但是,和乳酸系统所不同的是,有氧系统产生的能量更为清洁有效。
But quite unlike the lactic acid system, the aerobic system produces a clean efficient supply of energy.
以上就是三种供能系统:磷酸肌酸系统、乳酸系统和有氧系统,它们工作的方式不同,却有着相同的目的—为工作的肌肉提供AT P。
So that's the three energy systems: ATP-PC, Lactic and Aerobic energy systems. All working in different ways, they all have the same purpose: to produce ATP for the working muscles.
找找“活跃乳酸菌”的标签,一些研究人员认为他们可以刺激你的免疫系统以抗击疾病。
Look for labels listing "live and active cultures." Some researchers believe they may stimulate your immune system to fight disease.
乳酸和益生菌:乳酸和益生菌对机体的消化系统非常有益,它们能够在传统的发酵性食品中获得。
Lactic Acid and Friendly Bacteria: Contribute to the health of the digestive tract. Found in old fashioned lacto-fermented foods.
第一部分为筛选具有益生菌特性的乳酸菌,以提供肠道保健及当做第二部分的穿梭载体系统之宿主。
In part I, the probiotic Lactic acid bacteria was screened and used for provide intestinal health and host of shuttle vector of LAB.
聚乳酸作为可降解的绿色生物材料,在组织工程支架、药物控释系统等领域得到了广泛的应用。
Polylactic acid as a kind of green biodegradable material, has been applied extensively in the tissue engineering scaffolds and drug controlled release devices.
随着比赛激烈程度的增加,乳酸能系统供能所占的比例亦会增高。
During fencing, the energy supply proportion among the three energy supply systems depends on the intensity and the lasting time of each event.
嗜酸乳酸菌帮助维持吸收营养的最佳环境,促进肠道微生物菌落的平衡,改善肠道系统维持健康功能。
Acidophilus supports a favorable environment for the absorption of nutrients, encourages intestinal microflora balance, and promotes the healthy functioning of the intestinal system.
基于此,从乳酸的结构特点出发,对聚乳酸的合成方法、微观结构、性能等进行了系统阐述。
The synthesis methods, microstructure and properties of PLA were reviewed, and the relationship between its microstructure and properties was described.
综述可生物降解嵌段共聚物聚乙二醇-聚乳酸(PEG -pla)及其微粒给药系统在药剂学中的研究与应用。
This article reviewed pharmaceutical research and application of biodegradable PEG-PLA block copolymers and its micro - or nano-particles as drug delivery system.
目的:系统评价乳酸菌属益生菌对婴幼儿湿疹及特应性湿疹的一级预防作用。
OBJECTIVE: to determine whether lactic acid bacteria as probiotics is efficacious in the primary prevention of infantile eczema or atopic eczema.
目的:观察超高分子量聚DL_乳酸(PDLLA)骨折内固定系统在下颌骨骨折内固定时的降解特性。
Objective:The aim of this experiment was to study the character of degradation of super_high molecular weight poly_DL_lactic acid (PDLLA) internal fracture_fixing system.
目的:观察超高分子量聚DL_乳酸(PDLLA)骨折内固定系统在下颌骨骨折内固定时的降解特性。
Objective:The aim of this experiment was to study the character of degradation of super_high molecular weight poly_DL_lactic acid (PDLLA) internal fracture_fixing system.
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