Davis S L, Frohman T C, Crandall C G, Brown M J, Mills D A, Kramer P D, Stüve O, Frohman E M
Institute for Exercise & Environmental Medicine, Presbyterian Hospital of Dallas, TX, USA.
Neurology. 2008 Mar 25;70(13 Pt 2):1098-106. doi: 10.1212/01.wnl.0000291009.69226.4d. Epub 2008 Feb 20.
The goal of this investigation was to demonstrate that internuclear ophthalmoparesis (INO) can be utilized to model the effects of body temperature-induced changes on the fidelity of axonal conduction in multiple sclerosis (Uhthoff's phenomenon).
Ocular motor function was measured using infrared oculography at 10-minute intervals in patients with multiple sclerosis (MS) with INO (MS-INO; n = 8), patients with MS without INO (MS-CON; n = 8), and matched healthy controls (CON; n = 8) at normothermic baseline, during whole-body heating (increase in core temperature 0.8 degrees C as measured by an ingestible temperature probe and transabdominal telemetry), and after whole-body cooling. The versional disconjugacy index (velocity-VDI), the ratio of abducting/adducting eye movements for velocity, was calculated to assess changes in interocular disconjugacy. The first pass amplitude (FPA), the position of the adducting eye when the abducting eye achieves a centrifugal fixation target, was also computed.
Velocity-VDI and FPA in MS-INO patients was elevated (p < 0.001) following whole body heating with respect to baseline measures, confirming a compromise in axonal electrical impulse transmission properties. Velocity-VDI and FPA in MS-INO patients was then restored to baseline values following whole-body cooling, confirming the reversible and stereotyped nature of this characteristic feature of demyelination.
We have developed a neurophysiologic model for objectively understanding temperature-related reversible changes in axonal conduction in multiple sclerosis. Our observations corroborate the hypothesis that changes in core body temperature (heating and cooling) are associated with stereotypic decay and restoration in axonal conduction mechanisms.
本研究的目的是证明核间性眼肌麻痹(INO)可用于模拟体温变化对多发性硬化症(Uhthoff现象)中轴突传导保真度的影响。
对患有INO的多发性硬化症(MS)患者(MS-INO;n = 8)、无INO的MS患者(MS-CON;n = 8)和匹配的健康对照者(CON;n = 8),在常温基线、全身加热期间(通过可吞咽温度探头和经腹遥测测量核心温度升高0.8摄氏度)以及全身冷却后,每隔10分钟使用红外眼动图测量眼动功能。计算版本分离指数(速度-VDI),即外展/内收眼动速度的比值,以评估眼间分离的变化。还计算了首次通过幅度(FPA),即外展眼达到离心注视目标时内收眼的位置。
与基线测量相比,MS-INO患者在全身加热后速度-VDI和FPA升高(p < 0.001),证实轴突电冲动传递特性受到损害。然后,MS-INO患者的速度-VDI和FPA在全身冷却后恢复到基线值,证实了这种脱髓鞘特征的可逆性和刻板性。
我们开发了一种神经生理学模型,用于客观理解多发性硬化症中轴突传导与温度相关的可逆变化。我们的观察结果证实了以下假设:核心体温的变化(加热和冷却)与轴突传导机制的刻板性衰减和恢复有关。
