12(18):2415. doi: https://doi.org/kmjc
Paula–Freire LI, Andersen ML, Gama VS, Molska GR, Carlini EL. The oral administration of trans–caryophyllene attenuates acute and chronic pain in mice. PhytoMed. [Internet]. 2014; 21(3):356–362. doi: https://doi.org/kmjd
Stamilla A, Messina A, Sallemi S, Condorelli L, Antoci F, Puleio R, Loria GR, Cascone G, Lanza M. Effects of microencapsulated blends of organics acids (OA) and essential oils (EO) as a feed additive for broiler chicken. A focus on growth performance, gut morphology and microbiology. Anim. [Internet]. 2020; 10(3):442. doi: https://doi.org/kmjf
Mohammadi Z., Ghazanfari S., Adib Moradi M. Effect of supplementing clove essential oil to the diet on microflora population, intestinal morphology, blood parameters and performance of broilers. Eur. Poult. Sci. [Internet]. 2014; 78:e–2014.51. doi: https://doi.org/kmjg
Qaid MM, Al–Mufarrej SI, Azzam MM, Al–Garadi MA, Albaadani HH, Alhidary IA, Aljumaah RS. Growth Performance, Serum Biochemical Indices, Duodenal Histomorphology, and Cecal Microbiota of Broiler Chickens Fed on Diets Supplemented with Cinnamon Bark Powder at Prestarter and Starter Phases. Anim. [Internet]. 2021; 11(1):94. doi: https://doi.org/kmjh
Van Boeckel TP, Pires J, Silvester R, Zhao C, Song J, Criscuolo NG, Gilbert M, Bonhoeffer S. Laxminarayan R. Global Trends in Antimicrobial Resistance in Animals in Low– And Middle–Income Countries. Sci. [Internet]. 2019; 365(6459):e–1944. doi: https://doi.org/gf85mx
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