Variabilidad del patrón respiratorio durante la carga elástica inspiratoria / Variability of breathing pattern during inspiratory elastic load

La ventilación pulmonar en humanos tiene una variabilidad respiración a respiración no lineal, compleja y caótica. El objetivo del trabajo fue: caracterizar la variabilidad del patrón respiratorio en perros (n: 8) anestesiados respirando bajo carga elástica umbral (CEU) inspiratoria (7 a 50 cm H2O). Con el flujo, presión traqueal y esofágica, se analizaron: tiempo inspiratorio (Ti), ritmo [tiempo espiratorio (Te); tiempo total (Ttot), y Ti/Ttot] e impulso central (Vt/Ti), variables relacionadas [volumen corriente (Vt) y ventilación pulmonar (Ve)]. Se determinaron: variabilidad grosera (varianzas), oscilaciones de baja frecuencia (análisis espectral) y memoria a corto plazo (análisis de autocorrelación). La CEU produjo disminución de la varianza de medias en Te, Ttot, Vt y Vt/Ti (p < 0.05). La media de las varianzas del Ti/Ttot aumentó (p < 0.005) y disminuyó para el Vt y el Vt/Ti (p < 0.05). En general, el porcentaje de oscilaciones de baja frecuencia (OB%) disminuyó (p < 0.02). Durante CEU alta, las variables de ritmo no cambiaron el porcentaje de registros con autocorrelación (AU%), pero el Vt y variables relacionadas disminuyeron los AU% (p < 0.005). Hubo correlación positiva (r: 0.955, p< 0.001) entre OB% y AU% en Vt y variables relacionadas, pero las variables de ritmo no mostraron correlación. En conclusión: La CEU indujo un patrón respiratorio más monótono. La memoria a corto plazo disminuyó en la fase inspiratoria y aumentó en la espiratoria. Estos cambios ocurrieron bajo anestesia, sugiriendo que ciertas estructuras suprapontinas pueden no ser imprescindibles para la generación de estos cambios.

In humans, lung ventilation exhibits breath-to-breath variability and dynamics that are nonlinear, complex and chaotic. Our objective was to characterize the breathing pattern variational activity in anesthetized dogs (n: 8) breathing through threshold inspiratory elastic load (7 to 50 cm H2O). Starting from flow signal and tracheal and esophageal pressures, we analyzed inspiratory time (Ti), timing (expiratory time, Te; total time, Ttot; and Ti/Ttot) and central drive (Vt/Ti) and variables related to it (tidal volume, Vt and pulmonary ventilation, Ve). We measured gross variability (variances), low frequency oscillations (spectral analysis), and short term memory (autocorrelation analysis). Loading decreased variance of the mean values of Te, Ttot, Vt and Vt/Ti (p < 0.05); the mean of variances for Ti/Ttot increased (p < 0.005) while it decreased for Vt and Vt/Ti (p < 0.05). In general, percent of data recordings with low frequency oscillations (OB%) decreased (p < 0.02). During heavy load, timing parameters percent of data recordings with autocorrelations (AU%) did not change, but Vt and its related parameters decreased their AU% (p < 0.005). There was a positive correlation (r: 0.955, p < 0.001) between the existence of low frequency oscillations and autocorrelations for Vt and its related parameters, while timing variables did not show such a correlation. In conclusion, threshold elastic load induced a monotonous respiratory pattern. The short term memory decreased during inspiratory stage while increased during expiratory stage. These changes occurred during anesthesia suggesting that certain suprapontine structures may not be obligatory to induce them.

The Reflex Effects on the Respiratory Regulation of the CO2 at the Different Flow Rate and Concentration

PURPOSE: The purpose of this study was to investigate the activation of the respiratory centers during insufflation of the larynx with CO2 at different flow rates and concentrations. MATERIALS AND METHODS: The experiments were carried out in spontaneous air breathing rabbits, anesthetized with thiopental sodium (25mg kg(-1) i.v.). The larynx was separated from the oropharyngeal cavity and the trachea. The tidal volume (VT) and respiratory frequency (f min(-1)) were recorded from the lower tracheal cannula. The respiratory minute volume (VE) was calculated, the action potentials from the right phrenic nerve were recorded and the inspiratory (TI) and expiratory (TE) periods and the mean inspiratory flow rate (VT/TI) were calculated. The larynx was insufflated at flow rates of 500mL min(-1) and 750mL min(-1), with 7 and 12% CO2-Air by means of a respiratory pump. RESULTS: Insufflation of the larynx, with both gas mixtures, decreased the f and VT significantly. The TI and TE were found to increase significantly due to the decreasing in f. There was a significant decrease in VT/TI ratio. Following bilateral midcervical vagotomy, on the passing of both gas mixtures, significant decreases were observed in the VT, and the responses of f, TI and TE were abolished. After cutting the superior laryngeal nerve, the responses of the VT to both gas mixtures were abolished. CONCLUSION: In conclusion, the results of this study purpose that the stimulation of the laryngeal mechanoreceptors by the effect of hyper- capnia decreases the activation of the respiratory center