Effects of vitamins K1 and K3 addition to diets with calcium deficiency on performance and physicochemical indicators of tibia bone in Japanese quails

Mohammadzadeh, Sahar; Vahdatpour, Tohid; Ebrahimnezhad, Yahya

doi:10.22059/jap.2018.257541.623280

Document Type : Research Paper

Authors

¹ Department of Animal Sciences, Faculty of Animal and Veterinary Sciences, Shabestar Branch, Islamic Azad University, Shabestar, Iran

² Associate Professor, Department of Animal Sciences, Faculty of Animal and Veterinary Sciences, Shabestar Branch, Islamic Azad University, Shabestar, Iran

https://doi.org/10.22059/jap.2018.257541.623280

Abstract

Effects of vitamins K₁ and K₃ addition to a low calcium diet on the structure of tibia bone and performance of Japanese quail were evaluated by using 192 birds in a completely randomized design with four treatments, four replicates and 12 birds per each. The treatments included: diet containing the recommended level of calcium (control), low calcium diet (70% of recommended level), low calcium + vitamin K₁, and low calcium diet + vitamin K₃. The quails consumed a greater amount of calcium deficiency diet (P<0.05). Feed intake decreased by supplementing diets by vitamin K₁. The live weight of birds fed low calcium diet was lower than control birds (P<0.05). The live body weight and FCR improved by supplementing low calcium diet with K₁ or K₃ (P<0.05). Maximum diameter of diaphysis increased in birds fed on diet containing K₃, but the minimum diameter of diaphysis increased by feeding diets containing K₁ or K₃ (P<0.05). The bone middle canal increased in birds fed low calcium diet (P<0.05). There had no difference in bone middle canal between birds fed on diet containing K₁and control diet. In birds fed K₁ supplemented diet the bone ash weight was lower and length of bone was higher than those fed on diets containing K₃ (P<0.05).According to the these results, addition vitamin K₁ to low calcium diet improves the growth performance and bone physical properties in female quails.

Keywords

20.1001.1.20096776.1397.20.3.11.8

References

انصاری ف (1393) همه چیز درباره ویتامین K برای زندگی. چاپ اول، موسسه فرهنگی و انتشاراتی شیمی. 44-30.

2. خادمیان ر (1395) ویتامین K و انعقاد خون، فواید ویتامین K برای بدن. رساله پزشکی. دانشگاه علوم پزشکی اصفهان.

3. خسروینژاد م (1396) مکانسیم اثر کلسیم در اسکلت بدن. واحد اطلاعرسانی دارو و مرکز بهداشت تهران.

4. خلیلپور ق (1395) مصرف خوراک در بلدرچینهای ژاپنی. آژند دام، پایگاه خبری صنعت دام، طیور و آبزیان، 8- 7.

5. رحیمی م و سوادگر م (1391) آشنایی با خواص ویتامینها. مجله سلامت عصر ایران. (2)3:
119-111.

6. زهروی م، نصیری مقدم ح ، افتخاری شاهرودی ف و دانشمسگران م (1380) اثر نوع منبع و سطح کلسیم جیره غذایی و اندازه ذرات سنگ آهک بر ویژگیهای تولیدی و سختی استخوان درشتنی در جوجههای گوشتی. علوم و فنون کشاورزی و منابع طبیعی (5)3: 154-143.

7. عشرتی ع و گوهری س (1395) تعیین میزان دیرجوش خوردن و عدم جوش خوردن به دنبال روش جراحی میلهگذاری داخل کانال استخوان در شکستگیهای تروماتیک استخوان درشتنی در بیمارستان آریا و درمانگاه ارتوپدی پزشکی قانونی در سالهای 87-84 . مجله علوم پزشکی، دانشگاه آزاد اسلامی واحد مشهد (6)1: 8-1.

8. منصوری م (1377) آسیبهای اندامهای تحتانی. سمینار دانشگاه علوم پزشکی تهران. 30-27.

9. نصیرزاده د (1391) ویتامینK ، درمان بیماریهای مرتبط با تغذیه، غدد و متابولیسم.تغذیه و رژیم درمانی. مجله دکتر سلام. 17-16.

10. Carolin E and A Claude (2015 (Vitamin K for meat quail in growth. Seminar Ciencias Agrarias (14)79: 318-323.

11. Jacqueline B and MS Marcusi (2013) Vitamin and mineral basics: The healthy foods and beverages including phytonutrients and functional foods. FADA in culinary nutrition 22: 401-410.

12. Jin S and L Sell (2001) Dietary vitamin K₁ requirement and comparison of bio potency of different vitamin K source for young turkeys. Poultry Science 80(5): 615-20.

13. Leon S (2015) Vitamin K₁ and K₃ two underappreciated nutrients that are crucial for health. Dr. Macro’s Natural Health Newsletters. 91: 637-676.

14. Müller Fernandes JI, Eiko Murakami A, Scapinello C, Moreira and E Varela Varela (2009) Effect of vitamin K on bone integrity and eggshell quality of white hen at the final phase of the laying cycle. Revista Brasileria Zootecnia 38(3): 488-492.

15. NRC (1994) National research council. Nutrient requirements of poultry. 9th Revised Edition. National Academic Press, Washington, DC. USA.

16. Oztopcu P, Kabadere S, Mercangoz A and Uyar R (2004) Comparison of vitamins K₁, K₂ and K₃ effects on growth of rat glioma and human glioblastoma multiform cells in vitro. Acta Neurology (17)104: 106-110.

17. Shea MK, Kritchevsky SB, Hsu FC, Nevitt M, Booth SL, Kwoh CK, McAlindon TE, Vermeer C, Drummen N, Harris TB, Womack C and R.F. Loeser (2015) The association between vitamin K status and knee osteoarthritis feature in older adults. The health aging and body composition study. Osteoarthritis and Cartilage 23: 370-378.

18. Shimizu T (2014) Vitamin K dependent carboxylation of osteocalcin affects the efficacy of teriparatide. PTH for skeletal repair. Bone (21)80: 95-101.

19. Tanno K and K Shit (2008) Association of hip fracture incidence and intake of calcium, magnesium, vitamin D and vitamin K. EUJ Epidemiology (41)23: 219-250.

20. Vahdatpour T, Ebrahimnezhad Y, and S Vahdatpour (2014) Effects of dietary functional additives on characteristics minerals of tibia bone and blood parameters of Japanese quails. International Journal of Plant and Animal Environment (23)4: 690-695.

21. William D and M Darning (2008) Protecting bone with vitamin K₁. Animal Science 30: 40-48.

Animal Production

Effects of vitamins K1 and K3 addition to diets with calcium deficiency on performance and physicochemical indicators of tibia bone in Japanese quails

References

References

Volume 20, Issue 3
November 2018
Pages 477-486

Effects of vitamins K1 and K3 addition to diets with calcium deficiency on performance and physicochemical indicators of tibia bone in Japanese quails

References

References

Volume 20, Issue 3November 2018Pages 477-486

Volume 20, Issue 3
November 2018
Pages 477-486