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    • 4. 发明申请
    • FOOD PRODUCT FOR REGULATING LIPID METABOLITES AND METHODS
    • 用于调节脂质代谢物和方法的食品
    • WO2017103900A1
    • 2017-06-22
    • PCT/IB2016/057769
    • 2016-12-19
    • MARS, INCORPORATEDMARS PETCARE UK
    • ALLAWAY, DavidHEWSON-HUGHES, Adrian
    • A23K1/00A23K1/18
    • A23K20/147A23K20/158A23K50/40
    • The present invention relates to methods of determining the levels of endogenous margaric acid before and after a meal in a companion animal, wherein the meal is a pet foodstuff having a particular protein to fat ratio, which is useful in increasing the endogenous levels of margaric acid post-prandially and having the beneficial effects as described herein. The pet foodstuff comprises a ratio of protein to fat of 1 :0.27 to 1 :0.63 on a gram:gram as fed or dry matter basis. The invention also relates to methods of determining levels of lipid metabolites, such as palmitic acid, diacylglycerol (DAG), triacylglycerols (TAGs) and ceramides before and after a meal in a companion animal, wherein the meal is a pet foodstuff having a particular protein to fat ratio, which is useful in controlling,, regulating and stabilizing lipid metabolites post-prandially to prevent and/or reduce lipotoxicity in the companion animal.
    • 本发明涉及确定伴侣动物在餐前和餐后水平的内源性十足酸的方法,其中膳食是具有特定蛋白质与脂肪比例的宠物食品,其是有用的 在餐后增加马鞭草酸的内源水平并具有如本文所述的有益效果。 该宠物食品包含1:0.27至1:0.63的蛋白质与脂肪的比例,以克:克计,以饲料或干物质为基础。 本发明还涉及确定陪伴动物进餐前后脂质代谢物如棕榈酸,二酰基甘油(DAG),三酰基甘油(TAG)和神经酰胺的水平的方法,其中膳食是具有特定蛋白质的宠物食品 这对控制,调节和稳定脂肪代谢产物以便预防和/或减少伴侣动物的脂毒性是有用的。
    • 10. 发明申请
    • NON RADIOACTIVE IRON ISOTOPES AND METHOD FOR USE IN TRACING MARINE SPECIES
    • 非放射性同位素和用于追踪海洋物种的方法
    • WO2016090479A1
    • 2016-06-16
    • PCT/CA2015/051290
    • 2015-12-08
    • OCEANEOS ENVIRONMENTAL SOLUTIONS, INC.
    • GROSS, Peter
    • G01N27/00A01K11/00A01K67/033C12N1/12A23K20/20A23K10/22A23K50/80A23K1/175A23K1/18
    • A23K50/80A01K11/006A01K61/90A23K20/20A23K20/30
    • Disclosed is a method for tracing marine species movement and location by using ratios of stable Iron isotopes. Marine phytoplankton consumes Iron as part of their photosynthetic process. If unique Iron isotope formulations are delivered to photosynthesizing phytoplankton, they will consume the Iron formulation. Marine species that feed on these phytoplankton cells will also contain the Iron formulation. Mass spectrometry may then be used to identify the unique Iron isotope ratios in marine species that have fed, directly or indirectly, upon the phytoplankton. This may therefore be used as a method for identifying marine species that have occupied a specific location and time, and tracing their movements. This may also be used as a fingerprint in fishmeal, allowing fish that have fed upon a specific formulation of fishmeal to be uniquely identified. Because these isotopes of Iron are non-radioactive and present in nature, these isotopes are not harmful to the environment or organisms that feed upon them.
    • 公开了通过使用稳定的铁同位素比率跟踪海洋物种运动和定位的方法。 海洋浮游植物消耗铁作为光合作用的一部分。 如果将独特的铁同位素配方输送到光合作用的浮游植物中,则它们将消耗铁制剂。 饲养这些浮游植物细胞的海洋物种也将含有铁制剂。 然后可以使用质谱法来确定直接或间接进入浮游植物的海洋物种中独特的铁同位素比。 因此,这可以用作识别占有特定位置和时间并追踪其运动的海洋物种的方法。 这也可以用作鱼粉中的指纹,使得能够唯一地识别已经喂食特定鱼粉制剂的鱼。 因为这些铁的同位素是非放射性的并且在自然界中是存在的,所以这些同位素对环境或饲养它们的生物无害。