Reversal of apnoea by aspiration reflex in anaesthetized cats.

Various flow and timing characteristics of breathing as well as electrocorticographic (ECoG) records were analysed in a model of reversible respiratory failure induced by N2 inhalation in 27 anaesthetized cats. During the first minute of respiratory arrest, nasopharyngeal stimulation by an elastic nylon fibre elicited a typical sniff- or gasp-like aspiration reflex (in 88.8% of cases), whilst similar tracheobronchial irritation evoked a weak cough reaction in one third of cases (34.2%). The aspiration reflex could also be evoked in progressive stages of apnoea characterized by very low and even isoelectric ECoG activity immediately before imminent irreversible respiratory failure, and it could interrupt and replace the periodic gasping sometimes occurring during apnoea. The reflex, comprising powerful inspiration efforts, could be evoked during apnoea many times in succession. Repeated aspiration reflexes alone resulted in recovery from hypoxic apnoea with gradual normalization of ECoG and subsequent restitution of spontaneous breathing even more frequently than it occurred in periodic gasping. Successful resuscitation from hypoxic apnoea by the aspiration reflex in cats suggests that nasopharyngeal stimulation can affect the mechanisms underlying the failure and restitution of breathing at least in some forms of apnoea.

[1]  S. Tenney,et al.  Characterization by stimulation of medullary mechanisms underlying gasping neurogenesis. , 1985, Journal of applied physiology.

[2]  L. Becker,et al.  Prenatal and postnatal maturation of medullary 'respiratory centers'. , 1986, Brain research.

[3]  Hypoxic apnoea induced by N2 inhalation can be reversed by the aspiration reflex in anaesthetized cats. , 1991, Respiratory medicine.

[4]  J. Widdicombe,et al.  The effects of a mixture of surface-active agents (Sonarex) on upper airways resistance and snoring in anaesthetized dogs. , 1988, The European respiratory journal.

[5]  H. Lagercrantz Neuromodulators and respiratory control during development , 1987, Trends in Neurosciences.

[6]  B. Thach,et al.  Effect of maturation on spontaneous recovery from hypoxic apnea by gasping. , 1989, Journal of applied physiology.

[7]  G. Sant'ambrogio,et al.  Respiratory Function of the Upper Airway , 1988 .

[8]  J. Korpáš,et al.  Cough and Other Respiratory Reflexes , 1979 .

[9]  Z. Tomori,et al.  Muscular, bronchomotor and cardiovascular reflexes elicited by mechanical stimulation of the respiratory tract , 1969, The Journal of physiology.

[10]  K. Javorka,et al.  Reflex responses to stimulation of the upper respiratory tract. , 1973, Acta neurobiologiae experimentalis.

[11]  D. Richter,et al.  The differential organization of medullary post-inspiratory activities , 1987, Pflügers Archiv - European Journal of Physiology.

[12]  K. Javorka,et al.  THE PATHOPHYSIOLOGICAL ROLE OF THE SNIFF-LIKE ASPIRATION REFLEX , 1981 .

[13]  Z. Tomori PLEURAL, TRACHEAL AND ABDOMINAL PRESSURE VARIATIONS IN DEFENSIVE AND PATHOLOGIC REFLEXES OF THE RESPIRATORY TRACT. , 1965, Physiologia bohemoslovenica.

[14]  Respiration and airway reflexes after transversal brain stem lesions in cats. , 1987, Physiologia Bohemoslovaca.

[15]  L. Ayvazian,et al.  Handbook of Physiology: Section 3, The Respiratory System, Volume II: Control of Breathing, Parts 1 and 2 , 1987 .