延髓腹外侧B(x)tzinger复合体呼吸时相转换效应的研究

实验在40只氨基甲酸乙酯麻醉的成年家兔上进行,观察电刺激Btzinger复合体(Bt.C)对呼吸节律的影响.结果表明: (1)吸气相早期短串电刺激Bt.C导致膈神经放电被短暂抑制,被抑制的程度与刺激强度呈正相关.当刺激落位在吸气相中、晚期时,可导致吸气提前终止("吸气切断"),之后跟随一缩短的呼气相.导致"吸气切断"的阈强度与刺激落位呈负相关.(2)呼气相短串电刺激Bt.C,可诱导膈神经短暂放电,呼气相晚期诱导出现放电之后往往跟随一正常的吸气放电,结果导致该呼气相缩短.该效应亦具有刺激强度、刺激落位依赖性.结果提示: Bt.C参与吸气向呼气以及呼气向吸气的时相转换.     

电及化学刺激兔面神经核腹内侧区对呼吸时相的影响

实验用家兔42只,乌拉坦静脉麻醉、三碘季铵酚麻痹、人工通气、断双侧颈迷走神经、引导膈神经传出电活动,观察电及化学刺激面神经核腹内侧区(VMNF区)对呼吸时相的影响。结果表明:(1)长串(6—8s)电脉冲刺激VMNF区,刺激强度达到相应阈值(100—15OμA,频率100c/s,波宽0.3ms)可完全抑制膈神经放电。(2)短串(0.1s)电脉冲刺激VMNF区,适当强度的刺激落位在吸气相中后期,可引起吸气切断(IO-S)效应;落位在呼气相中后期,可引起呼气切断(EO-S)效应。(3)此区微量注射细胞体兴奋剂L-谷氨酸钠后,呼吸频率减慢,膈神经放电积分幅度降低。结果提示:VMNF区可能是延髓呼吸中枢IO-S机制的重要结构之一,并参与呼吸时相转换控制的调节。     

电及谷氨酸钠刺激兔杏仁中央核中心区对呼吸的调制效应

本实验在50只氨基甲酸乙酯麻醉的健康家兔上观察了电、化学刺激杏仁中央核(ACE)中心区对呼吸的影响,以膈神经放电做为呼吸观测指标,结果如下:1.长串电脉冲刺激ACE中心区,产生明显的呼吸易化效应,表现为吸气时程延长或增频增幅。2.短串电脉冲刺激ACE中心区,落位于吸气相中期,可使该吸气相明显延长;落位于呼气相中期,可使该呼气相提前结束向吸气相转换。3.微量注射胞体兴奋剂谷氨酸钠(MSG),产生与电刺激该区相似的呼吸易化效应。4.上述电、化学刺激的区域对照和盐水对照实验,均未出现有意义的呼吸改变。提示:ACE中心区细胞体的兴奋,对呼吸具有特异性影响,它参与了呼吸调节,可能在易化基本呼吸节律发生机制中起重要作用。     

延髓腹外侧Btzinger复合体呼吸时相转换效应的研究

实验在４０只氨基甲酸乙酯麻醉的成年家兔上进行，观察电刺激Ｂ¨ｏｔｚｉｎｇｅｒ复合体（Ｂ¨ｏｔＣ）对呼吸节律的影响。结果表明：（１）吸气相早期短串电刺激Ｂ¨ｏｔＣ导致膈神经放电被短暂抑制，被抑制的程度与刺激强度呈正相关。当刺激落位在吸气相中、晚期时，可导致吸气提前终止（“吸气切断”），之后跟随一缩短的呼气相。导致“吸气切断”的阈强度与刺激落位呈负相关。（２）呼气相短串电刺激Ｂ¨ｏｔＣ，可诱导膈神经短暂放电，呼气相晚期诱导出现放电之后往往跟随一正常的吸气放电，结果导致该呼气相缩短。该效应亦具有刺激强度、刺激落位依赖性。结果提示：Ｂ¨ｏｔＣ参与吸气向呼气以及呼气向吸气的时相转换。     

刺激黄雀新纹状体前部大细胞核外侧部对发声和呼吸的影响

实验材料为乌拉坦麻醉的鸣禽黄雀（Ｃａｒｄｕｅｌｉｓ ｓｐｉｎｕｓ）。观察了电及化学刺激新纹状体前部大细胞核外侧部（１ＭＡＮ）对发声和呼吸的影响。结果如下：（１）电刺激１ＭＡＮ的不同区域都引起鸣叫反应。（２）长串电脉冲刺激１ＭＡＮ使呼吸频率增加,呼吸幅度降低。（３）短串电脉冲刺激１ＭＡＮ,落位于吸气相,产生吸气要断效应;落位于呼气相,可使呼气时程延长,以冲刺激１ＭＡＮ,落位于吸气相,产生吸气切断效应     

电和L—谷氨酸钠刺激兔中缝隐核对膈神经放电的影响

实验在45只麻醉、自主呼吸、断双侧颈迷走神经的家兔上进行。电刺激或微量注射L-谷氨酸钠于中缝隐核(Nucleus raphe obscurus,NRO),观察到:(1)长串电脉冲刺激NRO(50—200μA,波宽0.3ms,100Hz,4—6s),出现膈神经放电被抑制的反应,被抑制的程度与刺激强度、刺激频率间存在相关性。(2)吸气期用短串电脉冲(100—200μA,波宽0.3ms,50—100Hz,5—20个脉冲)刺激NRO,可提前终止膈神经放电,产生吸气切断效应。吸气切断时间具有刺激落位和刺激强度依赖性。(3)NRO内微量注射细胞体兴奋剂谷氨酸钠(1mol/L,1μl),注药期间出现膈神经放电抑制,注药后为吸气时程(Ti)缩短和呼气时程(Te)延长。     

刺激面神经核背内侧区及腹内侧区对颏舌肌和膈肌肌电活动的影响

在４４只氨基甲酸乙酯麻醉、断双侧迷走神经的健康成年家兔上、观察电、化学刺激面神经核背内侧区和腹内侧区对颏舌肌和膈肌肌电活动的影响。结果如下：（１）长串电脉冲刺激ｄＭＮＦ引起颏舌肌和膈肌肌电活动明显增强;（２）短串电脉冲刺激ｄＭＦＮ,当刺激落用于吸气相时,引起颏舌肌和膈肌在呼气相的肌是有终止;（３）长串电脉冲刺激ｖＭＮＦ使颏舌肌和膈肌肌电活动明显被抑制;（４）短中电脉冲刺激ｖＭＮＦ,当刺激落位有气相     

刺激家兔舌下神经核中段腹侧区对呼吸节律的影响

本工作在２５只氨基甲酸乙酯麻醉,断双侧迷走神经的家兔上,以膈肌肌电活动作为检测指标,观察了电及化学刺激舌下神经核中段腹侧区对呼吸节律的影响。结果如下：长串电脉冲刺激ＶＭＮＨ时,膈肌肌电活动被完全抑制,而颏舌肌活动明显易化;在吸气相的中期或后期短串电脉冲刺激ＶＭＮＨ可使吸气切断;微量注射谷氨酸钠于此区,膈肌活动也受到抑制。上述观察表明ＶＭＮＨ对呼吸节律具有调制作用,这种调制作用可能参与吞咽反射的中枢     

刺激兔皮层感觉运动区和静注士的宁引起的肋间神经放电效应

在30例清醒,肌肉麻痹、切断迷走神经的家兔,观察到刺激对侧皮层感觉运动区时,胁间神经的放电效应包括两种成分。在呼气相电刺激,肋间外神经的第一效应表现为短暂的放电,肋间内神经表现为呼气放电的抑制;在吸气相电刺激,肋间外神经的第一效应表现为吸气放电的抑制,肋间内神经表现为短暂的放电。肋间外神经的第二效应表现为吸气放电的提前出现,吸气时程和呼气时程的缩短;肋间内神经的第二效应表现为吸气时程的缩短和呼气时程的延长,呼气放电的幅度明显增加。上述结果说明,皮层直接控制脊髓的通路既能兴奋也能抑制肋间吸气或呼气运动神经元的活动,且吸气与呼气运动神经元之间表现交互抑制。静注士的宁引起肋间神经梭形放电的发生过程和放电频率,与膈神经上表现相同;但恢复过程不同,膈神经上吸气放电恢复早,肋间神经上呼吸性放电恢复迟。此外,肋间神经的呼吸性放电不具有高频振荡现象。     

燕雀上纹状体腹侧尾核对发声和呼吸的调制效应及其纤维联系

在乌拉坦麻醉的鸣禽燕雀（Ｆｒｉｎｇｉｌｌａｍｏｎｔｉｆｒｉｎｇｉｌｌａ）上,观察电刺激上纹状体腹侧尾核（ＨＶｃ）对发声和呼吸的影响,随后在ＨＶｃ内注入ＣＢ－ＨＲＰ溶液,研究ＨＶｃ的中枢联系。结果如下：（１）电刺激ＨＶｃ的不同区域都引起鸣叫反应。（２）长串电脉冲刺激ＨＶｃ,产生明显的呼吸易化效应,表现为增频增幅的呼吸。（３）吸气期用短串电脉冲刺激ＨＶｃ,产生吸气切断效应;刺激落位于呼气相,可使该呼气时程明显延长,以配合鸣叫,然后转变为增频增幅的呼吸。（４）ＣＢＨＲＰ法表明,ＨＶｃ投射到古纹状体粗核和嗅叶Ｘ区,ＨＶｃ接受新纹状体前部大细胞核内侧部、新纹状体中部界面核、端脑听核－Ｌ区、丘脑葡萄形核及脑桥蓝斑核的传入投射。提示ＨＶｃ除控制发声外,尚参与呼吸易化的调制。ＨＶｃ对发声及呼吸的特异性影响,可能在鸣叫与呼吸的协调机制中起重要作用。     

延髓腹外侧Boetzinger复合体呼吸时相转换效应的研究

The effects of electrical stimulation of B?tzinger complex (Bot.C) on respiratory rhythm were investigated in 40 urethane anesthetized adult rabbits. The results were as follows. (1) A short train stimulation delivered in the early inspiratory phase produced a transient inhibition of phrenic discharge. The stimulus, when delivered in the mid or late inspiratory phase, could cause a premature termination of the inspiratory phase ("inspiratory off-switch") and a switching to the expiratory phase, which was accompanied with the reduced duration of the consecutive expiratory phase. There was a negative linear correlation between the threshold intensity of inspiratory off-switching and delivery time of stimulation. (2) A short train stimulation delivery in the expiratory phase elicited a transient phrenic discharge. The discharge in the late expiratory phase was followed by a premature onset inspiration. This effect was also dependent on the strength and delivery time of the stimulus. The results suggest that the Bot.C is involved in the central control of respiratory phase-switching.     

电刺激家兔迷走神经中枢端诱导的黑-伯反射中的非联合型学习现象

本文旨在研究电刺激家兔迷走神经诱导的黑-伯（Hering-Breuer,HB）反射中的学习和记忆现象。选择性电刺激家兔迷走神经中枢端（频率10～100Hz,强度20～60μA,波宽0．3ms,持续60s）,观察对膈神经放电的影响。以不同频率电刺激家兔迷走神经可模拟HB反射的两种成分,即类似肺容积增大所致抑制吸气的肺扩张反射和类似肺容积缩小所致加强吸气的肺萎陷反射。（1）长时高频（≥40Hz,60s）电刺激迷走神经可模拟呼吸频率减慢,呼气时程延长的肺扩张反射。随着刺激时间的延长,膈神经放电抑制的程度逐渐衰减,表现为呼吸频率的减慢（主要由呼气时程延长所致）在刺激过程中逐渐减弱或消失,显示为适应性或“习惯化”的现象;刺激结束时呼吸运动呈现反跳性增强,表现为一过性的呼气时程缩短,呼吸频率加快,然后才逐渐恢复正常。长时低频（〈40Hz,60s）电刺激迷走神经可模拟呼吸频率加快、呼气时程缩短的肺萎陷反射。随着刺激时间的延长,膈神经放电增强的程度逐渐衰减,同样表现出“习惯化”现象;刺激结束后,膈神经放电不是突然降低,而是继续衰减,表现为呼气时程逐渐延长,呼吸频率逐渐减慢,直至恢复到前对照水平,表现了刺激后的短时增强效应。（2）HB反射的适应性或“习惯化”程度反向依赖于刺激强度和刺激频率,表现为随着刺激强度和频率的增加,膈神经放电越远离正常基线水平,即爿惯化程度减弱。结果表明,家兔HB反射具有“习惯化”这一非联合型学习现象,反映与其有关的呼吸神经元网络具有突触功能的可翅性,呼吸的中枢调控反射具有一定的适应性。     

Central inspiratory influence on abdominal expiratory nerve activity

Our purpose was to determine whether the intensity of abdominal expiratory nerve discharge is conditioned by the intensity of the preceding inspiratory phrenic discharge, independent of mechanical and chemical afferent influences. In decerebrate, paralyzed, vagotomized cats with bilateral pneumothoraxes, we recorded phrenic and abdominal (cranial iliohypogastric nerve, L1) nerve activities at hyperoxic normocapnia. We reduced the duration and intensity (i.e., integrated peak height) of phrenic nerve discharge for single cycles by stimulating the cut central end of the superior laryngeal nerve (SLN) during the central inspiratory phase (75 microA, 20-50 Hz, 0.2-ms pulse). Premature termination of inspiration consistently reduced expiratory duration (TE) and abdominal expiratory nerve activity (area of integrated neurogram), but the average reduction in TE was much less than the reduction in abdominal nerve activity (14 vs. 51%). Stimulation of the cut central end of the vagus nerve yielded similar results, as did spontaneous premature terminations of inspiration, which we observed in one cat. SLN stimulation during hyperoxic hypercapnia resulted in more variable responses, and higher stimulation frequencies were usually required to abort inspiration. SLN (or vagal) stimulation during expiration consistently increased abdominal expiratory nerve activity. We speculate that this facilitatory response is gated during inspiration, thereby allowing the inspiratory conditioning effect on the subsequent expiration to be expressed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Phrenic afferents and their role in inspiratory control

In anesthetized cats, with vagi cut and the spinal cord severed at the C8 level, phrenic motor and/or sensory discharge was recorded. Small afferent phrenic fibers were identified through their activation by lactic acid, hyperosmotic NaCl solution, or phenyl diguanide. They exhibited a spontaneous but irregular low-frequency discharge. Block of their conduction by procaine had no effect on eupneic motor phrenic activity. Large afferent phrenic fibers showed a spontaneous rhythmic discharge, and cold block (6 degrees C) of these fibers significantly prolonged the phrenic discharge time (Tphr) and total breath duration (TT) during eupnea. The stimulation of all afferent phrenic fibers lowered the impulse frequency of phrenic motoneurons (f impulses) and shortened both Tphr and TT. When the stimulation was performed during cold block all of the effects on phrenic output persisted, but changes in timing were less pronounced. Under procaine block, only the effects of phrenic nerve stimulation on Tphr persisted. These results suggest that both large and small afferent phrenic fibers control the inspiratory activity with a prominent role of small fibers on phrenic motoneuron impulse frequency.     

家兔面神经后核内侧区在呼吸节律起源中的作用

从腹侧面暴露家兔延髓,脑内微量注射1%普鲁卡因阻滞面神经后核内侧区(mNRF),全部动物(n=20)一次注射(0.3—1.0μl)后即能可逆地消除呼吸节律。区域对照显示此区非常局限,范围约1.0×1.0×1.0mm。组织学检查表明为面神经后核内侧区。本文分析了 mNRF的呼吸相关神经元(RRNs)的放电形式。在 mNRF 有较多的呼气(E)神经元和呼气-吸气跨时相(E-IPS)神经元。在阻滞 mNRF 引起呼吸停止期间,观察到低位延髓背侧呼吸群(DRG)和腹侧呼吸群(VRG)尾端区 RRNs 放电的节律性消失,表现连续放电或停止放电。电刺激DRG,VRG 尾端区,只能诱发短串的膈神经放电,而不能产生节律性发放。说明这些区域的RRNs 无自动节律性活动的能力。结果表明,面神经后核内侧区与呼吸节律发生有关,它可能是呼吸节律发生器的一个重要的所在部位。     

Influences from laryngeal afferents on expiratory bulbospinal neurons and motoneurons

The purpose of this study is to analyze the reflex effects of laryngeal afferent activation on respiratory patterns in anesthetized, vagotomized, paralyzed, ventilated cats. We recorded simultaneously from the phrenic nerve, T10 internal intercostal nerve, and single bulbospinal expiratory neurons of the caudal ventral respiratory group (VRG). Laryngeal afferents were activated by electrical stimulation of the superior laryngeal nerve (SLN) or by cold-water infusion into the larynx. Both types of stimuli caused inhibition of phrenic activity and facilitation of internal intercostal nerve activity, indicating expiratory effort. The activity of 46 bulbospinal expiratory cells was depressed during SLN electrical stimulation, and 13 of them were completely inhibited. In 44 of 56 neurons tested, mean firing frequency (FFmean) was decreased in response to cold-water infusion and 8 others responded with increased FFmean; in the remaining 4 neurons, FFmean was unchanged. Possible reasons for different neuronal responses to SLN electrical stimulation and water infusion are discussed. We conclude that bulbospinal expiratory neurons of VRG were not the source of the reflex motoneuronal expiratory-like activity produced by SLN stimulation. Other, not yet identified inputs to spinal expiratory motoneurons are activated during this experimental condition.