Vagal esophageal receptors in anesthetized dogs: mechanical and chemical responsiveness.

This study was performed to evaluate the characteristics of esophageal receptors in anesthetized and artificially ventilated dogs. The electrical activity of the esophageal afferents was recorded from the peripheral cut end of the cervical vagus nerve. A cuffed catheter was inserted into the esophagus at the level of the third tracheal ring and was used to establish the esophageal location of the endings.

Larynx vs. esophagus as reflexogenic sites for acid-induced bronchoconstriction in dogs.

Bronchoconstriction in asthmatic patients is frequently associated with gastroesophageal reflux. However, it is still unclear whether bronchoconstriction originates from the esophagus or from aspiration of the refluxate into the larynx and larger airway. We compared the effect of repeated esophageal and laryngeal instillations of HCl-pepsin (pH 1.

Endotracheal cuff pressure as an index of airway smooth muscle activity: comparison with total lung resistance.

Pressure changes in the cuff of an endotracheal tube (Pcuff) were measured as an index of the tracheal smooth muscle activity and compared with total lung resistance (RL) in anesthetized, paralyzed and artificially ventilated dogs. After obtaining passive pressure-volume relationships of the cuff in situ, we activated the airway smooth muscle by electrical stimulation of the right vagus nerve, intravenous acetylcholine, and airway mechanical stimulation. The responses elicited by vagal stimulation and airway probing affected predominantly the tracheal smooth muscle, whereas acetylcholine administration caused homogeneous responses in Pcuff and RL, suggesting involvement of the smooth muscle of the entire airway.

Effects of HCl-pepsin laryngeal instillations on upper airway patency-maintaining mechanisms.

Gastroesophageal reflux has been indicated as an etiopathological factor in disorders of the upper airway. Upper airway collapsing pressure stimulates pressure-responsive laryngeal receptors that reflexly increase the activity of upper airway abductor muscles. We studied, in anesthetized dogs, the effects of repeated laryngeal instillations of HCl-pepsin (HCl-P; pH = 2) on the response of laryngeal afferent endings and the posterior cricoarytenoid muscle (PCA) to negative pressure.

Action of moguisteine on the activity of tracheobronchial rapidly adapting receptors in the dog.

We have studied the effects of moguisteine, a new non-narcotic, peripherally acting antitussive compound, on tracheobronchial rapidly adapting irritant receptors (RARs). Experiments were carried out on dogs anaesthetized with a mixture of urethane and alpha-chloralose, paralysed with gallamine, vagotomized and artificially ventilated. Single unit action potentials identified as originating from tracheobronchial RARs were recorded from the peripheral cut end of the right vagus nerve.

Activation of intrinsic laryngeal muscles during cough.

We studied the pattern of discharge of the posterior cricoarytenoid (PCA), cricothyroid (CT), thyroarytenoid (TA), and arytenoideus transversus (AR) muscles during cough in 12 anesthetized dogs. Diaphragm electromyographic (EMG) activity was also recorded, together with subglottic and esophageal pressures. Trains of repetitive coughs were induced by mechanically stimulating the tracheobronchial airway.

Effect of airway surface liquid composition on laryngeal muscle activation.

The effects of aerosolized distilled water and isosmolal dextrose in the isolated larynx on laryngeal muscle activity were studied in eight anesthetized dogs. Water aerosol was associated with an increase in peak posterior cricoarytenoid activity but no change in thyroarytenoid activity. Saline or isosmolal dextrose aerosols did not have any effect on the activity of either muscle.

Role of laryngeal afferents in cough.

The superior laryngeal nerve (SLN) is the main source of laryngeal afferent activity. A clear respiratory modulation can be noted when recording from the peripheral cut end of this nerve in several mammalian species. This modulation is due to three types of sensory endings: cold, pressure and 'drive' receptors.

Sensory information from the upper airway: role in the control of breathing.

The functional integrity of extrathoracic airways critically depends on the proper orchestration of the activities of a set of patency-maintaining muscles. Recruitment and control of these muscles is regulated by a laryngeal and trigeminal affects that originate from pressure sensing endings. These sensors are particularly numerous among laryngeal receptors and, indeed, they constitute the main element in the respiration-modulated activity of the superior laryngeal nerve.

Effect of changes in airway surface liquid on laryngeal receptors and muscles.

The effects of aerosolizing distilled water and isosmolal dextrose in the isolated larynx on the activity of pressure-responsive receptors and laryngeal muscles were studied in anesthetized dogs. Following water aerosolization, the mean discharge of pressure-responsive laryngeal mechanoreceptors during upper airway breathing and occlusion was 151% and 138% respectively of that present after saline aerosolization. During delivery of water aerosol, the peak activity of the posterior cricoarytenoid muscle increased to 229 +/- 56% of control; no effects were present on the thyroarytenoid muscle activity.

Laryngeal and tracheobronchial cough in anesthetized dogs.

Tussigenic sensitivity of laryngeal and tracheobronchial regions to mechanical and chemical stimuli was compared in 22 urethan-alpha-chloralose-anesthetized dogs. In addition, the contribution of myelinated and unmyelinated vagal fibers in mediating laryngeal and tracheobronchial cough was investigated. The intensity of cough was evaluated from changes in esophageal pressure.

Cardiorespiratory responses elicited by right atrial injections of iodinated contrast media. Comparative evaluation of four agents.

Rationale And Objectives: The purpose of this study is three-fold: 1) to quantify the cardiorespiratory responses to rapid right atrial injections of meglumine/sodium diatrizoate, ioxaglate, iotrolan, and iopamidol; 2) to compare the effects of each contrast medium to that of its corresponding vehicle and saline; and 3) to evaluate the role of the vagus nerve in the cardiorespiratory responses.

Methods: Seventeen anesthetized dogs, breathing spontaneously, were used. Injections of 2.

Effect of furosemide on the response of laryngeal receptors to low-chloride solutions.

Laryngeal irritant receptors are stimulated by water and solutions lacking chloride ions, such as isotonic dextrose. It has been reported that furosemide (frusemide) reduces cough evoked by inhalation of low-chloride solutions. We studied the effect of furosemide on the response of laryngeal receptors to isotonic dextrose.

Respiratory and cardiovascular effects of inhaled and intravenous bradykinin, PGE2, and PGF2 alpha in dogs.

Prostaglandins (PGs) and bradykinin act as potent respiratory irritants in both normal and asthmatic subjects, but their sites of action are unknown. We compared the cardiorespiratory effects of bradykinin, PGE2, and PGF2 alpha nebulized into the isolated "in situ" larynx, inhaled into the tracheobronchial tree, and injected intravenously in anesthetized spontaneously breathing dogs. Laryngeal administration only resulted in a brief burst of rapid shallow breaths produced by bradykinin (1,000 micrograms/ml) in one of five dogs.

Effects of halothane and isoflurane in the upper airway of dogs during development.

It has been previously found that volatile anesthetics significantly affect the activity of laryngeal receptors. In this study we have investigated the respiratory effects of these volatile anesthetics delivered into the upper airway of newborn and adult dogs. Experiments were performed on 17 5-14-day-old, 3 26-28-day-old and 3 adult dogs, anesthetized and breathing spontaneously through a tracheostomy.

Afferent innervation and receptors of the canine extrathoracic trachea.

The aim of this study was to establish the cranio-caudal distribution of slowly (SAR) and rapidly (RAR) adapting receptors of the extrathoracic trachea (ETT) as well as their innervation and response to water solutions of different compositions. Experiments were carried out on anesthetized dogs breathing spontaneously through a low cervical tracheostomy. Eighty percent of SARs and 76% of RARs with fibers in the superior laryngeal nerve (SLN) were found in the cranial third of the ETT.

Menthol in the upper airway depresses ventilation in newborn dogs.

Upper airway cooling depresses ventilation in the newborn dog. Since airway cooling stimulates laryngeal cold receptors and inhibits laryngeal mechanoreceptors, the type of afferent ending responsible for this reflex cannot be easily identified. l-menthol, a specific stimulant of cold receptors in the absence of any cooling, has been used to ascertain the discrete role of upper airway cold receptors in this ventilatory depression.

Afferent activity in the external branch of the superior laryngeal and recurrent laryngeal nerves.

We investigated the presence of respiratory-modulated receptors in the recurrent laryngeal nerve (RLN) and the external branch of the superior laryngeal nerve (ExtSLN) in anesthetized, spontaneously breathing dogs. Of 39 receptors recorded from the ExtSLN, the vast majority responded with a slowly adapting discharge to compression of the cricothyroid muscle, and only 1 responded to probing of the laryngeal mucosa. Ten receptors showed a respiratory modulation.

Upper airway cooling and l-menthol reduce ventilation in the guinea pig.

Cooling of the upper airway, which stimulates specific cold receptors and inhibits laryngeal mechanoreceptors, reduces respiratory activity in unanesthetized humans and anesthetized animals. This study shows that laryngeal cooling affects the pattern of breathing in the guinea pig and assesses the potential role of cold receptors in this response by using a specific stimulant of cold receptors (l-menthol). The response to airflows (30 ml/s, 10-s duration) through the isolated upper airway was studied in 23 anesthetized (urethan, 1 g/kg ip) guinea pigs breathing through a tracheostomy.

Effect of l-menthol on laryngeal receptors.

We have studied the effect of l-menthol on laryngeal receptors. Experiments have been conducted in 11 anesthetized dogs that breathed through a tracheostomy. We have recorded the activity of 23 laryngeal cold receptors and 19 mechanoreceptors.

Response of laryngeal receptors to water solutions of different osmolality and ionic composition.

Water-responsive laryngeal receptors with fibres in the superior laryngeal nerve were studied to characterize the specific physicochemical properties of aqueous solutions that activate these endings. The responses to water (37 degrees C) of 141 receptors were studied in 39 anaesthetized dogs breathing through a tracheostomy with the larynx functionally isolated. Of the 89 receptors stimulated by water, 53 were also challenged with isosmotic (275-315 mOsm) solutions of dextrose and sodium gluconate at 37 degrees C.

Cooling mediates the ventilatory depression associated with airflow through the larynx.

Although constant airflow through the upper airway has been shown to induce ventilatory depression in anesthetized newborn animals, the role of laryngeal temperature in this response has not been studied. Experiments were performed in fourteen 1-5 day-old anesthetized puppies breathing through a tracheostomy. Tidal volume and laryngeal temperature were recorded while a constant stream of air (15-25 ml/sec) at room temperature was passed in the expiratory direction for 20 sec through the isolated upper airway.

Carbon dioxide-responsive laryngeal receptors in the dog.

The purpose of this study was to relate the carbon dioxide (CO2) response of laryngeal receptors to their behavior during the breathing cycle (i.e. their response to transmural pressure changes, laryngeal movement or decreases in temperature) or during exposure to irritant stimuli (water or cigarette smoke).

Water-responsive laryngeal receptors in the dog are not specialized endings.

The primary purpose of this study was to ascertain whether laryngeal receptors activated by water are specialized endings or whether they also respond to other stimuli, such as pressure, temperature and laryngeal motion as they occur during the breathing cycle. In 35 anesthetized mongrel dogs, breathing spontaneously through a lower cervical tracheostomy, water and other test solutions at approximately 37 degrees C were injected into the functionally isolated larynx with a small catheter. Of the 130 receptors studied, none of the cold receptors (N = 13) responded to water, whereas approximately 60% of all laryngeal mechanoreceptors (72 of 117) responded with either a short delay, short duration or a long delay, long duration response.

Reflex responses to capsaicin: intravenous, aerosol, and intratracheal administration.

Intravenous capsaicin elicits the "pulmonary chemoreflex" (apnea, bradycardia, and hypotension) presumably through the stimulation of "pulmonary C-fibers." The present study was designed to ascertain whether tracheobronchial C-fibers play a role in the above reflex response. We compared the effects of capsaicin injected intravenously, administered as an aerosol, and administered topically into the intrathoracic trachea in anesthetized dogs (n = 17) and rats (n = 17).