Cardiogenic motion of right lung parenchyma in anesthetized intact dogs

Recent investigation suggests that both ventilation (VE) and the chemical sensitivity of the respiratory control system correlate closely with measures of metabolic rate [O2 consumption (VO2) and CO2 production (VCO2)]. However, these associations have not been carefully investigated during sleep, and what little information is available suggests a deterioration of the relationships. As a result we measured VE, ventilatory pattern, VO2, and VCO2 during sleep in 21 normal subjects (11 males and 10 females) between the ages of 21 and 77 yr. When compared with values for awake subjects, expired ventilation decreased 8.2 +/- 2.3% (SE) during sleep and was associated with a 8.5 +/- 1.6% decrement in VO2 and a 12.3 +/- 1.7% reduction in VCO2, all P less than 0.01. The decrease in ventilation was a product primarily of a significant decrease in tidal volume with little change in frequency. None of these findings were dependent on sleep stage with results in rapid-eye-movement (REM) and non-rapid-eye-movement sleep being similar. Through all sleep stages ventilation remained tightly correlated with VO2 and VCO2 both within a given individual and between subjects. Although respiratory rhythmicity was somewhat variable during REM sleep, minute ventilation continued to correlate with VO2 and VCO2. None of the parameters described above were influenced by age or gender, with male and female subjects demonstrating similar findings. Ten of the subjects demonstrated at least occasional apneas. These individuals, however, were not found to differ from those without apnea in any other measure of ventilation or metabolic rate.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hyperosmotic-induced bronchoconstriction in the canine lung periphery

Hypertonic aerosol- and dry airflow-induced bronchoconstriction were examined in the canine lung periphery by the use of a wedged bronchoscope technique. Collateral resistance was measured in anesthetized dogs before and after exposure to isotonic and hypertonic aerosols and dry airflow. Hypertonic aerosols produced significantly greater responses than isotonic aerosols, and resistance increased in an exposure-dependent manner. Atropine attenuated responses to these challenges, indicating that aerosol-induced peripheral lung constriction was, in part, muscarinic in origin. Paired hypertonic- and dry airflow-induced constriction exhibited marked differences in magnitude and time course: responses to hypertonic aerosol peaked immediately; dry air-induced responses rose slowly to a maximum 5-min postchallenge. These differences may reflect differences in stimulus strength or differences in the regulatory pathways activated by each challenge. Despite this, a significant correlation exists between aerosol- and dry air-induced responses in the canine lung periphery and suggests that changes in airway fluid osmolality have an important role in the initiation of airflow-induced bronchoconstriction.     

Role of antidiuretic activity in the inhibition of renin secretion by vasopressin in anesthetized dogs

The nature of the activity of vasopressin which is responsible for the inhibition of renin secretion was studied by comparing the effects of vasopressin (AVP) and analogs of AVP in anesthetized water-loaded dogs. Infusion of AVP (1.0 ng/kg/min) increased mean arterial pressure (MAP) and decreased heart rate (HR) and free water clearance (CH2O). Plasma renin activity (PRA) decreased from 11.9 +/- 4.7 to 3.8 +/- 1.7 ng/ml/3 hr (p less than 0.05). A selective antidiuretic agonist, 1-deamino-8-D-arginine vasopressin (1.0 ng/kg/min), which had no effect on MAP or HR but was effective as AVP in decreasing CH2O, decreased PRA from 13.5 +/- 4.6 to 7.0 +/- 2.9 ng/ml/3 hr (p less than 0.05). Infusion of a selective vasoconstrictor agonist, 2-phenylalanine-8-ornithine oxytocin (1.0 ng/kg/min), increased MAP and decreased HR but did not decrease CH2O or PRA. A vasoconstrictor antagonist, d(CH2)5Tyr(Me)AVP (10 micrograms/kg), completely blocked the MAP and HR responses to AVP but did not block the decrease in CH2O or PRA (5.9 +/- 1.8 to 2.9 +/- 1.6 ng/ml/3 hr) (p less than 0.001). Infusion of the 0.45% saline vehicle had no significant effect on MAP, HR, CH2O or PRA. These results indicate that the inhibition of renin secretion by vasopressin in anesthetized water-loaded dogs is due to its antidiuretic activity.     

Mechanical impedance of the lung periphery

Hantos, Z., F. Peták, Á. Adamicza, T. Asztalos, J. Tolnai, and J. J. Fredberg. Mechanical impedance ofthe lung periphery. J. Appl. Physiol.83(5): 1595-1601, 1997.The mechanics of the regional airways andtissues was studied in isolated dog lobes by means of a modifiedwave-tube technique. Small-amplitude pseudorandom forced oscillationsbetween 0.1 and 48 Hz were applied through catheters wedged in2-mm-diameter bronchi in three regions of each lobe at translobarpressures (PL) of 10, 7, 5, 3, 2, and 1 cmH₂O. The measuredregional input impedances were fitted by a model containing theresistance (R₁) and inertance(I) of the regular (segmental) airways, the resistance of thecollateral channels (R₂), andthe damping (G) and elastance (H) of the local tissues. This model gavefar better fits to the data on impedance of the lung periphery thanwhen G and H were replaced by a single tissue compliance, whichexplains why interruption of segmental flow did not lead tomonoexponential pressure decay in previous studies. The interlobar andintralobar variances of the parameters were equally significant, andpoor correlations were found between the airway parametersR₁ andR₂ and between any airway andtissue parameter (e.g., R₁ and H).R₂ was on average ~10 timeshigher than R₁, although theR₂-to-R₁ratios and their dependencies on PL were regionally highlyvariable. However, for the total of 33 regions studied, thePL dependence was the same forR₁ and R₂, which may reflect similarmorphological structures for the regular and collateral airways. Thedependencies of G and H on PLshowed high interregional variations; generally, however, they assumedtheir minima at medium PL values(~5 cmH₂O).

     

Tonic sympathetic activity in the rabbit sciatic nerve

Tonic activity of sympathetic nerve fibers of the tibial and peroneal nerves was investigated in rabbits anesthetized with urethane by the multichannel coherent recording technique. Activity of stochastic character was shown to predominate in the tonic activity of these fibers. A component of activity with the frequency of the heart beat also is frequently observed, but the power of this component is never more than half the total power of activity. Activity with a frequency of 10 Hz, observed by other workers, and also modulation of tonic activity in the rhythm of respiration were not recorded in these experiments. Slow changes in the power of activity from zero to a level several times above average were observed when the blood pressure was stable.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 17, No. 3, pp. 351–358, May–June, 1985.     

Effect of digitalis on the diaphragm in anesthetized dogs

We examined the effect of digitalis on diaphragmatic contractility and fatigability in 19 anesthetized mechanically ventilated dogs. The diaphragmatic force was assessed from transdiaphragmatic pressure (Pdi) developed at functional residual capacity against an occluded airway during cervical phrenic nerve stimulation. In a first group of five dogs, Pdi-stimulus frequency relationships were compared before and after administration of ouabain in doses of 0.01, 0.02, and 0.04 mg/kg. In a second group, diaphragmatic fatigue was produced by bilateral phrenic nerve stimulation at 30 Hz. Ten seconds of stimulation and 15 s of mechanical ventilation were repeated for 30 min. The rates of decrease in Pdi were compared between two groups, one of 0.05 mg/kg deslanoside-treated dogs (n = 7) and one of nontreated dogs (n = 7). After ouabain administration Pdi was significantly greater at each frequency in a dose-dependent manner. On the other hand, the rate of decrease in Pdi in the deslanoside group was significantly smaller than that in the nontreated group, whereas deslanoside did not greatly change the Pdi-frequency curves in fresh diaphragm. We conclude that ouabain improves contractility of the fresh diaphragm and that deslanoside has a protective effect against fatigability.     

Calcium chelators induce bronchoconstriction in the canine lung periphery

We studied the mechanism by which Na2EDTA, a divalent cation chelator, induces bronchoconstriction in the lung periphery of mongrel dogs as a model of nonspecific small airway hyperresponsiveness. Using a wedged bronchoscope technique, we measured collateral system resistance (Rcs) before and after challenges with aerosolized Na2EDTA. An isotonic solution (4% Na2EDTA, 0.28 osmol/kg) increased Rcs 91 +/- 21%. Na2EDTA increased Rcs in a dose-dependent fashion after challenges of increasing concentration (0, 1, 3, and 6%) or duration (15, 30, 60, and 90 s) with 6% Na2EDTA. Atropine (1 mg/kg iv) significantly (P = 0.01) attenuated the response to an aerosol challenge with distilled H2O. Atropine did not significantly (P = 0.35) alter the response to a challenge with 4% Na2EDTA. Challenge with 6% Na2EDTA (0.42 osmol/kg) increased Rcs to a significantly greater (P less than 0.01) extent than did challenge with 6% CaNa2EDTA (0.37 osmol/kg, 250 +/- 55 vs. 29 +/- 11%, respectively). We conclude that Na2EDTA induces bronchoconstriction in the canine lung periphery in a dose-dependent fashion. As suggested by the Na2EDTA-CaNa2EDTA comparison, hyperosmolality of the solution alone cannot explain this phenomenon. The mechanism does not depend on muscarinic activity and appears to involve chelation of calcium.     

Investigations on the circulation of anesthetized dogs.

In the present experiments arterial blood pressure, cardiac output, heart rate, oxygen consumption, AVO2 difference values and their changes were investigated in 64 anesthetized dogs in four periods for altogether 60 min. Blood flows of the renal, commune carotid and femoral arteries were measured in parallel and the changes were recorded throughout the 60 min of the experimental period. Urine was collected separately from both kidneys, in order to determine whether the measurement of the blood flow of the renal artery disturbed renal functions. Total peripheral vascular resistance and the vascular resistance of the territories of the commune carotid and femoral arteries were calculated from the parameters measured. In the present experiments the equation of the regression line between cardiac output and body weight was y = 0.102x + 0.9411. The equation of the regression line between cardiac output an body surface proved to be y = 2.996x + 0.653. The relationship between total oxygen consumption and body weight could be characterized by the y = 5.815x + 24.227 equation. Our data were in accordance with data of the Biology Data Book obtained in dogs anesthetized by pentobarbital. Our present data can be found but partially in the Biology Data Book, so the results obtained in the present study may serve as basis of future comparisons. In this work proper care was taken to maintain the same conditions and, thus ruling out possible artefacts. The experiments were carried out on mongrel dogs of different sexes; nevertheless, the animals were attempted to be kept under the same conditions for the 14 days preceding the experiments.     

Active and passive respiratory mechanics in anesthetized dogs

In six spontaneously breathing anesthetized dogs (pentobarbital sodium, 30 mg/kg) airflow, volume, and tracheal and esophageal pressures were measured. The active and passive mechanical properties of the total respiratory system, lung, and chest wall were calculated. The average passive values of respiratory system, lung, and chest wall elastances amounted to, respectively, 50.1, 32.3, and 17.7 cmH2O X l-1. Resistive pressure-vs.-flow relationships for the relaxed respiratory system, lung, and chest wall were also determined; a linear relationship was found for the former (the total passive intrinsic resistance averaged 4.1 cmH2O X l-1 X s), whereas power functions best described the others: the pulmonary pressure-flow relationship exhibited an upward concavity, which for the chest wall presented an upward convexity. The average active elastance and resistance of the respiratory system were, respectively, 64.0 cmH2O X l-1 and 5.4 cmH2O X l-1 X s. The greater active impedance reflects pressure losses due to force-length and force-velocity properties of the inspiratory muscles and those due to distortion of the respiratory system from its relaxed configuration.