不同麻醉藥对于頸动脈竇反射性呼吸反应的影响

刺激犬颈动脉窦压力感受器所引起的呼吸反应的形式,和所用麻醉药的种类有密切关系。用硫贲妥钠、安密妥钠和巴比妥钠麻醉的动物,呼吸反应以兴奋为主。用戊巴比妥钠麻醉的动物,抑制反应略多于兴奋反应。用氯醛糖麻醉的动物,以兴奋或双相反应占多数,而在氨基甲酸乙酯麻醉下的动物,则以抑制反应为主要形式。切除两侧颈迷走神经干,能够影响呼吸反应,但和所用麻醉药的种类也有—定关系。用硫贲妥钠、安密妥钠和巴比妥钠麻醉的动物,在切断迷走神经干后,仍以兴奋为主要反应,其中部分动物的兴奋程度变得更加明显,少数动物与呼吸加强同时,呼吸频率稍为减低。用氨基甲酸乙酯、戊巴比妥钠或氯醛糖麻醉的动物切断迷走神经后有利于抑制反应的加深或发展。加深麻醉能够影响呼吸反应的程度,但是并不改变呼吸反应的形式。颈动脉窦压力感受性呼吸反应的刺激合,在我们的实验情况下以120——140毫米汞柱的最为多见,切断颈迷走神经干后,合值稍为降低。麻醉药种类不同和切断迷走神经对呼吸反应的影响以及颈动脉窦压力感受性呼吸反应的传入途径,文中曾予讨论。     

利他林对戊巴比妥钠深麻醉家兔呼吸的兴奋效应及机制

在125只呼吸受戊巴比妥钠抑制并切断双侧颈迷走神经的家兔,分析了利他林(MP)呼吸效应的中枢部位及可能的递质。静脉注射 MP(2mg/kg)引起呼气时程显著缩短和呼吸频率显著增加。去除颈动脉体不影响 MP 兴奋呼吸的效应。将浸有2%MP 溶液的滤纸(2×2mm~2)贴敷在第四脑室底闩附近,或微量注射2%MP 2μl 到延髓 NTS 区,均可引起上述效应,但 NA区、NPBM 区和皮层体感运动区则无效。第四脑室或 NTS 区微量注射酚妥拉明均可阻断 MP兴奋呼吸的效应,但第四脑室注射心得安却不能阻断。结果提示,MP 可能作用于 NTS 区,在肾上腺素能α受体的参与下,受戊巴比妥钠抑制的家兔发生呼吸频率增快的效应。     

胍丁胺抑制大鼠颈动脉窦压力感受器活动

在麻醉大鼠隔离灌流颈动脉窦区条件下,记录窦神经传入放电,观察胍丁胺（agmatine,Agm)对动脉压力感受器活动的影响,结果如下：（1）以1mmol/L Agm隔离灌流大鼠颈动脉窦区时,窦内压－窦神经传入放电积分（ISP－ISNA）关系曲线向右下方移位,曲线的最大斜率（PS）降低,窦神经传入放电量最大积分值（PIV）减小,再分别以5,10mmol/L Agm灌流时,机能曲线向右下方移位更为明显,PS及PIV降低更加明显,从而表明Agm抑制压力感受器活动且呈剂量依赖性,（2）α2－肾上腺素受体（α2－adrenoceptor,α-AR）和咪唑啉受体（IR）的阻断剂咪唑克生（0．1mmol/L)可阻断Agm的上述效应。（3）预先灌流α-AR能亨宾（15umol/L)可部分阻断Agm的抑制效应。（4）预先灌流Ca^2 通道激动剂Bay K8644(500mmol/L)亦可取消Agm对窦神经传入放电的影响,以上结果表明,Agm对基动脉窦压力感受器活动有抑制作用,此作用由IR和α-AR介导,并与颈动脉窦压力感受器活动时Ca^2 内流减少有关。     

家兔延髓面神经后核内侧区在吗啡抑制呼吸中的作用

实验在麻醉、切断颈迷走神经、肌肉麻痹和人工通气的家兔上进行。静脉注射吗啡4mg/kg能显著地抑制呼吸,主要是使呼吸频率降低和每分钟膈神经活动减少。如果先向延髓面神经后核内侧区(mNRF)注射1μg/1μl纳洛酮,可大部分阻断静脉注射吗啡引起的呼吸抑制。向一侧mNRF注射10μg/1μl吗啡能显著地抑制呼吸,两侧注射则产生呼吸暂停。先向两侧mNRF注射1μg/1μl纳洛酮,可完全阻断mNRF注射吗啡引起的呼吸抑制。结果说明mNRF存在阿片受体,并在静脉注射吗啡引起的呼吸抑制中起重要作用。本工作还为mNRF在发生和维持呼吸节律中的重要作用提供了新的证据。     

迷走传入的投射区在电刺激颈迷走神经中枢端引起的降压反应中的作用

文献报道迷走传入直接或间接投射至多个脑区。本工作分别检验这些脑区在迷走传入引起的降压、降心率反应中的作用。在乌拉坦麻醉、双侧切断颈迷走神经的大鼠,将普鲁卡因微量注入孤束核或β-内啡肽抗血清注入延髓头端腹外侧区(RVL)均可明显减小电刺激预迷走神经中枢端引起的降压(DpV)和降心率反应,但分别将心得安、β-内啡肽抗血清注入室旁核或普鲁卡因注入最后区对DpV和心率减慢反应均无明显影响。保留右侧颈迷走神经的大鼠,在甲基阿托品(i.v.)阻断心迷走神经作用后DpV亦无明显变化,但心率减慢反应被衰减。鉴于我们以往的实验显示孤束核可通过其β-内啡肽能投射纤维作用于RVL而起降压作用,以上结果提示:迷走传入通过孤束核的β-内啡肽能神经元对RVL-交感兴奋神经元起抑制作用是引起降压反应的机制之一。     

家兔第四脑室注射乙酰胆碱对肺动脉血压的影响

本工作将乙酰胆碱(ACh)注入麻醉家兔第四脑室,观察其对肺动脉血压的影响。结果发现(1)脑室注射50—100μg ACh后,肺动脉压和颈动脉压均下降。与此同时心率也出现一过性减慢。(2)切断两侧颈部迷走神经,ACh不再使心率减慢,但其降低肺动脉压和颈动脉压的作用不受到任何影响。(3)预先由第四脑室注射阿托品,可阻断AGh引起的肺动脉降压反应和颈动脉降压反应。(4)第四脑室注射六甲双铵或酚妥拉明,均不能阻断这二个降压反应。(5)第四脑室注射心得安不能阻断ACh引起的肺动脉降压反应,但能阻断ACh降低颈动脉压的作用。 实验结果表明:脑中ACh水平升高可通过激活胆碱能M-受体引起肺动脉压和颈动脉压下降;在ACh引起的颈动脉降压反应的中枢环节中有肾上腺素能β-受体活动参与;而且ACh降低肺动脉压和颈动脉压的作用不是通过迷走神经实现的,可能是由于延髓交感缩血管中枢紧张性降低所造成的。     

腺苷易化大鼠颈动脉窦压力感受器的活动

在36只麻醉大鼠,以隔离灌流颈动脉窦区记录窦神经传入放电的方法观察了腺苷（adenosine,Ado）对颈动脉窦压力感受器传入放电的影响。所得结果如下：（1）以75μmol／LAdo隔离灌流大鼠左侧颈动脉窦区时,窦内压-窦神经传入放电积分（ISP－ISNA）关系曲线向左上方移位,曲线最大斜率（PS）由（18．75±0．12）％／kPa增至（22．21±0．11）％／kPa（P＜0．001）,最大积分值（PIV）由（209．83±2．57）％增至（239．17±1．75）％;阈压（TP）和饱和压（SP）则分别从（8．57±0．24）和（22．99±0．34）下降至（7．15±0．23）kPa（P＜0．001）和（21．21±0,43）kPa（P＜0．01）。再分别以125和175μmol／LAdo灌流,机能曲线进一步向左上方移位,PS、TP和SP的变化均呈明显的剂量依赖性。（2）用腺苷选择性A1受体拮抗剂8－cyclopentyl－1,3－dipropylxanthine（0．134mmol／L）预处理后,Ado的上述效应即被阻断。（3）先给予KATP通道阻断剂格列苯脲（10μmol／L）亦可取消腔苷对窦神经传入放电的影响。结果表明,在体隔离灌流大鼠颈动脉窦区条件下,Ado对颈动脉窦压力感受器活动有易化作用,此作用似与腺苷A1受体介导的KATP通道开放有关。     

心房钠尿因子对颈动脉窦压力感受器反射的易化作用

在麻醉大鼠观察了心房肽Ⅲ(AtriopeptinⅡ,APⅡ)对颈动脉窦压力感受器活动的影响,并在麻醉家兔观察了APⅡ作用于颈动脉窦区时窦神经传入放电的改变。结果如下:(1)用APⅡ(1μg/ml)隔离灌流大鼠左侧颈动脉窦区(n=10),压力感受器反射的阈压(TP)无明显改变,平衡压(EP)由101±2.8降至95±2.0 mmHg(P<0.05),饱和压(SP)由202±5.2降至168±6.1 mmHg(P<0.001),而工作范围(OR)由128±5.5减至93±6.3mmHg(P<0.001),压力感受器机能曲线向左下方移位,曲线最大斜率(PS)由0.77±0.04增大为1.07±0.13mmHg·mmHg~(-1)(P<0.05);(2)在用硝普钠(NP,0.5μg/ml)灌流的动物(n=6),TP和 EP 无改变,SP 由188±6.4升至218±6.0 mmHg(P<0.01),OR 由107±6.9增至132±7.6 mmHg(P<0.05),硝普钠对压力感受器机能曲线及其 PS 无显著影响;(3)恒压隔离灌流兔颈动脉窦区时,窦神经传入放电具有良好的稳定性,升高窦内压(ISP)时,窦神经传入放电也随之增多。用 APⅡ(1μg/ml)恒压灌流时,窦神经传入放电增加20.9±3.9%(n=6,P<0.01),冲洗掉 APⅡ后,窦神经传入放电恢复至对照水平。以上结果显示,APⅢ可使大鼠颈动脉窦压力感受器机能曲线向左下方移位,曲线最大斜率增大以及兔窦神经传入放电增加,表明 APⅡ对颈动脉窦压力感受器活动有易化作用。这     

家兔油酸型急性呼吸窘迫综合征时肺动脉血压的变化

本文介绍家兔油酸型呼吸窘迫综合征时肺动脉血压的变化。静脉注入油酸后,肺血管阻力显著增加,股动脉血压、心率和心输出量均下降;肺动脉压则升高,并经历最初快速升高、相对稳定和后期升高三个时相变化。预先注射神经节阻滞剂六甲双胺或α-受体阻断剂酚妥拉明,然后注射油酸,肺动脉压的最初快速升高期不出现。切断两侧颈动脉窦神经或两侧颈部迷走神经对其并无影响。此外,在后期,六甲双胺及酚妥拉明两者均不能阻断肺动脉压的上升。上述结果表明,动物注射油酸后,肺动脉压的最初快速升高是通过交感神经实现的。肺动脉压的后期升高则是缺氧或其他因素所造成。     

家兔侧脑室注射组胺对肺动脉血压的影响

本工作将组胺(HA)注入麻醉家兔侧脑室,观察其对肺动脉血压的影响。结果观察到(1)侧脑室注射HA(50μg)后,肺动脉压和心输出量出现升高、降低和先降后升三种变化,但以升高反应较为多见。发生上述反应时,颈动脉压升高,心率减慢。(2)切断两侧颈部迷走神经或用心脏人工起搏固定心率后,肺动脉压和心输出量均不再下降而出现恒定的升高反应。静脉注射酚妥拉明可部分阻断HA引起的肺动脉和颈动脉升压反应,但不能阻断心输出量的升高。静脉注射心得安能完全阻断HA引起的心输出量升高,但对肺动脉和颈动脉的升压反应无影响。静脉注射六甲双铵或联合应用酚妥拉明和心得安可完全消除HA引起的肺动脉压、颈动脉压和心输出量的升高反应。(3)HA的心血管效应可被H_1受体阻断剂扑尔敏阻断,但不能被H_2受体阻断剂甲氰咪胍阻断。 实验结果表明:家兔侧脑室注射HA后,在中枢H_1受体的介导下,可通过交感神经使心输出量增加,肺血管和外周血管收缩,因而肺动脉压和颈动脉压上升;也可通过迷走神经使心率减慢。而HA引起的肺动脉压下降则是继发性的,是由于心率减慢,心输出量减少所致。     

Plasma vasopressin response to haemorrhage in the anaesthetized rabbit

In chloralose-urethane anaesthetized rabbits the acute circulatory and plasma vasopressin (pAVP) responses to moderate haemorrhage of 6 mL/kg body weight (10% blood volume) were followed after serial section of the aortic, vagus, and carotid sinus nerves. With all nerves intact, haemorrhage resulted in significant increases in pAVP, accompanied by decreases in systemic arterial pressure and right atrial pressure. With subsequent section of each afferent nerve, pAVP still increased in response to haemorrhage regardless of the order of nerve section. These results suggest that, in the anaesthetized rabbit, there is a further component of the pAVP response to haemorrhage, in addition to those carried in the aortic, vagus, and carotid sinus nerves.     

内皮素对麻醉大鼠颈动脉窦压力感受器活动的影响

在麻醉大鼠隔离灌流颈动脉窦区条件下记录窦神经传入放电,观察内皮素（ＥＴ－１）对动脉压力感受器活动的影响。结果如下：（１）在颈动脉窦区灌流１ｎｍｏｌ／Ｌ ＥＴ－１时,压力感受器机能曲线向左上方移位,曲线的最大斜率（ＰＳ）增加,窦神经传入放电最大积分值（ＰＩＶ）增大。由此提示,这一剂量的ＥＴ－１对压力感受器活动有易化作用。（２）用１０ｎｍｏｌ／Ｌ ＥＴ－１灌流时,压力感受器机能曲线则向右下方移位,ＰＳ     

下丘脑前区的脑啡肽参与急性心肌缺血减弱颈动脉窦升压反射的效应

家兔急性心肌缺血时,下丘脑等脑区亮啡肽(L-Enk)含量显著升高,延脑未见明显变化,向下丘脑前区直接注射微量L-Enk,同阻断冠脉效应相同,也可减弱窦升压反射。该区注射纳络酮(Nx)可逆转心肌缺血减弱窦升压反射的效应,而对正常兔的窦升压反射没有明显影响。提示:急性心肌缺血时,下丘脑前区的脑啡肽可被激活,并参与窦升压反射的调节。但在正常情况下,这些脑啡肽可能处在非活动状态,在窦升压反射的调节中可能不起重要作用。     

Influence of substance P on carotid sinus nerve baro- and chemoreceptor activity in rabbits.

Substance P (SP) is abundant in the carotid sinus nerve (CSN) and has been implicated in baro- and chemoreceptor reflexes. We examined the effect of SP on blood pressure, heart rate, phrenic nerve activity, hindlimb perfusion pressure, and cardiac contractile strength in urethane-anesthetized rabbits with bilaterally cut cervical sympathetic, vagus, and aortic depressor nerves. Retrograde simultaneous injection of SP (0.5-2.7 micrograms/kg in 0.2-0.3 ml saline) into both carotid sinus areas via the internal carotid arteries decreased blood pressure (by 56%), heart rate (by 13%), cardiac contractility (by 25%) and phrenic nerve activity (by 77%). The effect on hindlimb perfusion pressure was variable. There was both a reflex effect and direct hindlimb vasodilation. In another group of rabbits, the carotid sinus areas were vascularly isolated and perfused with SP (0.19 micrograms/min dissolved in Locke's solution) or Locke's solution alone for 5 min. While carotid sinus perfusion pressure was maintained in the range of 80-120 mmHg, mean arterial blood pressure, heart rate, and unit activity from the CSN were recorded. SP increased the activity of 11 of 18 baroreceptor fibers and inhibited all of 20 chemoreceptor fibers. SP decreased mean arterial blood pressure and heart rate, but the changes were less than those obtained with injection of SP into nonisolated carotid sinus arteries because systemic effects of SP, which in some cases counteracted the reflex effects, were eliminated.     

Effects of pituitary adenylate cyclase-activating polypeptide on cardiovascular and respiratory responses in anaesthetised dogs

This study examines some of the cardiovascular and respiratory effects of pituitary adenylate cyclase-activating polypeptide (PACAP) in anaesthetised dogs. Intravenous injection of PACAP 27 caused an increase in arterial blood pressure and an increase in heart rate. The blood pressure response was significantly reduced by adrenoceptor blockade suggesting a mechanism of action mediated in part via catecholamines. The heart rate increase was unaltered by adrenoceptor blockade suggesting a direct effect of PACAP 27. PACAP 27 also caused potentiation of cardiac slowing caused by stimulation of the vagus nerve. In addition, PACAP 27 powerfully stimulated breathing. This was probably evoked by stimulation of arterial chemoreceptors, because bilateral section of the carotid sinus nerves abolished this effect. PACAP 27 had no effect on the ability of the cardiac sympathetic nerve to increase heart rate, nor on the interaction between the sympathetic and parasympathetic systems in the heart.     

颈动脉内注入腺苷对呼吸,血压和肾交感神经活动的影响

在33只麻醉家兔,观察了颈动脉内注入腺苷所诱发的平均动脉压、心率,呼吸和肾交感神经活动的变化。结果如下:(1)颈动脉内注入腺苷后,平均动脉压呈剂量依赖性下降;呼吸加快,深度变化不明显,剪断窦神经后注入腺苷,仍引起平均动脉压下降,而呼吸变化消失。(2)隔离的颈动脉窦灌流液内加入腺苷后,平均动脉压下降,心率减慢;颈动脉体(CB)失活后反应消失。(3)将腺苷灌注到颈动脉窦区后,平均动脉压下降,肾交感神经传出放电活动增加,CB 失活或剪断窦神经后,反应消失。由此提示:腺苷可作为兴奋 CB 的一种物质,引起平均动脉压降低,心率减慢,呼吸加强和肾交感神经放电活动增加。     

On the vagal cardiac nerves,with special reference to the early evolution of the head–trunk interface

The vagus nerve, or the tenth cranial nerve, innervates the heart in addition to other visceral organs, including the posterior visceral arches. In amniotes, the anterior and posterior cardiac branches arise from the branchial and intestinal portions of the vagus nerve to innervate the arterial and venous poles of the heart, respectively. The evolution of this innervation pattern has yet to be elucidated, due mainly to the lack of morphological data on the vagus in basal vertebrates. To investigate this topic, we observed the vagus nerves of the lamprey (Lethenteron japonicum), elephant shark (Callorhinchus milii), and mouse (Mus musculus), focusing on the embryonic patterns of the vagal branches in the venous pole. In the lamprey, no vagus branch was found in the venous pole throughout development, whereas the arterial pole was innervated by a branch from the branchial portion. In contrast, the vagus innervated the arterial and venous poles in the mouse and elephant shark. Based on the morphological patterns of these branches, the venous vagal branches of the mouse and elephant shark appear to belong to the intestinal part of the vagus, implying that the cardiac nerve pattern is conserved among crown gnathostomes. Furthermore, we found a topographical shift of the structures adjacent to the venous pole (i.e., the hypoglossal nerve and pronephros) between the extant gnathostomes and lamprey. Phylogenetically, the lamprey morphology is likely to be the ancestral condition for vertebrates, suggesting that the evolution of the venous branch occurred early in the gnathostome lineage, in parallel with the remodeling of the head–trunk interfacial domain during the acquisition of the neck. J. Morphol. 277:1146–1158, 2016. © 2016 Wiley Periodicals, Inc.