The present study was to evaluate the effects of nano-encapsulated Phaleria macrocarpa fruit extract (NEPM) in drinking water on the digestive organs and carcass characteristic of broiler chickens. A total number of two hundred male broiler chicks were randomly divided into five treatments with four replicates, each replicate contained ten chickens. Broiler chickens have received a basal diet supplemented with or without experimental treatments. Five experimental treatments were: control diet (T0; negative control), diet with tetracycline (T1; positive control), diet with 2.5% of Phaleria macrocarpa fruits extract (T2),  diet with 2.5% NEPM (T3), and diet with 5.0% NEPM (T4). The diets were based on yellow corn and soybean meal and contained 20.44% crude protein, 2,917.47 kcal/kg metabolizable energy, 0.84% Calcium, and 0.51% available Phosphorus. On the 35^th day, one bird from each replicate pen was slaughtered. Carcass characteristics and weights of digestive organs were measured. Data were statistically analyzed using ANOVA in a completely randomized design. The orthogonal contrast test was used to separate the mean when the P-value was less than 5%. Results showed that the use of nano-encapsulated Phaleria macrocarpa fruits extracts up to 5.0% in the diet did not give any significant effect on the carcass, digestive organs, heart and liver weights of broiler chickens. It can be concluded that the supplementation of Phaleria macrocarpa fruits extracts whether nano-encapsulated or not, did not affect carcass weight, weights of digestive organs and weights of the heart and liver of broiler chickens.

Alara, O. R. and O. A. Olalere. 2016. A critical overview on the ex­traction of bioactive compounds from Phaleria macrocarpa (Thymelaceae). Nat. Prod. Chem. Res. 4: 1-4.

AOAC. 2005. Official Methods of Analysis of AOAC International. 18^th edn. Assoc. Off. Anal. Chem., Arlington.

Bhattacharyya, A., P. K. Shukla, and M. Shukla. 2015. Effect of poly herbal phytobiotic on the growth, immunocompetence, development of digestive organs and carcass characteristics of commercial broilers. J. Anim. Res. 5: 347-351.

Bozkurt, M., K. Küçükyılmaz, A. U. Çatlı, and M. Çınar. 2009a. The effect of single or combined dietary supplementation of prebiotics, organic acid and probiotics on performance and slaughter characteristics of broilers. S. Afr. J. Anim. Sci. 39: 197 – 205.

Bozkurt, M., K. Küçükyılmaz, A.U. Çatlı, and M. Çınar. 2009b. Effect of dietary mannan oligosaccharide with or without oregano essential oil and hop extract supplementation on the performance and slaughter characteristics of male broilers. S. Afr. J. Anim. SCI. 39: 223 – 232.

Bugnicourt, L. and C. Ladaviere. 2016. Interests of chitosan nanoparticles ionically cross-linked with tripolyphosphate for biomedical applications. Prog. Polym. Sci. 60: 1 – 17.

Choiri, Z., N. D. Dono, B. Ariyadi, C. Hanim, R. Martien, and Zuprizal. 2017. Effect of nano-encapsulation of noni (Morinda citrifolia) fruits extract on jejunal morphology and microbial populations in laying hens. Pak J Nutr. 17: 34–38.

Elgadira, M. A., Md. S. Uddin, S. Ferdosh, A. Adam, A. J. K. Chowdhury, and Md. Z. I. Sarker. 2015. Impact of chitosan composites and chitosan nanoparticle composites on various drug delivery systems: A review. J. Food Drug. Anal. 23: 619-629.

Erhan, M. K., S. C. Bolukbası, and H. Urusan. 2012. Biological activities of pennyroyal (Mentha pulegium L.) in broilers. J. Liv. Sci. 146: 189–192.

Esfanjani, A. F. and S. M. Jafri. 2016. Biopolymer nano-particles and natural nano-carriers for nano-encapsulation of phenolic compounds. Colloids and Surfaces B: Biointerfaces. 146: 532–543.

Fallah R., A. Azarfar, and A. Kiani. 2013. A review of the role of five kinds of alternatives to in feed antibiotics in broiler production. J. Vet. Med. Anim. Health. 5: 317-321.

Homs, M. G. Calderó, M. Monge, D. Morales, and C. Solans. 2018. Influence of polymer concentration on the properties of nano-emulsions and nanoparticles obtained by a low-energy method. Colloids Surf. A. 536: 204 – 212.

Hsieh, F. M., C. Huang, T. F. Lin, Y. M. Chen, and J. C. Lin. 2008. Study of sodium tripolyphosphate-crosslinked chitosan beads entrapped with Pseudomonas putida for phenol degradation. Process Biochem. 43: 83–92.

Katouzian, I. and S. M. Jafari. 2016. Nano-encapsulation as a promising approach for targeted delivery and controlled release of vitamins. Trends Food Sci. Technol. 53: 34 – 48.

Kiczorowska, B., A. R. M. Al-Yasiry, W. Samolińska, A. Marek, and E. Pyzik. 2016. The effect of dietary supplementation of the broiler chicken diet with Boswellia serrataresin on growth performance, digestibility, and gastrointestinal characteristics, morphology, and microbiota. J. Liv. Sci. 191: 117–124.

Mella, R. M. and O. H. Mendo. 2010. Review nanotechnology on animal production. Trop. Subtrop. Agroecosyst. 12: 423–429.

National Research Council (NRC). 1994. Nutrient Requirements of Poultry. Ed Rev ke-9. Academy Press, Washington DC.

Parera, G., M. Zipser, S. Bonengel, W. Salvenmoser, and A. Bernkop-Schnürch. 2015. Development of phosphorylated nanoparticles as zeta potential inverting systems. ‎Eur. J. Pharm. Biopharm. 97: 250–256.

Rahayu, H. S. I., I. Zulkifli, M. K. Vidyadaran, A. R. Alimon and S. A. Babjee. 2008. Carcass Variables and Chemical Composition of Commercial Broiler Chickens and the Red Jungle Fowl. Asian-Aust. J. Anim. Sci. Vol. 21, No. 9: 1376 – 1382.

Reyes, F. C. C., A. T. A. Aguirre, E. M. Agbisit, F. E. Merca, G. L. Manulat, and A. A. Angeles. 2018. Growth performances and carcass characteristics of broiler chickens fed akasya [Samanea Saman (Jacq.) Merr.] pod meal. Trop. Anim. Sci. J. 41: 46-52.

Sacco, P., S. Paoletti, M. Cok, F. Asaro, M. Abrami, M. Grassid, and I. Donati. 2016. Insight into the ionotropic gelation of chitosan using tripolyphosphate and pyrophosphate as cross-linkers. Int. J. Biol. Macromol. 92: 476–483.

Sechi, M., D. N. Syed, N. Pala, A. Mariani, S. Marceddu, A. Brunetti, H. Mukhtar, and V. Sanna. 2016. Nanoencapsulation of dietary flavonoid fisetin: Formulation and in vitro antioxidant and α-glucosidase inhibition activities. Mater. Sci. Eng. C. 68: 594–602

Sundari, Zuprizal, T. Yuwanta and R. Martien. 2014. Effect of nanocapsule level on broiler performance and fat deposition. Int. J. Poult. Sci. 13: 31-35.