ライフサイエンスコーパス: air hunger

コーパス検索結果 (１語後でソート)

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1 ns, vasomotor activity, hunger, thirst, and 'air hunger'.

2 nse to increased PET(CO2), thereby relieving air hunger.

3 response to CO2, thereby greatly diminishing air hunger.

4 Throughout, subjects rated sensations of air hunger.

5 rapidly giving rise to increased ratings of air hunger.

6 subjects we obtained simultaneous ratings of air hunger and of work and effort while independently va

7 ical mechanisms subserving the experience of air hunger and the affective control of breathing in hum

8 Two qualitatively different sensations, "air hunger" and "respiratory work and effort," arising f

9 el may produce an uncomfortable sensation of air hunger, and breathing above it a sensation of work o

10 uisition of other sensory data in service of air hunger aroused vigilance.

11 athholding time and described a sensation of air hunger as the factor limiting her breathholding abil

12 nurses cited treatment of pain, anxiety, and air hunger as the most common reasons, and hastening dea

13 The sensation of an urge to breathe (air hunger) associated with a fixed level of hypercapnia

14 experienced a significantly greater sense of air hunger breathing through a face mask than through a

15 The primal emotion of air hunger, dissociated from hypercapnia, activated midl

16 ases in ventilator tidal volume (VT) relieve air hunger even if PET(CO2) is kept elevated.

17 Subjects' ratings of air hunger intensity in response to elevated PET(CO2) we

18 ving the consciousness of breathlessness and air hunger is limited.

19 We conclude that "air hunger" is qualitatively different from "work and ef

20 tures suggest a structural basis for reduced air hunger perception, thermoregulatory and autonomic de

21 to chemoreceptor stimulation, and diminished air hunger perception.

22 al effects of hypercapnia and the consequent air hunger produced strong bilateral, near-midline activ

23 in response to the two stimulus dimensions: air hunger ratings changed more steeply when PCO(2) was

24 Air hunger relief was similar when the experimenter mimi

25 al partial pressure of CO2 (PET(CO2)) causes air hunger; this sensation becomes intense with a relati

26 ator-dependent patients use the sensation of air hunger to effectively control ventilator VT using no

27 Air hunger was also monitored during and immediately fol

28 In nine young adults, air hunger was produced acutely by CO(2) inhalation.

29 arable physiological and subjective effects (air hunger) were assessed by comparisons with various re

30 ed, both groups experienced a high degree of air hunger when PET,CO2 was increased by about 10 mmHg.

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