戻る
「早戻しボタン」を押すと検索画面に戻ります。

今後説明を表示しない

[OK]

コーパス検索結果 (1語後でソート)

通し番号をクリックするとPubMedの該当ページを表示します
1 ariable indicating the presence of increased apneic activity (IAA).
2                                           If apneic activity does cause acute stress in HF, it should
3  expanded and allow for prolonged periods of apneic airway surgery.
4 entilatory stimuli on the hypocapnia-induced apneic and hypopneic thresholds in sleeping dogs.
5     Lung wet/dry weight was 5.40 +/- 0.93 in apneic animals and 5.00 +/- 0.67 in controls.
6 e experiment fell from 89.6 to 82.8 mm Hg in apneic animals and from 92.2 to 85.5 mm Hg in controls.
7         In patients with OSAS, the EMGgg for apneic breaths during REM (37 +/- 9%) was lower than dur
8 s significantly larger compared with the pre-apneic control.
9 the post-apneic period compared with the pre-apneic control.
10  digging while feeding near the surface, and apneic dives.
11 roscopy showed gross alveolar fluid in three apneic dogs, and electron microscopy showed interstitial
12  showed interstitial fluid in two additional apneic dogs.
13 tively, to 1.7 to 3.2 Torr at the end of the apneic episode.
14 y characterized by hypoxemia due to frequent apneic episodes and fragmentation of sleep due to the br
15 of activation during spontaneous obstructive apneic episodes in non-rapid-eye-movement (NREM) sleep:
16                                              Apneic episodes induced in animals ventilated with 15%,
17                                     When the apneic episodes were eliminated by application of nasal
18 due to the brief arousals that terminate the apneic episodes.
19 There is leukocytosis with lymphocytosis and apneic episodes.
20                                   Repetitive apneic events disrupt the normal physiologic interaction
21 d possibly a higher arousal threshold during apneic events.
22 ear to be linked to the repetitive nocturnal apneic events.
23     The mean amplitude and slope of the post-apneic fEPSP was significantly larger compared with the
24 ves (1 mg lorezapam), and one patient became apneic for a brief interval after receiving additional n
25 o relationship between BNP and the number of apneic/hypopneic episodes or the number of arousals.
26 ssociated with the frequency and severity of apneic/hypopneic episodes, intermittent arousals, and hy
27 ssociated with a significant increase in the apneic index in these infants (28.6 +/- 6.4/hour [S] vs.
28 ices showed good agreement with steady-state apneic left ventricular stroke volume values and moderat
29              There was no difference between apneic oxygenation and usual care in incidence of oxygen
30                                              Apneic oxygenation does not seem to increase lowest arte
31 These findings do not support routine use of apneic oxygenation during endotracheal intubation of cri
32 west arterial oxygen saturation was 92% with apneic oxygenation versus 90% with usual care (95% confi
33  of supplemental oxygen during laryngoscopy (apneic oxygenation) may prevent hypoxemia.
34 high-flow nasal cannula during laryngoscopy (apneic oxygenation) or no supplemental oxygen during lar
35 that hf-TTI stabilized breathing patterns in apneic patients, and was safe and efficacious for prolon
36 p fragmentation are difficult to separate in apneic patients.
37 cm H2O (mean +/- SD) for three breaths in 19 apneic patients.
38 tilation induced a longer hypocapnia-induced apneic period (51.5 +/- 9.9 versus 11.2 +/- 5.5 seconds,
39 red-pulse facilitation ratio during the post-apneic period compared with the pre-apneic control.
40 diate effect of tracheal stimulation was an "apneic" period at FRC, during which the PCA, a laryngeal
41 atory regulation, including vagally mediated apneic reflexes.
42 way and the respiratory neurons that mediate apneic reflexes.
43 sults showed that PNE markedly prolonged the apneic response and exacerbated the bradycardic response
44  and 12.1% indicated a passive (i.e., infant apneic) response by the infant, despite excluding period
45 ergence of sensory inputs capable of driving apneic responses and that it may represent a common link
46             However, in our earlier study of apneic responses produced by glutamate stimulation in th
47 racterize the sites in the pons that produce apneic responses.
48                                We found that apneic sites were consistently associated with the inter
49 were no significant differences with gender, apneic spells, jaundice, or phototherapy.
50 ry sensitivity to CO2 between eupnea and the apneic threshold are changeable in the face of variation
51  3-5 mm Hg > eupnea (and 7-10 mm Hg > normal apneic threshold) throughout CMV trials at raised freque
52 e during sleep may lower the value below the apneic threshold, thereby resulting in central apnea.
53 sed a significant (p < 0.05) increase in the apneic threshold, which we attribute to an inhibitory ef

WebLSDに未収録の専門用語(用法)は "新規対訳" から投稿できます。