Wasner G, Heckmann K, Maier C, Baron R
Neurology Clinic, Christian-Albrechts-Universität Kiel, Germany.
Arch Neurol. 1999 May;56(5):613-20. doi: 10.1001/archneur.56.5.613.
Reflex sympathetic dystrophy/complex regional pain syndrome type I (RSD/CRPS I) is a painful neuropathic disorder that may develop as a disproportionate consequence of a trauma affecting the limbs without overt nerve injury. Clinical features are spontaneous pain, hyperalgesia, impairment of motor function, swelling, changes in sweating, and vascular abnormalities.
To investigate pathophysiological mechanisms of vascular abnormalities in RSD/CRPS I.
Case study.
Autonomic test laboratory at a university hospital.
A patient with an early stage of RSD/ CRPS I of the upper limb and 2 healthy control subjects.
Cutaneous sympathetic vasoconstrictor innervation was assessed by measuring cutaneous blood flow (laser Doppler flowmetry) and skin temperature (infrared thermometry). To quantify sympathetic vasoconstrictor function, phasic (induced by deep inspiration) and tonic (induced by controlled thermoregulation) sympathetic reflexes were analyzed. Venous norepinephrine levels were determined bilaterally. The same tests were performed in the controls after induction of cutaneous antidromic vasodilation produced by histamine dihydrochloride application.
Sympathetic cutaneous vasoconstrictor function in RSD/CRPS 1.
Two weeks after the onset of RSD/CRPS I, skin temperature on the affected side was higher (close to core body temperature) than on the contralateral side at room temperature and during controlled thermoregulation, indicating maximal vasodilation. Phasic and tonic stimulation of cutaneous vasoconstrictor neurons did not induce a decrease of skin blood flow or temperature on the affected side but were normal on the contralateral side. Venous norepinephrine levels were lower on the affected side. Parallel to clinical improvement, loss of vasoconstrictor function completely recovered within weeks. Results of investigations in healthy subjects ruled out the possibility that antidromic vasodilation caused by activation of nociceptive afferents is responsible for the complete depression of sympathetic vasoconstrictor reflexes.
Demonstrated for the first time is a complete functional loss of cutaneous sympathetic vasoconstrictor activity in an early stage of RSD/CRPS I with recovery. The origin of this autonomic dysfunction is in the central nervous system.
反射性交感神经营养不良/Ⅰ型复杂性区域疼痛综合征(RSD/CRPS Ⅰ)是一种疼痛性神经病变,可能作为肢体受创伤且无明显神经损伤的不成比例后果而发生。临床特征包括自发痛、痛觉过敏、运动功能障碍、肿胀、出汗改变和血管异常。
研究RSD/CRPS Ⅰ中血管异常的病理生理机制。
病例研究。
一所大学医院的自主神经测试实验室。
一名上肢RSD/CRPS Ⅰ早期患者和2名健康对照者。
通过测量皮肤血流(激光多普勒血流仪)和皮肤温度(红外测温法)评估皮肤交感缩血管神经支配。为了量化交感缩血管功能,分析了相位性(由深吸气诱发)和紧张性(由控制性体温调节诱发)交感反射。双侧测定静脉去甲肾上腺素水平。在应用二盐酸组胺产生皮肤逆向性血管舒张后,对对照者进行相同测试。
RSD/CRPS 1中的皮肤交感缩血管功能。
RSD/CRPS Ⅰ发病两周后,在室温及控制性体温调节期间,患侧皮肤温度高于对侧(接近核心体温),表明血管处于最大舒张状态。对皮肤缩血管神经元的相位性和紧张性刺激未引起患侧皮肤血流或温度下降,但对侧正常。患侧静脉去甲肾上腺素水平较低。随着临床症状改善,缩血管功能丧失在数周内完全恢复。健康受试者的研究结果排除了伤害性传入纤维激活引起的逆向性血管舒张导致交感缩血管反射完全抑制的可能性。
首次证明RSD/CRPS Ⅰ早期存在皮肤交感缩血管活动完全性功能丧失且可恢复。这种自主神经功能障碍起源于中枢神经系统。
