Prolonged primary afferent induced alterations in dorsal horn neurones, an intracellular analysis in vivo and in vitro.

Journal de physiologie Pub Date : 1988-01-01
C J Woolf, S W Thompson, A E King
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Abstract

1.) Peripheral tissues injury produces long lasting sensory and motor disturbances in man that present as the post-injury hypersensitivity syndrome with a reduction in the threshold required to elicit either pain or the flexion withdrawal reflex and an exaggeration of the normal response to suprathreshold stimuli. 2.) Two mechanisms contribute to these changes; sensitization of the peripheral terminals of high threshold primary afferents and an increase in the excitability of the spinal cord; a phenomenon known as central sensitization. 3.) Central sensitization has previously been shown by our laboratory to be the consequence of activity in unmyelinated primary afferents. Brief (20 s) C-fibre strength conditioning stimuli have the capacity to produce both a prolonged heterosynaptic facilitation of the flexion reflex and an alteration in the response properties of dorsal horn neurones, that long outlast the conditioning stimulus. 4.) In the adult decerebrate-spinal rat preparation we have, using intracellular recordings of dorsal horn neurones, examined the time course of the central effects of different types of orthodromic inputs. The hemisected spinal cord preparation isolated from 12-14 day rat pups has been used to see whether prolonged alterations in dorsal horn properties induced by orthodromic inputs can be studied in vitro. 5.) Single stimuli applied to a cutaneous nerve at graded strengths to successively recruit A beta, A delta and C-afferents produce, in the majority of neurones recorded in the deep dorsal horn in vivo, a series of post synaptic potentials that last from between ten and several hundred milliseconds. 6.) Repeated low frequency stimulation of C but not A-afferent fibres results in a pattern of progressive response increment or windup in a proportion of dorsal horn neurones. In some of the neurones the windup is associated with a depolarization that outlasts the stimulus period for tens of seconds. 7.) Application of the chemical irritant mustard oil to the skin activates chemosensitive C-afferent fibres for 1-3 minutes. Such a conditioning stimulus results however in an expansion in the size and an alteration in the response properties of the receptive fields of dorsal horn neurones that lasts for tens of minutes. 8.) In dorsal horn neurones recorded intracellularly in the isolated hemisected spinal cord, both intrinsic membrane properties and the orthodromic responses to primary afferent input can be studied. Repeated stimulation of a dorsal root produces in some neurones a prolonged heterosynaptic facilitation with both an augmentation of the response to the conditioning root (homosynaptic potentiation) and to adjacent test roots (heterosynaptic potentiation).(ABSTRACT TRUNCATED AT 400 WORDS)

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在体内和体外的细胞内分析中,延长的原发性传入诱导了背角神经元的改变。
1)。外周组织损伤在人体中产生持久的感觉和运动障碍,表现为损伤后超敏反应综合征,引起疼痛或屈曲退缩反射所需的阈值降低,对阈值以上刺激的正常反应夸大。2)。有两种机制促成了这些变化;高阈值初级传入神经末梢的敏化和脊髓兴奋性的增加;这种现象被称为中枢敏化。3)。我们的实验室先前已经证明,中枢致敏是无髓鞘初级传入活动的结果。短暂的(20秒)c纤维强度调节刺激有能力产生长时间的屈反射异突触促进和背角神经元反应特性的改变,这种改变比条件刺激持续时间长。4)。在成年失脑脊髓大鼠的实验中,我们利用背角神经元的细胞内记录,研究了不同类型的正畸输入的中枢效应的时间过程。从12-14天大鼠幼崽中分离的半切脊髓制备物用于观察是否可以在体外研究正畸输入引起的背角特性的长期改变。5)。在体内记录的深背角的大多数神经元中,对皮神经以分级强度施加单一刺激,使其连续激活a - β、a - δ和c -传入神经,会产生一系列突触后电位,持续时间从10毫秒到几百毫秒不等。6)。反复低频刺激C传入纤维而非a传入纤维可导致部分背角神经元的进行性反应增加或卷曲。在一些神经元中,发条与去极化有关,这种去极化持续时间比刺激期长几十秒。7)。将化学刺激物芥末油涂抹在皮肤上,激活化学敏感的c -传入纤维1-3分钟。然而,这种条件刺激导致背角神经元接受野的大小扩大和反应特性的改变,持续数十分钟。8)。在离体半切脊髓细胞内记录的背角神经元中,可以研究其固有膜特性和对初级传入输入的正交反应。对背根的反复刺激在某些神经元中产生长时间的异突触促进,同时增强对条件根(同突触增强)和相邻测试根(异突触增强)的反应。(摘要删节为400字)
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