胆汁的拉伸性能和拉伸粘度。

IF 1 4区医学 Q4 BIOPHYSICS

Biorheology Pub Date : 2019-01-01 DOI:10.3233/bir-190216

N. Minh, H. Obara, K. Shimokasa, Junfang Zhu

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引用次数: 3

摘要

胆汁由肝脏分泌，对消化脂肪和维持体内平衡至关重要。虽然胆汁的流变性对其流动非常重要，但其拉伸粘度尚未得到研究。目的研究胆汁的拉伸情况，并利用纤维破裂装置评估其拉伸粘度。方法在断丝器端板间形成液桥。用激光测微仪记录了桥的中点直径。高分辨率高速摄像机捕捉到了细丝的自变薄过程。我们用液桥直径来评估胆汁的伸展粘度。结果所有样品均表现出剪切减薄和粘弹性。胆汁沉淀物比胆汁溶液具有更大的粘度和拉伸性。纤丝稀释对胆汁沉淀物的处理时间较长，对溶液的处理时间较短。中纤丝直径的全局函数可用于预测液桥纤丝直径的变化和胆汁拉伸粘度的变化趋势。结论胆汁的拉伸粘度远大于剪切粘度。由于粘液浓度使胆汁沉淀物比溶液更粘稠，胆汁粘度会急剧增加，从而增加胆结石和胆道系统淤积污泥等疾病的风险。

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Tensile behavior and extensional viscosity of bile.

BACKGROUND Bile, which is secreted by the liver, is essential for digesting fat and maintaining homeostasis. Although the rheology of bile is very important to its flow, its extensional viscosity has not been studied. OBJECTIVE We investigated the stretching of bile and evaluated its extensional viscosity using a filament-breakup device. METHODS A liquid bridge formed between the endplates of the filament-breakup device. The midpoint diameter of the bridge was recorded by a laser micrometer. The filament self-thinning was captured by a high-resolution, high-speed camera. We used the liquid bridge diameter to evaluate the extensional viscosity of bile. RESULTS All samples show shear-thinning and viscoelasticity. Bile sediment has much greater viscosity and stretches more than bile solution. Filament thinning takes a long time for bile sediment and a short time for solution. The global function for the mid-filament diameter can be used to predict the evolution of the filament diameter of the liquid bridge and the trend of the extensional viscosity of bile. CONCLUSIONS The extensional viscosity of bile is much greater than its shear viscosity. Because mucus concentration makes bile sediment more viscous than the solution, bile viscosity can increase sharply, thereby increasing risks of such diseases as gallstones and sludge buildup in the biliary system.

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来源期刊

Biorheology 医学-工程：生物医学

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Biorheology is an international interdisciplinary journal that publishes research on the deformation and flow properties of biological systems or materials. It is the aim of the editors and publishers of Biorheology to bring together contributions from those working in various fields of biorheological research from all over the world. A diverse editorial board with broad international representation provides guidance and expertise in wide-ranging applications of rheological methods to biological systems and materials. The scope of papers solicited by Biorheology extends to systems at different levels of organization that have never been studied before, or, if studied previously, have either never been analyzed in terms of their rheological properties or have not been studied from the point of view of the rheological matching between their structural and functional properties. This biorheological approach applies in particular to molecular studies where changes of physical properties and conformation are investigated without reference to how the process actually takes place, how the forces generated are matched to the properties of the structures and environment concerned, proper time scales, or what structures or strength of structures are required.