延髓腹侧结构在刺激缰核诱发升压反应中的作用

电刺激缰核(Hb)可使大鼠血压明显升高,但心率变化不明显。电刺激Hb血压升高的同时,延髓腹侧结构(VM)中46.5％的神经元自发放电频率增加,这些神经元分布在VM的升压神经元群中,41.9％的神经元自发放电频率降低,这些神经元分布在VM的降压神经元群中,11.6%的神经元自发放电频率不变,升压和降压神经元群中均有这种神经元。单侧损毁VM的网状旁巨细胞核后,动物血压基本不变,也不影响电刺激Hb引起的升压反应。双侧损毁VM的网状旁巨细胞核后,动物血压从98.4±11.2mmHg降至45.2±10.3mmHg,阻断了电刺激Hb引起的升压反应。单侧或双恻损毁疑核及部分延髓网状核腹侧后,动物血压基本不变,且不影响电刺激Hb引起的升压反应。 上述结果表明,Hb主要通过VM中升压神经元群的网状旁巨细胞核参与心血管活动的调节。     

刺激蓝斑对心肌收缩力及肾交感神经放电的影响

在64只麻醉及人工呼吸的猫,观察到电刺激蓝斑(LC)能引起血压升高、心率加快,左心室收缩压升高,左心室内压最大变化率增加及肾交感神经放电(RNA)显著地增加。去缓冲神经对电刺激 LC 所引起的上述指标的增加幅度无明显影响,但可明显延长血压反应升高相以及血压恢复期的时间。LC 内微量注射谷氨酸钠可使血压下降,心率减慢,左室收缩压和左室内压最大变化率亦降低。LC 内注射海人酸,也能引起减压反应。而注射海人酸3h 后,使LC 神经元发生变性或去极化阻断时,再电刺激 LC 仍能引起明显的升压反应。以上结果表明,电刺激 LC 可使血压升高、心肌收缩力及肾交感神经放电增加,而 LC 内微量注射胞体兴奋剂则可降低血压、心率及心肌收缩力,说明电刺激 LC 引起的加压反应可能主要是兴奋了过路纤维所致,而 LC 本身神经元的兴奋引起的是减压反应。     

家兔延髓腹侧区在吗啡抑制呼吸机制中的作用

实验在36只麻醉、制动和人工通气的家兔上进行。探讨了延髓腹侧区在吗啡引起呼吸抑制机制中的作用。结果观察到:将浸透吗啡药液的滤纸片敷贴于延髓腹侧面的S区,可以引起膈神经放电抑制;将纳洛酮置于同一区域可翻转吗啡的效应;谷氨酸钠用于S区可引起膈神经放电加强;脑桥臂旁内侧核(NPBM)微量注射吗啡引起的膈神经放电抑制效应可被钠洛酮用于S区所预防;电刺激NPBM 主要引起延髓腹侧区单位放电的抑制反应,在这些出现抑制反应的单位中,大部分对微电泳给予吗啡也表现为放电的抑制。上述结果表明,家兔延髓腹侧区存在能激活膈神经放电的神经元;将吗啡微量注射于 NPBM,可通过激活延髓腹侧区的阿片受体使该区域某些神经元抑制,进而引起膈神经放电的抑制。     

家兔延髓腹侧表面加压区与压力感受性反射的关系

实验在乌拉坦麻醉、三碘季铵酚制动和人工呼吸的41只家兔进行。电刺激延髓腹侧面加压区(VSMp)引起肾交感神经电活动(RSNA)增强和动脉血压升高。电刺激主动脉神经(AN)则导致RSNA抑制和动脉血压下降。在下列实验条件下,刺激VSMp所致的交感兴奋性效应均不受影响:(1)同时刺激VSMp和AN;(2)刺激AN期间插入VSMp刺激;(3)刺激VSMp期间插入AN刺激。但刺激AN所致的交感抑制性效应却被明显地抑制。提示兴奋VSMp的交感兴奋性效应可调制压力感受性反射的交感抑制性成分,两者之间的动态平衡是维持静态动脉血压水平的基础。     

电刺激延髓最后区对血浆肾素活性及肾交感神经活动的影响

实验在68只家兔上进行。乌拉坦麻醉。用RM-6000型多道仪同步记录呼吸(Respir)、血压(BP)、心率(HR)及肾神经放电(RSNA)。用放免法测定血浆肾素活性(PRA)。应用外径0.3mm的双芯同心电极置于延髓最后区(AP)处进行电刺激,每30s刺激4s。实验分为三组。第一组仅刺激AP观察到PRA增加了91％,RSNA出现以兴奋为主的三种放电形式,BP升高,HR减慢,呼吸无显著变化。第二组去除双侧肾神经后再刺激AP,PRA增加甚微,RSNA及血流动力学反应与第一组刺激前后的变化相似。第三组注射心得安后,刺激AP,这时除PRA明显抑制外,RSNA、BP、HR及呼吸亦与第一、第二组刺激前后的变化相似。上述结果表明电刺激兔AP能引起肾素释放增加,肾交感神经放电及血流动力学活动增强。     

大鼠延髓外周橄榄腹外侧核在中枢化学感受中的作用

本工作采用微量注射、电损毁、电刺激和微电泳的方法,探讨了大鼠延髓外周橄榄腹外侧核（ＬＶＰＯ）的否真正参与中枢化学感受功能。实验在３８只雄性ＳＤ大鼠上进行。结果表明：（１）微量注射酸化人工脑脊液于ＬＶＰＯ可引起隔神经放电活动明显加强。（２）微电泳给予Ｈ＾＋对ＬＶＰＯ的自发放电单位主要引起兴奋反应,微电泳给予Ｈ＾＋引起兴奋反应的部分单位也可被腹外侧表面微量注射酸化人工ＣＳＦ所兴奋。（３）损毁ＬＶＰＯ后     

室旁核在刺激猫肾神经传入纤维引起的血压效应中的作用

本研究的目的是在氯醛糖麻醉、颈动脉窦、主动脉弓去神经和切断迷走神经的猫中探讨室旁核和室旁核α_1肾上腺素受体在刺激肾神经传入纤维引起的升压反应中的作用。刺激肾神经中枢端可引起动脉血压明显升高。这种血压升高由两个成分组成。第一成分可被植物性神经阻断剂六烃季铵和阿托品所阻断,第二成分不能被植物性神经阻断剂所阻断。双侧室旁核毁损后,植物性神经阻断前、后刺激肾神经中枢端引起的升压反应都明显减弱。侧脑室和室旁核微量注射α_1肾上腺素受体拮抗剂哌唑嗪,可显著抑制刺激肾神经传入纤维引起的升压反应。这些结果表明,室旁核和中枢的,尤其在室旁核的α_1肾上腺素受体在刺激肾神经传入纤维引起的升压反应中起重要作用。     

兔下丘脑室旁核刺激引起的肾交感神经传出活动的抑制

本实验用家兔,氯醛糖及尿酯混合静脉麻醉,制动,人工呼吸,颈部分离出三对神经——迷走、窦及主动脉神经,以备实验中切断。记录股动脉压、肾交感神经传出性放电活动(RSED)及其频率幅度直方图。借助脑立体定向仪刺激下丘脑室旁核,当刺激较强时,在交感神经放电短暂增加之后,可引起血压升高及RSED抑制。这一抑制过程可分为两个时相:血压不变期间的初期抑制时相及与血压升高同时并存的后期抑制时相。实验发现RSED总抑制时程及后期抑制时程均与血压变动具有正相关关系,而初期抑制时程与血压变动无相关关系。切断压力感受性神经前后,虽初期抑制时程的均值无显著差异,但在切断压力感受性神经后,总抑制时程及后期抑制时程的均值大大缩短。当用较弱刺激施于室旁核时,可不引起血压变化,但仍能引起RSED抑制。这个抑制亦可因切断压力感受神经而显著缩短。上述实验结果表明:(1) 在中枢内存在着一个室旁核-肾交感传出系统的抑制机制;(2) 初期抑制来源于中枢性抑制机制,而后期抑制时相主要来源于压力感受性反射,但亦有中枢抑制机制的参与;(3) RSED的中枢抑制可能并不是兴奋后压抑,而是自室旁核至脊髓交感节前神经元的主动性抑制。     

缓冲神经在刺激兔下丘脑诱发室性期前收缩中的作用

1.静脉注射氰化钾(0.3mg/kg)可引起血压升高和室性心律失常,并能使刺激下丘脑诱发的室性期前收缩增多。去除双侧窦神经后,上述现象消失。2.刺激降压神经时,刺激下丘脑诱发的室性期前收缩显著减少。3.切断双侧缓冲神经后短时内,刺激下丘脑诱发的室性期前收缩极度增多,并且不易被躯体传入冲动所抑制。二小时后,这种室性期前收缩减少,且可为刺激腓深神经所抑制。4.电刺激延髓中线区不仅可以降低血压,而且能减弱刺激下丘脑诱发的升压反应、抑制刺激下丘脑诱发的室性期前收缩。损毁该区后,刺激腓深神经不再能抑制刺激下丘脑诱发的室性期前收缩。5.上述结果表明:化学感受性反射能易化刺激下丘脑诱发的室性期前收缩,而压力感受性反射可以抑制这种室性期前收缩,但躯体传入冲动对这种心律失常的抑制作用并不依赖于缓冲神经的存在,而有赖于延髓中线核群的完整性。     

肾缺血增强大鼠延髓腹外侧头端区神经元电话动和Fos蛋白表达

在67只切断两侧缓冲神经的麻醉Sprague-Dawley大鼠,应用细胞外记录的电生理方法和免疫组织化学技术,分别观察肾缺血对延髓腹外侧头端区巨细胞旁外侧核神经元自发放电活动和Fos蛋白表达的影响.所得结果如下(1)左肾动脉阻断后,28个单位的放电频率由11.40±1.08增至21.1±1.74spikes/s(P<0.001),血压和心率无明显变化(P>0.05);(2)在17个放电单位中,应用腺苷受体拮抗剂8-苯茶碱(8-phenyltheophylline,10mg/kg)可明显抑制肾缺血的兴奋效应(P<0.05);(3)肾缺血后,延髓腹外侧头端区的Fos蛋白样免疫反应神经元显著增加(P<0.01);(4)预先应用8-苯茶碱可明显减弱肾缺血所激活的Fos蛋白表达反应(P<0.05).以上结果提示肾缺血增强延髓腹外侧头端区神经元的放电活动和Fos蛋白表达,而此作用可能与肾脏缺血所产生的腺苷激活肾内感受器有关.     

室旁核在刺激中脑防御反应区诱发防御性升压反应中的作用

雄性ＳＤ大鼠,用乌拉坦（７００ｍｇ／ｋｇ）和氯醛糖（３０ｍｇ／ｋｇ）腹腔麻醉。实验结果：（１）每隔５ｍｉｎ电刺激中脑导水管周围灰质背侧部“防御反应区”（ｄＰＡＧ）,持续观察５０ｍｉｎ,可见恒定的升压反应。若电解毁单侧室旁核（ＰＶＮ）区。１ｈ后,电刺激中脑ｄＰＡＧ区诱发的升压反应幅度部分减小。而损毁穹隆部、下丘脑前部、下丘脑背内侧核、下丘脑腹内侧核则无上述效应。（２）电刺激或微量注射高半胱胺酸（ＤＬ     

Peripheral and central mechanisms of the pressor response elicited by stimulation of the locus coeruleus in the rat

Electrical stimulation of the pontine nucleus locus coeruleus (LC) caused an increase of the arterial blood pressure in anesthetized rats, and elevated plasma noradrenaline (NA) and adrenaline (A) levels. The stimulation-induced pressor response was characteristically biphasic and consisted of a sharp rise in arterial pressure at the onset of the stimulation, followed by a second elevation at the end of the stimulus. Bilateral adrenalectomy or adrenal demedullation completely blocked the secondary phase of the pressor response elicited by stimulation, but did not affect the primary phase. The latter was specifically eliminated by the destruction of the peripheral sympathetic vasomotor axons with intravenous 6-hydroxydopamine (6-OHDA). The active sites eliciting the secondary adrenomedullary pressor component appeared to be restricted to the nucleus LC, whereas the primary sympathetic vasomotor response could be elicited from sites in and around the nucleus. After brain transection at the midbrain level, stimulation of LC failed to evoke the adrenomedullary pressor response, while the sympathetic vasomotor component was not affected. Similarly, destruction of brain NA neurons by intraventricular administration of 6-OHDA did not change the sympathetic vasomotor response, but virtually abolished the adrenal response. The results demonstrate that the pressor response to stimulation of LC in the rat is due to both increased sympathetic vasomotor activity and CA released from the adrenal medulla. The study also provides evidence suggesting that the noradrenergic LC cell group play an important role in the activation of the adrenal medulla, but is not essential for the activation of the sympathetic vasoconstrictor fiber system.     

Contribution of AMPA/kainate receptors in the rostral ventrolateral medulla to the hypotensive and sympathoinhibitory effects of clonidine

The depressor and sympathoinhibitory effect of the imidazoline drug clonidine is reported to be associated with functional states of the central glutamate receptors. The rostral ventrolateral medulla (RVLM) has been recognized as a specific target area for mediating the central depressor mechanism of clonidine. The objective of this study was to determine the role of the glutamate receptor subtype alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA)/kainate receptor within the RVLM in clonidine-induced depressor and sympathoinhibitory action in anesthetized normotensive rats. Unilateral microinjection of 200 pmol of 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX), a potent AMPA/kainate receptor antagonist, into the RVLM completely abolished the pressor action evoked by AMPA (5 pmol) without affecting the pressor action of N-methyl-D-aspartate (20 pmol). Pretreatment with intra-RVLM injection of CNQX (20 and 200 pmol) dose dependently attenuated the reduction in blood pressure (BP), heart rate (HR), and renal sympathetic nerve activity (RSNA) elicited by intra-RVLM clonidine (5 nmol) or intravenous clonidine (10 microg/kg), while 2 pmol of CNQX did not alter clonidine-induced cardiovascular action. Furthermore, the decreases in BP, HR, and RSNA evoked by intravenous clonidine (10 microg/kg) or intra-RVLM clonidine (5 nmol) were reversed when CNQX (20 and 200 pmol) was subsequently injected into the RVLM. In conclusion, these data show that blockade of AMPA/kainate receptors in the RVLM significantly antagonizes decreases in BP, HR, and sympathetic activity induced by clonidine, suggesting that the AMPA/kainate receptors within the RVLM contribute to the depressor and sympathoinhibitory effect of clonidine.     

家兔延髓腹侧防御反应相关神经元

实验在25只乌拉坦(700m/kg)、氯醛糖(35mg/kg)麻醉,肌肉麻痹,人工呼吸的家兔上进行。第一组16只家兔中,单或双脉冲刺激下丘脑和中脑防御反应区,在延髓腹侧记录刺激所兴奋的单位。大部分单位分布于网状巨细胞核腹侧α部。52％的单位有自发放电活动。用阈下强度同时刺激下丘脑和中脑,97％单位有兴奋反应,提示家兔下丘脑和中脑防御反应区在延髓腹侧有聚合投射。第二组9只家兔中,在延髓腹表面单侧应用甘氨酸滤纸片或电凝损毁时,血压轻度下降,刺激下丘脑和中脑防御反应区引起的升压反应也部分被阻断。双侧应用甘氨酸或损毁,血压下降到脊动物水平,升压反应几乎完全被阻断。上述结果提示家兔延髓腹侧神经元在维持正常血压水平和在中继防御反应传出通路中起重要作用。     

Attenuating effects of intrathecal clonidine on the exercise pressor reflex

We tested the hypothesis that intrathecal injection of clonidine, an alpha 2-adrenergic agonist, attenuated the reflex cardiovascular and ventilatory responses to static muscular contraction in cats. Before clonidine (1 microgram in 0.2 ml), contraction-induced reflex increases (n = 10) in mean arterial pressure and ventilation averaged 25 +/- 3 mmHg and 359 +/- 105 ml/min, respectively, whereas after clonidine these increases averaged 8 +/- 4 mmHg and 200 +/- 114 ml/min, respectively (P less than 0.05). Clonidine had no effect on the heart rate response to contraction. Intrathecal injection of yohimbine (10 micrograms; n = 5), an alpha 2-adrenergic antagonist, but not prazosin (10 micrograms; n = 3), an alpha 1-adrenergic antagonist, prevented the attenuating effects of clonidine on the reflex pressor and ventilatory responses to contraction. Our findings were not due to the spread of clonidine to the medulla, because the reflex pressor and ventilatory responses to contraction were not attenuated by injection of clonidine (1 microgram) onto the medulla (n = 3). In addition, our findings were not due to a clonidine-induced withdrawal of sympathetic outflow, because intrathecal injection of clonidine (1 microgram) did not attenuate increases in arterial pressure and ventilation evoked by high-intensity electrical stimulation of the cut central end of the sciatic nerve (n = 5). Furthermore, our findings were not due to a local anesthetic action of clonidine, because application of this agent to the dorsal roots had no effect on the discharge of group IV muscle afferents. We conclude that stimulation of alpha 2-adrenergic receptors in the spinal cord attenuates the reflex pressor and ventilatory responses to static contraction.     

刺激清醒大鼠躯体神经对失血性低血压的升压效应

在清醒雄性大鼠中经静脉抽出血液总量的约50%,造成失血性低血压。对照组大鼠在失血后不予处理。刺激组大鼠在失血后半小时用低频电脉冲刺激坐骨神经30min。刺激组动物的平均动脉压在刺激肘和刺激停止后2小时内均显著高于对照组。在同时记录内脏神经放电的动物中还看到,刺激坐骨神经时交感神经活动显著加强。这可能和血压、心率的恢复有关。在失血动物中刺激坐骨神经引起的升压效应不能被静脉内注射纳洛酮(8mg/kg)翻转;预先注射纳洛酮也不能阻断这种升压效应。在用水合氯醛麻醉的大鼠中,失血后刺激坐骨神经仍能引起升压反应。但如在刺激坐骨神经前静脉注射东莨菪碱(8—20mg/kg),则在多数动物中上述升压反应的幅度显著减小,甚至消失。实验结果表明,在失血性低血压的大鼠中,刺激坐骨神经可促进机体代偿反应,进一步加强交感神经活动,有利于血压的恢复。这一效应可能需要胆硷能递质参与,而内啡肽系统似乎不起重要作用。     

Mechanism of the cardiovascular response to systemic intravenous administration of leucine-enkephalin in the conscious dog

Leucine-enkephalin (Leu⁵-ENK) (35 μg/kg) increased heart rate and mean systemic arterial blood pressure following intravenous injection into chronically-instrumented, conscious dogs. Repeated injections at five-minute intervals were not associated with a diminished response. Naloxone (1 mg/kg) pre-treatment inhibited both heart rate and blood pressure increases. Prazosin (1 mg/kg) attenuated the increase in blood pressure but did not influence the heart rate response. Propranolol (1 mg/kg) attenuated the heart rate response but not the pressor response. Clonidine (30 μg/kg) attenuated the positive chronotropic effect of Leu⁵-ENK. Atropine (1 mg/kg) plus propranolol (1 mg/kg) blocked the heart rate response but the pressor effect was still present. The attenuation of the heart rate response by propranolol and the pressor response by prazosin suggests an adrenergic component to the enkephalin response; the reduction in the heart rate response by clonidine and atropine-propranolol indicates a role for cholinergic mechanisms in the chronotropic response. Hexamethonium (10 mg/kg) blocked the heart rate response and markedly inhibited the pressor response. Vagal interruption attenuated both heart rate and blood pressure responses. It is concluded that intravenous Leu⁵-ENK stimulates afferent pathways located in fibers which are contained in the vagosympathetic trunk to reflexly increase heart rate and blood pressure.     

Effect of gamma-aminobutyric acid and phenibut on the central links of the vascular reflexes with chemo- and mechanoreceptors of the aorto-carotid zone]

Experiments were conducted on decerebrated cats. A depressive effect of gamma-aminobutyruc acid (GABA)--100--200 mg/kg and its phenyl derivative phenibut--20 mg/kg--on depressive reactions of the systemic arterial pressure and on the inhibition of spontaneous bioelectrical activity in the renal nerve occurring in stimulation of the mechanoreceptors of the carotid sinus and of the sinus and depressor nerve afferents (having a mechanoreceptor modality) was demonstrated. Pressor reactions of the systemic arterial pressure and evoked bioelectrical activity were enhanced in the renal nerve in stimulation of chemoreceptors of the carotid sinus following administration of the same GABA and phenibut doses. The data obtained are interpreted from the aspect of a deprimating action of GABA and phenibut in the area of the paramedian reticular nuclei of the medulla oblongata.     

室旁核在剌激猫肾神经传入纤维引起的血压效应中的应用

The purpose of this study is to investigate the role of paraventricular nucleus of the hypothalamus (PVN) and alpha 1 adrenergic receptor of PVN in the pressor responses to stimulation of renal afferent nerve in alpha 1-chloralose-anesthetized cats with carotid sinoaortic denervation and vagotomy. The pressor response to stimulation of renal afferent nerve consisted of a primary and a second components. The primary component response was completely blocked while the second component was not blocked by autonomic blocking agents (hexomethonium and atropine). Bilateral lesions of PVN greatly attenuated the pressor response before and after autonomic blockade. Intracerebroventricular and PVN injection alpha 1, adrenergic antagonist (prazosin) significantly decreased in the pressor response to stimulation of renal afferent nerve. These results indicate that paraventricular nucleus of the hypothalamus and alpha 1 adrenergic receptors in central nervous system, especially in PVN, play an important role in the pressor responses to stimulation of renal afferent nerve.     

Sympathoinhibition from ventrolateral periaqueductal gray mediated by 5-HT(1A) receptors in the RVLM

The role of 5-hydroxytryptamine 1A (5-HT(1A)) receptors located in the rostral ventrolateral medulla (RVLM) in the mediation of a sympathoinhibitory and depressor response elicited from the ventrolateral periaqueductal gray (vlPAG) matter of the midbrain was examined in pentobarbital sodium-anesthetized rats. Activation of neurons in the vlPAG evoked a decrease in renal and lumbar sympathetic nerve activities and a decrease in arterial blood pressure. After microinjection of the specific 5-HT(1A)-receptor antagonist WAY-100635 into the pressor area of the RVLM, the vlPAG-evoked sympathoinhibition and hypotension was attenuated to control levels (7 of 15 animals) or converted into a sympathoexcitation and pressor response (8 of 15 animals). Baroreflex inhibition of sympathetic nerve activity was not impaired by microinjection of WAY into the sympathoexcitatory region of the RVLM. These data suggest that sympathoinhibition and hypotension elicited by activation of neurons in the vlPAG are mediated by 5-HT(1A) receptors in the RVLM.