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Responses to simulated echoes by neurons in the barn owl's auditory space map (1996)

Keller, C. H. ; Takahashi, T. T.

Springer

Journal of comparative physiology 178 (1996), S. 499-512

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ISSN: 1432-1351

Keywords: Binaural ; Inferior colliculus ; Nucleus mesencephalicus laterale pars dorsalis ; Precedence effect ; Sound localization

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The natural acoustical environment contains many reflective surfaces that give rise to echoes, complicating the task of sound localization and identification. The barn owl (Tyto alba), as a nocturnal predator, relies heavily on its auditory system for tracking and capturing prey in this highly echoic environment. The external nucleus of the owl's inferior colliculus (ICx) contains a retina-like map of space composed of “space-specific” auditory neurons that have spatially limited receptive fields. We recorded extracellularly from individual space-specific neurons in an attempt to understand the pattern of activity across the ICx in response to a brief direct sound and a simulated echo. Space-specific neurons responded strongly to the direct sound, but their response to a simulated echo was suppressed, typically, if the echo arrived within 5 ms or less of the direct sound. Thus we expect there to be little or no representation within the ICx of echoes arriving within such short delays. Behavioral tests using the owl's natural tendency to turn their head toward a sound source suggested that owls, like their space-specific neurons, similarly localize only the first of two brief sounds. Naive, untrained owls were presented with a pair of sounds in rapid succession from two horizontally-separated speakers. With interstimulus delays of less than 10 ms, the owl consistently turned its head toward the leading speaker. Longer delays elicited head turns to either speaker with approximately equal frequency and in some cases to both speakers sequentially.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00190180

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Effects of different triggering systems and external PEEP on trigger capability of the ventilator (1996)

Konyukov, Y. A. ; Kuwayama, N. ; Fukuoka, T. ; [et al.]

Springer

Intensive care medicine 22 (1996), S. 363-368

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ISSN: 1432-1238

Keywords: Work of breathing ; Pressure support ventilation ; Lung model ; Artificial ventilation ; Ventilators ; Trigger delay

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective The triggering capability of both the pressure and flow triggering systems of the Servo 300 ventilator (Siemens-Elema, Sweden) was compared at various levels of positive end-expiratory pressure (PEEP), airway resistance (Raw), inspiratory effort and air leak, using a mechanical lung model. Design The ventilator was connected to a two bellows-in-series-type lung model with various mechanical properties. Lung complicance and chest wall compliance were 0.03 and 0.12 l/cmH2O, respectively. Raw was 5, 20 and 50 cmH2O/l/s. Respiratory rate was 15 breaths/min. To compare the triggering capability of both systems, the sensitivity of pressure and flow triggered pressure support ventilation (PSV) was adjusted to be equal by observing the triggering time at 0 cmH2O PEEP and 16 cmH2O of pressure support (PS) with no air leak. No auto-PEEP was developed. In the measurement of trigger delay, the PS level ranged from 16 to 22 cmH2O to attain a set tidal volume (VT) of 470 ml at a Raw of 5, 20 and 50 cmH2O/l/s. The PEEP level was then changed from 0, 5 and 10 cmH2O at a PS level of 17 cmH2O and Raw of 5 and 20 cmH2O/l/s, and the trigger delay was determined. The effect of various levels of air leak and inspiratory effort on triggering capability was also evaluated. Inspiratory effort during triggering delay was estimated by measurements of pressure differentials of airway pressure (Paw) and driving pressure in the diaphragm bellows (Pdriv) in both systems. Measurements and results There were no significant differences in trigger delay between the two triggering systems at the various PEEP and Raw levels. At the matched sensitivity level, air leak decreased trigger delay in both systems, and additional PEEP caused auto-cycling. A low inspiratory drive increased trigger delay in the pressure sensing system, while trigger delay was not affected in the flow sensing system. The Paw and Pdriv differentials were lower in flow triggering than in pressure triggering. Conclusions With respect to triggering delay, the triggering capabilities of the pressure and flow sensing systems were comparable with and without PEEP and/or high air-way resistance at the same sensitivity level, unless low inspiratory drive and air leak were present. In terms of pressure differentials, the flow triggering system may require less inspiratory effort to trigger the ventilator than that of the pressure triggering system with a comparable triggering time. However, this difference may be extremely small.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01700461

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Effects of different triggering systems and external PEEP on trigger capability of the ventilator (1996)

Konyukov, Y. A. ; Kuwayama, N. ; Fukuoka, T. ; [et al.]

Springer

Intensive care medicine 22 (1996), S. 363-368

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Details

ISSN: 1432-1238

Keywords: Key words Work of breathing ; Pressure support ventilation ; Lung model ; Artificial ventilation ; Ventilators ; Trigger delay

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective: The triggering capability of both the pressure and flow triggering systems of the Servo 300 ventilator (Siemens-Elema, Sweden) was compared at various levels of positive end-expiratory pressure (PEEP), airway resistance (Raw), inspiratory effort and air leak, using a mechanical lung model. Design: The ventilator was connected to a two bellows-in-series-type lung model with various mechanical properties. Lung complicance and chest wall compliance were 0.03 and 0.12 l/cmH2O, respectively. Raw was 5, 20 and 50 cmH2O/l/s. Respiratory rate was 15 breaths/min. To compare the triggering capability of both systems, the sensitivity of pressure and flow triggered pressure support ventilation (PSV) was adjusted to be equal by observing the triggering time at 0 cmH2O PEEP and 16 cmH2O of pressure support (PS) with no air leak. No auto-PEEP was developed. In the measurement of trigger delay, the PS level ranged from 16 to 22 cmH2O to attain a set tidal volume (VT) of 470 ml at a Raw of 5, 20 and 50 cmH2O/l/s. The PEEP level was then changed from 0, 5 and 10 cmH2O at a PS level of 17 cmH2O and Raw of 5 and 20 cmH2O/l/s, and the trigger delay was determined. The effect of various levels of air leak and inspiratory effort on triggering capability was also evaluated. Inspiratory effort during triggering delay was estimated by measurements of pressure differentials of airway pressure (Paw) and driving pressure in the diaphragm bellows (Pdriv) in both systems. Measurements and results: There were no significant differences in trigger delay between the two triggering systems at the various PEEP and Raw levels. At the matched sensitivity level, air leak decreased trigger delay in both systems, and additional PEEP caused auto-cycling. A low inspiratory drive increased trigger delay in the pressure sensing system, while trigger delay was not affected in the flow sensing system. The Paw and Pdriv differentials were lower in flow triggering than in pressure triggering. Conclusions: With respect to triggering delay, the triggering capabilities of the pressure and flow sensing systems were comparable with and without PEEP and/or high airway resistance at the same sensitivity level, unless low inspiratory drive and air leak were present. In terms of pressure differentials, the flow triggering system may require less inspiratory effort to trigger the ventilator than that of the pressure triggering system with a comparable triggering time. However, this difference may be extremely small.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01700461

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