脱水造成了更加稠密的纤维结构,导致亚纤维之间建立了额外的交叉连接。 通过这种方式,脱水的皮肤能够维持其防护功能,同时进一步防止身体组织的腐烂。
In this way, the dehydrated skin could maintain its protective function and continue to prevent tissue decomposition.
脱水干燥器的干果产率相对较高,因为,晒干过程中不断的组织呼吸作用,以及酵解作用使水果中的糖分受到了损失。
The yield of dried fruit from a dehydrator is higher inasmuch as sugar is lost due to continued respiration of tissues during sun drying, and also due to fermentation.
可以通过支持性护理,保障良好的营养,摄入足够的液体,使用世卫组织推荐的口服补液治疗脱水。
Severe complications from measles can be avoided though supportive care that ensures good nutrition, adequate fluid intake and treatment of dehydration with WHO-recommended oral rehydration solution.
除了冻结,该组织可能会脱水,存放在室温允许温度。
In addition to freezing, the tissue may be dehydrated, permitting storage at room temperature.
通过这种方式,碳水化合物发挥低温保护剂和防止因冷冻而破坏结构和组织引起脱水的作用。
In this way, carbohydrates function as cryoprotectants and protect against the dehydration that destroys structure and texture caused by freezing.
结合脱水剂、微血管扩张剂、糖皮质激素和神经介质等药物应用,促进脊髓神经组织恢复。
The combined application of osmotic diuretic, glucocorticoid, vasodilator, and neurotransmitter can promote the recovery of nervous tissue in spinal cord.
本文主要介绍全自动组织脱水机控制系统和用户界面的实现。
The paper introduces the realization of the control system and user interface of Automation-tissue-dehydrating machine.
通过嵌入式计算机与两种单片机的配合就可实现全自动组织脱水机的整个控制系统。
Therefore, through the interaction of the single chip computer and embedded computer, we can realize the whole control system of automation-tissue-dehydrating machine.
因冷冻和解冻引起的细胞损伤、组织脱水、缺氧会导致血红细胞瓦解、毛细管内结块、坏疽。
Cell damage, tissue dehydration, and oxygen depletion caused by freezing and thawing can lead to blood-cell disruption, clotting in capillaries, and gangrene.
试验对鸡胸肉糜脯的腌制条件、鸡腹脂添加量及脱水方法对产品组织状态、口感和风味的影响进行了研究。
Effect of curing conditions, added amount of chicken fat in product and methods of drying on tissue structure, mouth feel and flavour of Minced chicken Breast Meat Roupu were studied.
组织脱水比与损伤程度呈正向非比例关系。
The degree of dehydration and injury didn't show direct-ratio relationship.
以脱水猪角膜基质为载体,体外可重建猫角膜内皮组织,其形态结构近似于正常角膜内皮组织。
The cat corneal endothelial tissue could be rebuilt on the dehydrated swine corneal stroma, which is similar to the nature tissue.
方法组织固定、取材、脱水、切片、染色、镜下观察。
Methods After fixing tissues in different methods, cut tissues and check sections in microscope.
将心肌组织浸入10%甲醛溶液中固定,脱水,封蜡,切片,染色。
The cardiac muscle organization was plunged into 10% formaldehyde solution to be fixed, dehydrated, wax sealed, slice cut and dyed.
本文利用时间控制原理,用可编程控制器(P LC)将自动组织脱水机改装成自动组织染色机。
According to the principle of time-control and installing PLC, an automatic tissue spine-drier is reformed to be an automatic tissue staining apparatus.
将具有细胞组织结构的含有多种可溶性成分的果蔬原料浸渍于渗透液中,会引起多组分物质迁移,原料渗透脱水。
When cellular biological materials are immersed in osmotic solution, multi-component mass transfer occurs, which ultimately leads to the loss of water from the food, or osmotic dehydration.
结论:以脱水猪角膜基质为载体,体外成功构建出猫角膜内皮组织,其形态结构近似于正常角膜内皮组织。
CONCLUSION: the cat corneal endothelial cells could be rebuilt on the carrier of the dehydrated swine corneal stroma successfully, which is similar to the nature tissue.
它的最大特点是利用非上班时间处理组织,并保证组织脱水、透明和浸蜡效果。
Its biggest advantage is to deal with the tissue during non-work time, which can also guarantee the quality of dehydration, clearing as well as wax immersion.
海藻糖和蔗糖维持了脱水时期脱水生活的生物体的结构组织。
Trehalose and sucrose maintain the structural organization in anhydrobiotic organisms on dehydration.
虽然不同脱水条件使材料达到接近的含水率,但较高湿度脱水对PLB组织细胞伤害较小。
Although the water contents of PLBs at different dehydration conditions were very close, dehydration at higher humidity had less damage on PLB.
TS J - 1a型自动组织脱水机是一种微机控制,先进的生物自动处理设备。
TSJ-1A Vacuum Automatic tissue Processor is microcomputer control, advanced biological tissue automated processing equipment.
TS J - 1a型自动组织脱水机是一种微机控制,先进的生物自动处理设备。
TSJ-1A Vacuum Automatic tissue Processor is microcomputer control, advanced biological tissue automated processing equipment.
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