Cerebrospinal fluid dynamics: disturbances and diagnostics.

A Lavinio, Z Czosnyka, M Czosnyka
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引用次数: 17

Abstract

The pathophysiology of hydrocephalus can be modelled and described in terms of altered biomechanical parameters. Shunting is aimed to correct the patient's cerebrospinal fluid dynamics, compensating for inadequate cerebrospinal fluid re-absorption or insufficient volume buffering reserve. Computerized infusion studies implement intracranial pressure and arterial pressure signal processing and model analysis to allow the estimation of cerebrospinal dynamics variables such as cerebrospinal fluid outflow resistance, brain compliance and pressure-volume index, estimated sagittal sinus pressure, cerebrospinal fluid formation rate, compensatory reserve and cerebral vasoreactivity. Infusion studies can assist in the prognostication of normal pressure hydrocephalus and in the diagnosis of idiopathic intracranial hypertension. The technique is also helpful in the assessment of shunt malfunction, including posture-related over-drainage and shunt obstruction.

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脑脊液动力学:干扰和诊断。
脑积水的病理生理可以根据改变的生物力学参数进行建模和描述。分流术的目的是纠正患者的脑脊液动力学,补偿脑脊液再吸收不足或容量缓冲储备不足。计算机化输液研究对颅内压和动脉压信号进行处理和模型分析,以估计脑脊液流出阻力、脑顺应性和压力-容积指数、估计矢状窦压、脑脊液形成率、代偿储备和脑血管反应性等脑脊液动力学变量。输液研究可以帮助预测正常压力脑积水和特发性颅内高压的诊断。该技术也有助于评估分流功能障碍,包括姿势相关的过引流和分流阻塞。
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