人鼻泪管中的泪液流动动力学——一项使用动态磁共振成像的初步研究。

Tear flow dynamics in the human nasolacrimal ducts--a pilot study using dynamic magnetic resonance imaging.

作者信息

Amrith Shantha, Goh Poh Sun, Wang Shih-Chang

机构信息

The Eye Institute, National University Hospital, Singapore.

出版信息

Graefes Arch Clin Exp Ophthalmol. 2005 Feb;243(2):127-31. doi: 10.1007/s00417-004-1045-1. Epub 2004 Dec 17.

DOI:10.1007/s00417-004-1045-1

PMID:15742210

Abstract

BACKGROUND

Jones's theory of tear drainage suggests that the lacrimal sac fills when the eyelids are closed and empties into the nasolacrimal duct when the eyelids are open. This is aided by the contraction of the orbicularis muscle during each blink. This study was undertaken to ascertain the possibility of seeing the dynamic movement of tears in the nasolacrimal system during blinks using magnetic resonance dacryocystography (MR-DCG).

METHODS

The sac was initially localized with a three-plane gradient echo sequence using a 1.5-T MRI platform. Fast, dynamic MR-DCG was carried out after we had instilled topically balanced salt solution (BSS) in five subjects and 0.5% gadolinium in seven subjects. The volunteers were asked to close and open their eyes during the fast imaging. The images were digitized to enable us to see the actual movement of fluid in the system.

RESULTS

The tear movement was clearly seen as a bolus in the volunteers where BSS was used. The fluid passed into the nasolacrimal duct after several blinks when patent. The sac was never seen to empty completely. Though differential filling was seen between the upper and lower part of the sac, it was difficult to see the actual fluid movement in the volunteers when topical gadolinium was used.

CONCLUSION

The findings of the study are supportive of the notion of fluid travel in the form of a bolus through the sac. Once a threshold volume is reached in the lower end of the sac, the fluid is seen to pass through the nasolacrimal duct. This happens after several blinks.

摘要

背景

琼斯泪液引流理论认为，眼睑闭合时泪囊充盈，眼睑张开时泪囊排空进入鼻泪管。每次眨眼时眼轮匝肌的收缩有助于这一过程。本研究旨在通过磁共振泪囊造影术（MR-DCG）确定在眨眼过程中观察鼻泪系统中泪液动态运动的可能性。

方法

首先使用1.5-T MRI平台的三平面梯度回波序列对泪囊进行定位。在5名受试者局部滴注平衡盐溶液（BSS），7名受试者局部滴注0.5%钆喷酸葡胺后，进行快速动态MR-DCG。在快速成像过程中，要求志愿者闭眼和睁眼。将图像数字化，以便我们观察系统中液体的实际运动。

结果

在使用BSS的志愿者中，泪液运动清晰可见为一团。泪道通畅时，经过几次眨眼后，液体进入鼻泪管。从未观察到泪囊完全排空。尽管在泪囊的上部和下部之间观察到了不同的充盈情况，但在使用局部钆喷酸葡胺时，很难观察到志愿者体内液体的实际运动。

结论

该研究结果支持泪液以团块形式通过泪囊流动的观点。一旦泪囊下端达到阈值体积，液体就会通过鼻泪管。这在几次眨眼后发生。

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人鼻泪管中的泪液流动动力学——一项使用动态磁共振成像的初步研究。

Tear flow dynamics in the human nasolacrimal ducts--a pilot study using dynamic magnetic resonance imaging.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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