Inflation reflex in the rat.

The Breuer-Hering inflation reflex [BHIR] was elicited in conscious and anaesthetized rats by inflating the lungs with constant pressures of 5--20 cm H2O. The reflex was elicited well in conscious animals, but even with the maximum stimulus [inflation of 20 cm H2O, corresponding to about 4.5-fold the tidal volume] the duration of apnoea did not exceed 4 control respiration cycles. In anaesthetized animals, the same stimulus let to apnoea lasting 180--400 control respiration cycles on the average, according to the type and depth of general anaesthesia. The duration of apnoea in occlusion of the air passages in the expiratory position increased with the depth of anaesthesia, while in occlusion of the air passages at the peak of inspiration it was shortened. Stimulation of chemoreceptors [inhalation of a mixture 4% CO2 in O2 or of 8% O2 in N2] did not influence the elicitability or duration of the BHIR, nor did cooling the rats to 28 degrees C or heating them to 38 degrees C. The mean respiration frequency was 98 c/min in unanaesthetized rats, 96 c/min in urethane anaesthesis and 79--48 c/min in halothane anaesthesia, according to the depth of anaesthesia. Bilateral cervical vagotomy reduced mean respiration frequency to 35.6 c/min in conscious rats and to 31 c/min in urethane-anaesthetized animals. The results indicate the existence of species-related differences between basic regulatory mechanisms in the rat and certain other mammals.     

Ipsilateral vagotomy to unilaterally ovariectomized pre-pubertal rats modifies compensatory ovarian responses

The present study evaluates the participation of the vagus nerve in pre-pubertal rats with unilateral ovariectomy on puberty onset, and on progesterone, testosterone and estradiol serum levels, and the compensatory responses of the ovary. Unilateral vagotomy did not modify the onset of puberty in unilaterally ovariectomized rats. Ovulation rates of animals with the left vagus nerve sectioned and the left ovary in-situ was lower than in rats with only unilateral ovariectomy. Sectioning the left vagus to 32-day old rats with the left ovary in-situ resulted in lower compensatory ovarian hypertrophy than in rats with right unilateral ovariectomy. Twenty-eight or 32-day old animals with sectioning of the right vagus nerve and the right ovary in situ showed higher compensatory ovulation. Twenty-eight -day old rats with the right ovary in situ had higher progesterone and testosterone levels than animals of the same age with the left ovary in-situ. Compared to animals with the right ovary in situ, animals treated at 32-days of age, sectioning the ipsi-lateral vagus nerve resulted in higher progesterone levels. Higher progesterone levels were observed in 28- and 32 days old rats with the left ovary in situ and left vagus nerve sectioned. Thirty-two day old animals with the right ovary in situ and right vagus nerve sectioned had higher progesterone levels than rats of the same age with the left ovary in situ and left vagus nerve sectioned. Left vagotomy to 28-day old rats with the left ovary in situ resulted in higher testosterone levels, a reverse response to that observed in animals with sectioning of the right vagus and the right ovary in situ. Thirty-two day old rats with the left ovary in situ and left vagus nerve sectioned showed lower testosterone levels than animals without vagotomy and with the left ovary in situ.     

Effects of focal cooling of medulla oblongata structures on quiet breathing in cats

Experiments were carried out on 16 anaesthetized, non-paralysed cats to determine the effects of unilateral, successive focal cooling of the nuclei of the dorsal and ventral respiratory groups (DRG, VRG) of the medulla oblongata on quiet breathing parameters. The results of cold block tests of the respiratory nuclei showed that: 1. Compared with the control state, cooling of the ventrolateral part of the nucleus solitarii (vl. NTS) and the rostral part of the nucleus retroambigualis (r. NRA) to 20 degrees C or 15 degrees C decreased the respiration rate (p less than 0.001), prolonged the inspiration time (p less than 0.01 and p less than 0.001 respectively) and the development of apneustic breathing. A decrease in the inspiratory pleural pressure values (p less than 0.01) was found after cooling the r. NRA region to 15 degrees C. In 45% of the cases of cooling of the vl. NTS and 66.7% of cooling of the r. NRA to 15 degrees C, an incidence of short inspiratory efforts was observed. 2. Focal cooling of the nucleus retrofacialis (nucl. RF) region to 20 degrees C always arrested rhythmic respiration. 3. The effects of unilateral focal cooling of the respiratory nuclei were always bilaterally symmetrical and, after discontinuing cooling, reversible. 4. The findings indicate that the inspiratory neurones of the r. NRA participate more in regulation of the intensity of inspiration than those of the vl. NTS, while the nucl. RF region may be a part of central regulatory mechanisms essential for the maintenance of rhythmic breathing in cats.     

Compensatory recovery of vagal control of hemodynamics after unilateral vagotomy

This study investigated whether each part of the heart is evenly innervated by the left or right vagus and observed the mechanism of compensatory recovery after unilateral cervical vagotomy. HR, BP, LVSP and +/-dp/dt max all decreased one week after left vagotomy, whereas only BP and -dp/dt max decreased one week after right vagotomy. Western blot analyses revealed that the expression of M(2) receptors in the left atrium and left ventricle was upregulated after subacute (1 week) left/right vagotomy. However, significantly more cholinesterase-positive nerves in LV and RV were seen one week after unilateral vagotomy compared to the sham-operated group. In addition, baroreflex sensitivity was increased after subacute right vagotomy. The decreasing effects of ACh (0.5 microg/kg) on LVSP and +/-dp/dt max (but not on HR and BP) were facilitated by subacute unilateral vagotomy. Our present experiments indicate that 1) the working myocardium is innervated bilaterally by the vagus, 2) ventricular contractility is influenced more by denervation of the left than the right vagus and 3) up-regulation of M(2) muscarinic receptors in the left heart, increase of cholinergic nerves, and high baroreflex sensitivity could be involved in the mechanism of compensatory hemodynamic recovery via contralateral vagus overactivity, thereby amplifying contralateral vagal activity and decreasing cardiac contractility.     

Neuroendocrine peptide levels in the gastrointestinal tract of mice after unilateral cervical vagotomy

The effects of left and right unilateral cervical vagotomy on the content of several neuroendocrine peptides were studied in different parts of the murine gastrointestinal tract, known to receive vagal innervation. The neuroendocrine peptides investigated were secretin, gastric inhibitory peptide (GIP), gastrin, motilin, peptide YY (PYY), somatostatin, substance P, VIP, neurotensin, neuropeptide Y (NPY), and galanin. The neuroendocrine peptide concentration was affected after both left and right vagotomy, and that the changes in the concentrations of the neuroendocrine peptide levels occurred in all the gastrointestinal segments investigated, namely antrum, small and large intestine. However, these changes varied, depending on which side was vagotomized and the interval after vagotomy. It is concluded that the vagus nerve had an important impact on the neuroendocrine system in the murine gut. It is suggested, furthermore that the contradictory results obtained earlier on the effect of vagotomy on the gastrointestinal peptides may depend on differences in the vagotomy methods used and on differences in observation time after vagotomy.     

Effects of unilateral cervical vagotomy on antral endocrine cells in mouse.

The present study was carried out to investigate the effect of unilateral cervical vagotomy on the antral endocrine cells in mouse. Fifty-four mice were randomly divided into three groups, 18 in each, for left or right cervical vagotomy, or sham operation as controls. The animals were sacrificed 2, 4, and 8 weeks after the operation, respectively. Chromogranin-, gastrin/CCK-, serotonin-, and somatostatin-cells were detected by immunohistochemistry and quantitated by computerised image analysis. The results showed that the number of chromogranin-cells was decreased in both left and right vagotomized mice after 4 weeks and remained at the same level after 8 weeks. The numbers of gastrin-, serotonin- and somatostatin-cells did not change after right vagotomy. However, the numbers of gastrin- and somatostatin-cells were decreased after left vagotomy, whereas no change was found in serotonin-cells. Endocrine cells with vacuolated cytoplasm and pyknotic nuclei were also observed during the course of time. The alteration in the antral endocrine cells observed in this study seemed to be dynamic and depended on the observation time after the operation as well as the denervated branches of the vagus nerve. This may explain, at least partially the contradictory results obtained earlier by different investigators.     

迷走神经在心率变异性中的作用

采用功率谱和近似熵 (approximateentropy ,ApEn)的方法 ,分析清醒家兔在双侧迷走神经保留 ,右、左侧迷走神经切断以及双侧迷走神经同时切断时心搏间期 (RRI)的变化。结果显示 :双侧迷走神经保留时功率谱中高频功率 (HF)、低频功率 (LF)及ApEn值均高于双侧及单侧迷走神经切断时 (P <0 0 5 ) ,LF/HF比值最小 ;切断单侧迷走神经 ,ApEn变小 ,LF/HF比值在右侧迷走神经切断时增大 ,而切断左侧迷走时LF/HF比值无明显变化 ;双侧迷走神经切断后LF/HF比值最大 ,ApEn最低。结果表明 :心率变异主要由迷走神经调节 ,右侧迷走神经起主要作用 ;传统心率变异性测量方法与非线性方法所得结果一致     

Changes in intestinal endocrine cells in the mouse after unilateral cervical vagotomy

The effect of right or left unilateral cervical vagotomy on the intestinal endocrine cells was studied in 23 mice at 2 and 8 weeks after operation, respectively. The results were compared with that from 10 sham operated mice. Various types of endocrine cells in duodenum and proximal colon were detected by immunohistochemistry and quantified by computerized image analysis. In mouse duodenum, chromogranin-, CCK/gastrin-, GIP- and somatostatin-cells were significantly decreased at 2 weeks after right vagotomy, but returned to the control levels at 8 weeks. Serotonin-cells were reduced at both 2 and 8 weeks after right vagotomy. The amount of the duodenal endocrine cells did not change after left vagotomy with the exception of secretin-cells, which were diminished at 8 weeks after both right and left vagotomy. In the proximal colon, chromogranin-cells were also decreased at 2 weeks after right vagotomy. Serotonin-cells were reduced at 8 weeks after left vagotomy but not right vagotomy. There was no significant difference between the unilaterally vagotomized and the sham operated mice with regard to PYY- and glucagon-cells. It was concluded that vagotomy affected the intestinal endocrine cells in mouse. The influence was more pronounced in the small intestine than the proximal colon. The right vagus nerves seemed to exert more effect on the intestinal endocrine cells than the left ones.     

Changes in integrated vagal afferent activity induced by model lung diseases in rats.

An attempt has been made in the present report to evaluate quantitatively the sensory activity in both vagal nerves of control rats and rats with experimental lung inflammation, by employing the integration technique. We evaluated background vagal nerve activity, resting respiration and activity during inflation at constant pressures of 5 to 20 cm of water. It was found that integrated vagal respiratory activity cannot be assessed in absolute units under our experimental conditions, because of the large scatter of data. However, when the integrated values were related, for example, to resting respiration (in percentage), it was possible to compare some respiratory parameters in control, healthy rats of the Wistar strain and rats with lung inflammation. While background activity in control rats represents 75.9% of resting respiration, this parameter is significantly higher both in rats with 2-day carrageenin lung inflammation and those intoxicated with paraquat. Lung inflation at pressures 5, 10, 15, 20 cm H2O increased vagal activity linearly both in control and the two experimental groups with the degree of lung inflation. However, values in experimental animals corresponding to those of the control group were not reached until higher inflation pressures. From the functional aspect, experimental rats had characteristic tachypnoea which returns to control values after bilateral vagotomy. Since it was found that lung compliance was significantly decreased in both carrageenin and paraquat lung processes, it is being suggested that the diminished activity from lung receptors during inflation is due to mechanical properties of the lung tissue, namely lowered lung compliance.     

Role of the autonomic nervous system in the development of cardiovascular changes during nasal apnoea and lung inflation.

The role of the sympathetic system in the development of bradycardia during nasal apnoea and the role of the sympathetic and parasympathetic system in the development of cardiovascular changes during and immediately after lung inflation were determined in anaesthetized rabbits. Transection of the cervical cord (C5-7) completely blocked the hypertensive response to chemical stimulation of the nasal mucosa. The degree of nasal bradycardia was 72% lower than in stimulation of the controls. Propranolol had no effect on the hypertensive reaction, but inhibited nasal bradycardia, which was 68% lower than in the controls. Lung inflation induced tachycardia, which was only non-significantly reduced by bilateral vagotomy. Vagotomy inhibited the bradycardiac response to removal of occlusion of the trachea and the subsequent rise in blood pressure, however. Cervical cord transection likewise did not reduce inflation-induced tachycardia, but it significantly influenced the heart rate during the second phase of prolonged inflation, when the heart is affected by hypoxia. Inflation-induced tachycardia was likewise not influenced by bilateral vagotomy associated with cervical cord transection. Similar cardiac responses also occur in the presence of the simple increase in pericardial pressure produced by left pneumothorax without lung inflation.     

Vagotomy enhances experimental metastases of 4THMpc breast cancer cells and alters substance P level

We have previously demonstrated that inactivation of capsaicin-sensitive sensory neurons enhances lung and heart metastases of breast carcinoma. Because a significant part of sensory innervation of lung tissue is supplied by the vagus nerve, we here examined the effects of unilateral mid-cervical vagotomy in the metastases of 4THMpc breast carcinoma and tissue Substance P (SP) levels. Balb-c mice were injected orthotopically with 4THMpc cells 1 week after vagotomy. Animals were sacrificed 27-30 days after injection of 4THMpc cells and the extent of metastases was determined. Unilateral vagotomy, right or left significantly increased the lung, liver and kidney metastases without altering the growth rate of the primary tumor. Heart metastases were increased only following left vagotomy. The changes in SP levels were somewhat surprising such that vagotomy actually increased while sham-operation decreased SP levels in lung. The effect of sham-operation was reversed by unilateral vagotomy demonstrating that vagal activity decreases total SP levels in the lung. Increased SP levels might be due to decreased degradation of the peptide. Presence of the tumor markedly increased SP level in the lung, which was more prominent in vagotomized animals. These results provide evidence that vagal activity may protect against metastatic disease.     

Vagal influence on the adrenocortical function of the rat

The vagal influence on the fasciculata's function was studied in 23 Wistar male rats. The corticoadrenal function was evaluated by means of karyometric and histological studies. After vagotomy, the fasciculata of the left adrenal (operated side) showed a significant increase of the nuclear area in comparison with the right (control) side. This side difference was maintained in the stressed rats. In these animals the nuclear area did not increase significantly in either of the two adrenals. These results lead to the following conclusions: the vagus nerve, in normal conditions, has an inhibitory influence on the adrenal cortex; the vagal participation in the corticoadrenal response to a neurogenic stressor is meagre; the inhibitory vagal action on the fasciculata must be direct since the corticoadrenal modifications were unilateral, whereas, if the vagal influence were exerted through the hypophysis, the adrenal reaction should be bilateral; and, finally, the participation of the vagus nerve in the adrenal vascular disorders, which appeared in the stressed rats, seems to be insignificant since both glands, vagotomized and non vagotomized, showed a similar appearance.     

Ventilatory effect of acute pulmonary hypothermia

The isolated effect of cooling the pulmonary circulation on ventilation was quantified in nine anesthetized dogs. The right pulmonary artery (RPA) was cannulated within the pericardium, and systemic blood was pumped from the left atrium to the RPA between, but not during, periods of cooling. Cooled blood boluses were injected into the RPA under conditions in which either bolus temperature (5-35 degrees C) or volume (0-1.5 ml/kg body wt) varied. Inspiratory time (TI), expiratory time (TE), breath duration (TT), and peak integrated activity (PEAK) were determined from diaphragm EMG. Results for five postinjection breaths were converted to a percent of the values from five preinjection breaths. There was a linear relationship between bolus temperature and TI [r = 0.61, slope (x) = 0.59%/degrees C, P less than 0.001), TE (r = 0.73, x = 1.43%/degrees C, P less than 0.001] as well as TT (r = 0.74, x = 1.10%/degrees C, P less than 0.001), whereas PEAK was unaffected (n = 9). When injection temperature was 5 degrees C, an inverse linear relationship existed between bolus volume and TI (r = 0.75, x = -15.2%.ml-1.kg-1, P less than 0.001) and TE (r = 0.78, x = -23.4%.ml-1.kg-1, P less than 0.001) (n = 4). In two dogs tested the effect of bolus injection was minimal at residual volume and progressively increased with lung volume. The effect of cold bolus injection was eliminated after right vagotomy in three dogs. Results indicate that cooling of some vagal receptor in the lung increases breathing frequency primarily by shortening TE.     

Changes of impulse activity recorded from the rat vagus nerve during short-lasting total cooling

Gradual cooling of anesthetized rats followed by a drop in rectal temperature (RT) increased the frequency of efferent impulses and decreased the frequency of afferent impulses in the vagus nerves. Preliminary short-lasting (5 h) moderate cooling of the animals in a thermochamber to +5°C (RT did not change), or intensive cooling to −20°C (RT dropped to 32°C) changed the response of efferent nerve fibers to cooling of the body. Under these conditions, a drop in RT to 29°C was followed by a significant increase in efferent discharges in the vagus nerve after additional cooling throughout the experiment, while an initial cooling phase (RT was equal to 35-30°C) was followed by some inhibitory effect. At the same time, the changes in the afferent link were different. As in the control, gradual cooling decreased frequency of afferent impulses, although the intensity of the effects was different. The involvement of the vagus nerve system in the maintenance of temperature homeostasis during body cooling has been discussed.     

Electrical activity in the vagus nerves and some medullary nuclei in rats: Changes induced by endotoxin action and hyperthermia evoked by an increase in ambient temperatures

Acute experiments on rats showed that intraperitoneal administration of 5 μg/kg of a bacterial toxin (pyrogenal) increases the afferent impulsation frequency in the cervical segments of vagus nerves, VN (multifiber recording), and frequency of the multineuronal activity in the solitary tract nucleus (STN); these changes were observed during the whole period of recording (10–160 min following toxin injection). Enhancement of the efferent impulsation in the VN and neuronal activity in the dorsal nucleus of the vagus nerve (DNVN) could be observed only 120–130 min after toxin administration. Under these conditions rectal temperature in experimental animals was 1.5° higher than that in control rats throughout the period of recording. Following subdiaphragmatic vagotomy, the afferent impulsation frequency in the cervical VN decreased about four times and kept on decreasing during the whole period of registration. Pyrogenal introduction evoked no changes in the direction of reactions to vagotomy. Under these conditions, body temperature of these animals was 2.5°C higher than in control vagotomized rats by the final stage of recording. Animal heating in a chamber caused no changes in the afferent impulsation frequency and resulted in a decrease in the frequency of VN efferent discharges. Involvement of the VN in the maintenance of temperature homeostasis during fever induced by the endotoxin action and by hyperthermia due to a rise in ambient temperature is discussed. Neirofiziologiya/Neurophysiology, Vol. 32, No. 2, pp. 112–119, March–April, 2000.     

The effect of short term thermal stress on the heart and respiration rates of conscious and anaesthetized chickens

Heart and respiration rates were measured in eight 6-week-old, White Rock chicks at different ambient temperatures: 24--26 degrees C (neutral), 6.5--8.5 degrees C (low) and 3,95--43.5 degrees C (high). The animals were exposed to these temperatures for 10 min. In both groups the low ambient temperature did not influence the respiration rate, whereas the high temperature caused a significant increase of the respiration rates both in the conscious and anaesthetized birds. In both groups no significant changes in the heart rate at different temperatures were found. Statistically significant differences in the heart and respiration rates between the conscious and anaesthetized chickens were noted only at the low environmental temperature.     

Effects of thromboxane on respiration and pulmonary circulation in the cat: role of vagus nerve

Infusion of stoichiometrically equal quantities of acid and base (neutral acid-base infusion) in the cat elicits pulmonary hypertension and rapid shallow breathing (J. Appl. Physiol. 62: 2362-2370, 1987), and thromboxane A2 (TxA2), released from platelets, is responsible for these effects (Respir. Physiol. 71: 169-183, 1988). To investigate the involvement of vagal afferent fibers in these responses, we reversibly blocked signal conduction in the vagus of the cat by bilaterally cooling the vagus nerves to 1 degree C and measured the cardiorespiratory parameters in response to neutral acid-base infusion and infusion of the TxA2 mimetic U-46619. Vagal cooling before infusion caused tidal volume (VT) to increase and respiratory frequency (fresp) to decrease, whereby total ventilation (VE) was slightly enhanced, but did not affect right ventricular blood pressure (Prv). Infusion of neutral acid-base after vagal cooling prompted Prv to rise, on average from 35 Torr to a peak of 60 Torr, and a similar rise was elicited by infusion of U-46619. However, vagal cooling abolished any effect on VT or fresp of both acid-base and U-46619 infusion. After rewarming the vagus nerves, infusion of U-46619 caused fresp to increase and VT to decrease (rapid shallow breathing) with a concomitant rise in Prv, similar to what had been observed in the earlier studies. Our data suggest that the effects of TxA2 and of its mimetic U-46619 on respiration are mediated by the stimulation of vagal afferent fibers, whereas pulmonary hypertension is unrelated to vagal activity.     

Neural control of airway pressures in rabbits

In twenty anaesthetized and spontaneously breathing rabbits airway pressures were measured above and below the larynx during tidal respiration through the larynx. Peak inspiratory and expiratory pressures at both sites were recorded in control conditions and then compared to values obtained in the course of progressive denervation of the airways. The two methods of denervation consisted of (1) bilateral section of superior and recurrent laryngeal nerves and of the midcervical vagotomy (horizontal method); (2) right-sided sections of the three nerves followed by left-sided sections (vertical method). Motor denervation of the larynx due to RLNs neurotomy (horizontal method) produced significant increases in intratracheal pressures in both phases of the respiratory cycle. Less prominent increments in pressures were achieved on RLNs neurotomy in the vertical method. SLNs section and vagotomy had little additional effect on airway pressures. Our results indicate that unilateral laryngeal palsy poses far smaller obstruction to breathing than simultaneous bilateral denervation, and that afferent denervation of the larynx has no effect on airway pressures.     

IN VIVO SYNTHESIS OF RAPIDLY-LABELLED RNA WITHIN THE RAT NODOSE GANGLIA FOLLOWING VAGOTOMY

Abstract— The synthesis of rapidly-labelled RNA was studied in the nodose ganglia following unilateral vagotomy. Early changes were detected in the electrophoretic patterns of RNA from both ganglia following a crush of the right vagus. The right ganglionic response is characterized by two phases, the first involving rapid processing of rRNA with associated changes in 'message-like' RNA (mlRNA). A second change, detected by 14 days, appears to involve an increase in the heterodispersity of mlRNA and decreased processing of rRNA. The left ganglion follows a very similar response to that of the right with the exception of the changes in rRNA. However, the left response lags behind that of the right by at least 1 day. We conclude that extensive changes in gene expression are occurring in both ganglia. The similarity of the responses of both ganglia suggests that axon regeneration (in the right) and collateral sprouting (in the left) may produce analogous changes in gene expression, but not in rRNA synthesis.     

Cold-induced paralysis and recovery of lung respiration and heart contractions in newborn rats (inversion of Arrhenius law for physiological functions)

Arrest of respiration and heart activity in new-born rats aged 3-4 days and 10-11 days was shown to occur at a body temperature 6-7 degrees C and 2-3 degrees C lower than in adult rats, resp. At room temperature the body temperature of profoundly cooled rat's litter gradually increases and the functions are restored. In 3-4-day old rats, at the body temperature rising from profound cooling to 15-18 degrees C, the respiration and heart rates are 2-4-fold more than at the same temperature attained from the normal body temperature. These differences in the respiration and heart rates at the same body temperature suggest an inversion of the Arrhenius law (the Q10 coefficient) for physiological functions in early ontogenesis. This effect completely disappears in 10-11-day old rats.