Abstract |
Sixteen female piglets (58 d of age, 16.8 ± 0.8 kg body weight [BW]) were assigned to two groups (n = 8) and received until day 100 of age (50.3 ± 1.2 kg BW) ad libitum either a diet with a standard (diet C) or low (diet L) total phosphorus (P) content (5.38 and 4.23 g/kg, respectively). Diet C was supplemented with mineral P (1.15 g/kg) and did not contain microbial phytase. Diet L did not contain any inorganic P but 750 FTU/kg of microbial phytase. Despite these treatments, both diets were composed with the same ingredients. Body mineralisation of each gilt was assessed by determining the bone mineral content (BMC), area bone mineral density (BMD) by the dual-energy X-ray absorptiometry (DXA) at days 58, 72, 86 and 100 of age. Feeding diet L caused a higher P digestibility (p = 0.008) measured from days 72 to 86 of age and at 100 days of age a higher BMC and BMD (p ≤ 0.01). Furthermore, the gilts of group L deposited more minerals in the body than control pigs (by 2.4 g/d, p = 0.008). It was found that BMD and BMC were positively correlated with body lean mass and digestible P intake. The results indicated that, even for very young pigs, the addition of microbial phytase instead of inorganic P increases the amount of digestible P covering the requirements of piglets for proper bone mineralisation. Furthermore, it was proved that the DXA method can be successfully applied to measure body fat and lean mass contents as well as bone mineralisation of growing pigs using the same animals.
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Authors | Grzegorz Skiba, Dagmara Weremko, Monika Sobol, Stanisława Raj |
Journal | Archives of animal nutrition
(Arch Anim Nutr)
Vol. 69
Issue 4
Pg. 267-75
( 2015)
ISSN: 1477-2817 [Electronic] England |
PMID | 26062598
(Publication Type: Journal Article, Randomized Controlled Trial)
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Chemical References |
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Topics |
- 6-Phytase
(metabolism)
- Absorptiometry, Photon
(veterinary)
- Animal Feed
- Animals
- Animals, Newborn
(growth & development, physiology)
- Bone Density
(physiology)
- Diet
(veterinary)
- Digestion
- Female
- Phosphorus
(metabolism)
- Swine
(growth & development, microbiology, physiology)
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