• 한국가금학회지
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• 제31권2호
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• pp.73-78
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• 2004

${\beta}$-8-Apo-carotenoic acid ethyl ester (ACA)를 0~300mg/kg을 사료에 첨가하였을 때 산란노계의 피부 및 계육에 미치는 착색효과를 조사하였다. 산란노계에서 황색도($b^*$ )는 모든 부위의 피부에 있어서 ACA를 5~100mg/kg 이상 첨가시 무첨가구보다 유의적으로 높았다(P < 0.05). 날개육, 가슴육 및 다리육에서 유의적 수준의(P < 0.05) 황색도 변화를 일으키기 위해서는 100-200 mg/kg 이상의 ACA 첨가가 필요하며 피부에 비하여 첨가수준이 약간 더 높았다. ACA의 첨가수준에 따른 일령별 난황색의 변화는 급여 1일에서는 무첨가구와 첨가구간에 유의차가(P < 0.05)가 300 mg/kg에서만 보였으나, 2일째부터는 무첨가구에 비하여 모든 첨가구가 유의적으로 높았다(P < 0.05). 1-5주간 급여시 모든 첨가구가 무첨가구보다 첨가수준이나 급여기간에 관계없이 유의적으로 높았다(P < 0.05). 1~5주간 급여시 모든 첨가구가 무첨가구보다 첨가수준이나 급여기간에 관계없이 유의적으로 높았다(P < 0.05).

• Asian-Australasian Journal of Animal Sciences
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• 제9권5호
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• pp.515-517
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• 1996

The relative efficiencies of deposition into egg yolk of apo-carotenoic acid ester(APO-E, CAROPHYLL Yellow) and saponified marigold xanthophylls (MX), in the presence of canthaxanthin (CN), were determined using a wheat-based diet. APO-E was deposited with an efficiency of 50 percent and MX with an efficiency between 13 and 20 percent. The dose response relationship for MX was curvilinear with a decreased efficiency at higher concentrations. Canthaxanthin was deposited with and efficiency of 38 percent, irrespective of the source of yellow xanthophylls, up to a dietary concentration of 5.5 mg/kg. At a dietary MX concentration of 8.3 mg/kg the efficiency of deposition of CN declined to 24 percent. The results confirm that the replacement ratio of MX : APO-E is between 3 : 1 and 4 : 1 depending on the dietary inclusion of marigold pigment.

• Asian-Australasian Journal of Animal Sciences
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• 제23권6호
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• pp.799-805
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• 2010

Since the consumption of spent laying hens as roasted skewered meat increases, the effects of various carotenoids on pigmentation and antioxidant activity were tested with 62-wk-old 250 ISA brown laying hens to improve the quality of chicken meat. In a 6-wk feeding trial, 4 carotenoids with different polarity (${\beta}$-8-apo-carotenoic acid ethyl ester (ACAEE)>astaxanthin>canthaxanthin>${\beta}$-carotene) at 100 mg carotenoid/kg feed were used. The more polar the carotenoids, the higher were the levels in blood. After 5-wk adaptation, the concentrations of astaxanthin, canthaxanthin, and ACAEE in blood were -4 ${\mu}g/ml$. Canthaxanthin decreased significantly (p<0.05) the level of total blood cholesterol. Decreases in blood triglyceride by all carotenoids used were significant. ACAEE and astaxanthin tended to increase skin yellowness of thigh, breast, and wing proportionally to feeding period. In the case of polar carotenoids (ACAEE and astaxanthin), the longer the period of feeding, the higher the accumulation in skin was observed. Only astaxanthin was effective against the production of lipid peroxides in skin. Conclusively, out of the commercially available carotenoids we tested, astaxanthin is recommended for pigmentation of skin and inhibition of lipid oxidation.

• 한국가금학회:학술대회논문집
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• 한국가금학회 2003년도 제20차 정기총회 및 학술발표회
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• pp.9-27
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• 2003

This study was performed to measure the effect of carotenoid polarity on absorption and Pigmentation in blood, muscle, and skin of laying hens. Carotenoids used in this study and Polarity were ${\beta}$-8-Apo-carotenoic acid ethyl ester(ACAEE) ＞ astaxanthin ＞ canthaxanthin ＞ ${\beta}$-carotene. The chickens used in this study were 61∼78 weeks old ISA brown laying hens. Experiment #1 was designed to measure the effect of carotenoid level on the accumulation of carotenoids in carcass of laying hens after feeding for 6 weeks. D-carotene was accumulated in skin only at a detectable level when it was fed at 300 mg/kg feed. The skin was pigmented as yellow when it was measured by colorimeter. The concentration of ${\beta}$-carotene in blood was proportional to that in the feed. Pigmentation of muscle by 9-carotene was not effective. Canthaxanthin significantly increased redness of the skin(p＜0.05). However, canthaxanthin did not pigment muscle. The level of canthaxanthin in the blood and skin increased as the concentration in feed increased. ACAEE at 200 and 300 mg/kg feed significantly increased yellowness of the skin(p＜0.05). At all levels of ACAEE used($\geq$50 mg/kg feed) the b values of colorimeter increased. With increases in the contents of ACAEE, the concentration of ACAEE in the blood and skin increased. Compared to ${\beta}$-carotene, ACAEE and canthaxanthin were absorbed 9- and 3-fold more into the blood, respectively. The concentration of ACAEE and canthaxanthin in the skin was 1/10 of those in the blood. The lower were the concentrations of carotenoids in the feed, the higher were the absorption rates(from feed to blood and from blood to skin) The results indicated that the higher was the polarity of carotenoids, the more effective were the absorption and pigmentation. In experiment #2, the effect of carotenoid levels of feed on the accumulation of carotenoids in each body part of laying hens was determined. The colorimeter values for redness and yellowness significantly increased when canthaxanthin was fed at $\geq$50 mg/kg feed(p＜0.05). Breast and thigh were not affected by feeding of canthaxanthin at the levels used. The L values of muscle but not the a and b values were significantly affected by feeding at $\geq$200 mg/kg feed for wings and breasts, respectively. The yellowness of skin and muscle significantly increased when ACAEE was fed at $\geq$ 100 and $\geq$ 200 mg/kg feed, respectively(p＜0.05).