Eklund A, Koskinen L-O D, Malm J
Department of Biomedical Engineering and Informatics, Umeå University Hospital, Sweden.
J Neurol Neurosurg Psychiatry. 2004 Aug;75(8):1156-9. doi: 10.1136/jnnp.2003.023168.
A new cerebrospinal fluid (CSF) shunt system, Sinushunt, has recently been introduced. CSF is shunted from the ventricles to the transverse sinus. The Sinushunt is not a classical differential pressure shunt; instead, it opens as soon as there is a positive pressure over the shunt and the flow is dependent on the resistance of the system, which is high compared with traditional CSF shunts. The objective of this study was to characterise the features of the Sinushunt and to evaluate its influence on the CSF system.
Five brand new Sinushunts with distal catheters were tested. An automated, computerised experimental apparatus based on regulation of pressure, built into an incubator at 37 degrees C, was used. Opening pressure, resistance, and anti-reflux properties were determined.
The mean (SD) opening pressure was highly dependent on the pressure in the sinus: P(open) = 1.3 (0.6) mm Hg with Psinus = 0.0 mm Hg, and Popen = 7.5 (0.6) mm Hg for Psinus = 6.5 mm Hg. The mean (SD) resistance of the shunts was 7.9 (0.3) mm Hg/ml/min and not clinically significantly affected by the sinus pressure. In one shunt there was reflux, and in another two shunts there was a very small, but similar, tendency.
This study confirms that the resistance of the Sinushunt is comparable to the physiological values in humans. However, the optimal post-operative resistance for different hydrocephalus types is unknown, and randomised clinical trials are needed to confirm improved outcome and reduced complication rate for the Sinushunt compared with traditional low resistance ventriculoperitoneal shunts. A weakness of the anti-reflux system of the Sinushunt must be suspected and has to be further investigated.
最近引入了一种新的脑脊液(CSF)分流系统——鼻窦分流(Sinushunt)。脑脊液从脑室分流至横窦。鼻窦分流不是传统的压差分流;相反,一旦分流装置上出现正压它就会打开,且流量取决于系统阻力,与传统脑脊液分流相比该阻力较高。本研究的目的是描述鼻窦分流的特征并评估其对脑脊液系统的影响。
对五个带有远端导管的全新鼻窦分流装置进行测试。使用了一个基于压力调节的自动化、计算机化实验装置,该装置置于37摄氏度的培养箱中。测定了开启压力、阻力和抗反流特性。
平均(标准差)开启压力高度依赖于窦内压力:当窦内压力Psinus = 0.0 mmHg时,开启压力P(open) = 1.3(0.6)mmHg;当Psinus = 6.5 mmHg时,Popen = 7.5(0.6)mmHg。分流装置的平均(标准差)阻力为7.9(0.3)mmHg/ml/min,且不受窦内压力的临床显著影响。在一个分流装置中出现了反流,在另外两个分流装置中有非常小但相似的反流倾向。
本研究证实鼻窦分流的阻力与人类生理值相当。然而,不同类型脑积水的最佳术后阻力尚不清楚,需要进行随机临床试验以证实与传统低阻力脑室腹腔分流相比,鼻窦分流能改善预后并降低并发症发生率。必须怀疑鼻窦分流抗反流系统存在缺陷,且有待进一步研究。