HISTOLOGICAL STRUCTURE OF THE KINTAMANI DOG ON THE SEXUAL MATURITY PERIOD

  • Ni Luh Eka Setiasih Fakultas Kedokteran Hewan Universitas Udayana
  • Putu Suastika Laboratory of Veterinary Histology, Udayana University
  • Luh Gede Sri Surya Heryani Faculty of Veterinary Medicine Udayana University
  • Ni Nyoman Werdi Susari Faculty of Veterinary Medicine Udayana University

Abstract

The objective of this study was to determine the histological structure of uterus of the kintamani dogs on the sexual maturity period. In this study using five samples of uterine organs of the kintamani dog. The tissue were taken from corpus of the uterine. The histological structure was observed using hematoxylin-eosin (HE). Identification of the histological structure of uterus observed with a microscope at 100x and 400x magnification. The results showed the endometrial lining   consisted a single layer  of the columnar epithelium and lamina propria with tubular glands, myometrium consisted of smooth muscle and perimetrium with connective tissue, nerves and blood vessels

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References

Agustina KK, Cahya IMRD, Widyantara GM, Swacita IBN, Dharmayudha AAGO, Rudyanto MD. 2017. Nilai Gizi dan Kualitas Fisik Daging Sapi Bali berdasarkan Jenis Kelamin dan Umur. Bul. Vet. Udayana., 9(2): 156-163.
Albrecht E, Gotoh T, Ebara F, JX Xu, Viergutz T, Nuernberg G, Maak S, Wegner J. 2011. Cellular conditions for intramuscular fat deposition in Japanese Black and Holstein steers. Meat Sci., 89: 13-20.
Barrett A, Jack B, R. Mhicelle R, Timoty R. 1998. Texture and Storage Stability of Process Beefstick as Affected by Glycerol and Moisture Levels. J. Food Sci., 63: 84-87.
Ballin NZ. 2010. Authentication of meat and meat products. Meat Sci., 86(3): 577-587.
Gebrehiwot HW, Balcha E, Hagos Y, Wrkelul K. 2018. Determination of pH and water holding capacity of beef from selected butcher shops of Mekelle, Ethiopia. J. Vet. Med. Anim. Health., 10(6): 159-164.
Gotoh T, Joo ST. 2016. Characteristics and Health Benefit of Highly Marbled Wagyu and Hanwoo Beef. Korean J. Food Sci. Anim. Resour., 36(6): 709-718.
Handiwirawan E, Subandriyo. 2004. Potensi dan Keragaman Sumberdaya Genetik Sapi Bali. Bogor. Bul. Ilmu Peternakan Indoesia., 14(3): 107-115.
Harper GS, Pethick DW. 2004. How might marbling begin? Australian J. Exp. Agric., 44(7): 653-662.
Hopkins DL, Ponnampalam EN, van de Ven RJ, Warner RD. 2014. The effect of pH decline rate on the meat and eating quality of beef carcasses. Anim. Prod. Sci., 54: 407-413.
Horii H, Sakurai Y, Kanbe Y, Kasai K, Ono K, Asada T, Mori T, Kobayashi M, Iguchi A, Yamada M, Hayashi M, Hodate K. 2009. Relationship between Japanese beef marbling standard numbers and intramuscular lipid in M. longissimus thoracis of Japanese Black steers from 1996 to 2004. Nihon Chikusan Gakkaiho., 80: 55-61.
Hwang YH, Kim GD, Jeong JY, Hur SJ, Joo ST. 2010. The relationship between muscle fiber characteristics and meat quality traits of highly marbled Hanwoo (Korean native cattle) steers. Meat Sci., 86: 456-461.
Judge MD, Arberle ED, Forrest JC, Hendrick HB, Merkel RA. 1989. Priciples Meat Science 2nd Ed. Kendall/Hunt Publishing Co, lowa.
Lawrie RA. 2003. Ilmu Daging. Edisi 5 Penerjemah Aminuddin parakkasi. Penerbit Universitas Indonesia, Jakarta.
Lonergan EH, Lonergan SM. 2005. Mechanisms of water-holding capacity of meat. Meat Sci., 71: 194-204.
Pereira PMCC, Vicente AFRB. 2013. Meat nutritional composition and nutritive role in the human diet. Meat Sci., 93: 586-592.
Prasetyo A, Kendriyanto. 2010. Kualitas daging sapi dan domba segar yang disimpan pada suhu dingin dengan pengawet asap cair. Seminar Nasional Teknologi Peternakan dan Veteriner. Proc. Pp. 843-848.
Radunz AE, Loerch SC, Lowe GD, Fluharty FL, Zerby HN. 2009. Effect of Wagyu- versus Angus-sired calves on feedlot performance, carcass characteristics, and tenderness. J. Anim. Sci., 87(9): 2971-2976.
Sarassati T, Agustina KK. 2015. Kualitas Daging Sapi Wagyu dan Daging Sapi Bali yang Disimpan pada Suhu -19oC. Indon. Med. Vet., 4(3): 178-185.
Sasaki K, Motoyama M, Yasuda J, Yamamoto T, Oe M, Narita N, MaiImanari, Fujimura S, Mitsumoto M. 2010. Beef texture characterization using internationally established texture vocabularies in ISO5492:1992: Differences among four different end-point temperatures in three muscles of Holstein steers. Meat Sci., 86(2): 422-429.
Smith SB. 2015. The Production of High-Quality Beef with Wagyu Cattle. Texas A&M University Department of Animal Science College Station, TX 77843-2471. Pp: 1-26
Suardana IW, Swacita IBN. 2009. Higiene Makanan. Udayana University Press. Denpasar.
Suwiti NK, Besung INK, Mahardika GN. 2017. Factors influencing growth hormone levels of Bali cattle in Bali, Nusa Penida, and Sumbawa Islands, Indonesia. Vet. World., 10(10): 1250-1254.
Weglarz A. 2010. Meat quality defined based on pH and colour depending on cattle category and slaughter season. Czech J. Anim. Sci., 55(12): 548-556.
Widiati R. 2014. Membangun Industri Peternakan Sapi Potong Rakyatdalam Mendukung KecukupanDaging Sapi. Wartazoa., 24(4): 191-200.
Published
2019-01-24
How to Cite
SETIASIH, Ni Luh Eka et al. HISTOLOGICAL STRUCTURE OF THE KINTAMANI DOG ON THE SEXUAL MATURITY PERIOD. Buletin Veteriner Udayana, [S.l.], p. 39-43, jan. 2019. ISSN 2477-2712. Available at: <https://ojs.unud.ac.id/index.php/buletinvet/article/view/36480>. Date accessed: 21 nov. 2024. doi: https://doi.org/10.24843/bulvet.2019.v11.i01.p07.
Section
Articles

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