ライフサイエンスコーパス: oxygen desaturation

1 s the airways of patients and leads to blood oxygen desaturation.

2 uration of respiratory events, and degree of oxygen desaturation.

3 were accompanied by moaning, tachypnea, and oxygen desaturation.

4 tively correlated with severity of nocturnal oxygen desaturation.

5 s and none of the 10 controls had sleep-time oxygen desaturation.

6 in during intermittent hypoxia to accentuate oxygen desaturation.

7 and had severe acute respiratory syndrome or oxygen desaturation.

8 Oxygen desaturation (353 patients [5.6%]) and vomiting (

9 rface displacements (32% vs. 56%; P = 0.01), oxygen desaturations (40% vs. 75%; P < 0.001), required

10 On further oxygen desaturation, a tonic increase in stellate gangli

11 per airway collapse during sleep, leading to oxygen desaturation and disrupted sleep.

12 after completion of the vascular anatomoses oxygen desaturation and increased airway pressure was no

13 hypopnea cycles during sleep associated with oxygen desaturation and sleep disruption.

14 airway obstruction during sleep resulting in oxygen desaturation and sleep fragmentation, and associa

15 Subjects demonstrated a modest oxygen desaturation and tachycardia during the procedure

16 obesity, the frequency of obstructive apnea, oxygen desaturation, and arousal contributes to abnormal

17 n of the amygdala co-occurred with apnea and oxygen desaturation, and electrical stimulation of the a

18 s performed in response to an adverse event, oxygen desaturation, and vomiting.

19 or the presence of respiratory disturbances, oxygen desaturations, and cortical arousals within a 90-

20 y insufficient unless clinical findings like oxygen desaturation, apnea, and bradycardia are part of

21 Oxygen desaturations are accompanied by increases in ETC

22 ratory events >9.4 b.p.m. (third tertile) or oxygen desaturation area under baseline (hypoxic burden)

23 Oxygen desaturation at rest was present in 4 patients.

24 Six children (0.9%) had brief periods of oxygen desaturation below 95%, none of which required ai

25 In these 19 seizures, all oxygen desaturations below 85% were accompanied by an in

26 Pulse oximetry showed oxygen desaturations below 90% in 101 (33.2%) of all sei

27 h SAHS, particularly in those with nocturnal oxygen desaturation, but the decrease is small.

28 cheal intubation-associated events or severe oxygen desaturation compared to primary tracheal intubat

29 , nocturnal REM sleep latency, and extent of oxygen desaturation-could reflect neurophysiological mec

30 ose tolerance was related to the severity of oxygen desaturation (DeltaSa(O(2))) associated with slee

31 mely the oxygen desaturation index (ODI) and oxygen desaturation density (ODD).

32 ldren showed a lower magnitude of peripheral oxygen desaturation during high-altitude exercise.

33 The aim of this study was to assess oxygen desaturation during sleep in hepatopulmonary synd

34 heal intubation-associated events and severe oxygen desaturation during tracheal intubation.

35 raperitoneal, leptin decreased the number of oxygen desaturation events in REM sleep, and increased v

36 fic tracheal intubation-associated events or oxygen desaturation events occurred in 40.2% of patients

37 m notifications were for clinically relevant oxygen desaturation, facilitating timely nursing respons

38 on with adverse procedure-related events and oxygen desaturation, future study is warranted to improv

39 Oxygen desaturation greater than 5% from rest to peak ex

40 nfrared spectroscopy assessed intraoperative oxygen desaturation in brain and muscle.

41 idence of postreinfusion nausea, emesis, and oxygen desaturation in comparison to unselected PBSC rei

42 se tracheal intubation-associated events and oxygen desaturation in PICU patients.

43 Low-F(I)O(2) protocols caused significant oxygen desaturations in two participants.

44 hough the duration and magnitude of cerebral oxygen desaturation increased in the low-trigger group (

45 Nineteen had SDB (oxygen desaturation index > 5 events/h).

46 Elevated oxygen desaturation index (>/=15 events/hour) and high p

47 fference: -0.47, 95% CI -0.74 to -0.20), and oxygen desaturation index (mean difference: -0.99, 95% C

48 ered: 1) apnea-hypopnea index (AHI) 5 and 2) oxygen desaturation index (ODI) 5.

49 udies of obstructive sleep apnea, namely the oxygen desaturation index (ODI) and oxygen desaturation

50 y effectiveness end points comprised AHI and oxygen desaturation index (ODI) responder rates (RRs).

51 The apnea-hypopnea index (AHI) and oxygen desaturation index (ODI) were assessed during a s

52 Secondary outcomes included oxygen desaturation index (ODI), apnea-hypopnea index (A

53 indicating moderate-to-severe apnea) and the oxygen desaturation index (ODI; the number of times per

54 h Sa(O(2)) < 90% (r = 0.265, P = 0.003), and oxygen desaturation index (r = 0.214, P = 0.019).

55 opnoea-index (r = 0.30, p < 0.01) as well as oxygen desaturation index (r = 0.26, p < 0.01).

56 thickness was only associated with the mean oxygen desaturation index among the polysomnography para

57 Markers of OSA severity, including the oxygen desaturation index and percentage of total sleep

58 mass index, smoking, drinking habits, and 3% oxygen desaturation index in the middle and worse sleep

59 sleep apnoea (Epworth score > 9, and a > 4% oxygen desaturation index of > 10 per h) who were assign

60 lycated hemoglobin level of 6.5-8.5%, and an oxygen desaturation index of 15 or more events per hour

61 saturation < 90%, apnea-hypopnea index, and oxygen desaturation index-did not show any significant a

62 e concordance between overall and positional oxygen desaturation indices (ODI) and apnea-hypopnea ind

63 relationship between intradialytic cerebral oxygen desaturation, intradialytic BP, and CVR in differ

64 ETCO2, supporting the assumption that ictal oxygen desaturation is a consequence of hypoventilation.

65 on often involves more than one attempt, and oxygen desaturation is common.

66 00 mm Hg, systolic blood pressure <90 mm Hg, oxygen desaturation <80%, and extubation.

67 These complications included oxygen desaturation <90% (n = 1), vital sign alterations

68 These complications included: oxygen desaturations <90%, vital sign alterations requir

69 pneumothorax, pneumomediastinum) and severe oxygen desaturation (< 70%) were recorded prospectively.

70 ents, emesis with/without aspiration) and/or oxygen desaturation (< 80%).

71 ned as lung aspiration of digestive content, oxygen desaturation, major hemodynamic instability, sust

72 fied with the apnea hypopnea index (AHI) and oxygen desaturation measures.

73 The most common complication was oxygen desaturation (n = 8).

74 ical rating scale), interface displacements, oxygen desaturations, need for ventilator support, and r

75 p efficiency without changing apnoea length, oxygen desaturation, next-day perceived sleepiness and a

76 Conclusion: Oxygen desaturation occurred during sleep in 70% of hepa

77 Chills, fever, and arterial oxygen desaturation of >/= 3% occurred in 7% of the tran

78 Adverse respiratory event was defined as oxygen desaturation of at least 5%, pulmonary aspiration

79 number of obstructive events and less severe oxygen desaturations on the operative night.

80 itical vulnerability, resulting in saw-tooth oxygen desaturation possibly representing the earliest m

81 for all four wavelengths and throughout the oxygen desaturation range from 100% to 70%.

82 n adenosine that occur during jugular venous oxygen desaturations suggest that adenosine may play an

83 uat exposure with ventilatory equivalent and oxygen desaturation suggests that paraquat may be associ

84 f bronchial hemorrhage of > 30 mL; transient oxygen desaturation to < 90% in seven (8.4%) patients; h

85 with adverse respiratory events: 58 cases of oxygen desaturation, two pulmonary aspirations, 10 cases

86 We examined whether seizure-associated oxygen desaturation was a consequence of hypoventilation

87 Oxygen desaturation was a late phenomenon.

88 crog/mL), both Cheyne-Stokes respiration and oxygen desaturation were markedly attenuated.

89 Obesity and the magnitude of nocturnal oxygen desaturation, which is an important pathophysiolo

90 There were fewer episodes of oxygen desaturation with pentobarbital (0.2%) than with

91 perative complications, including hypoxemia (oxygen desaturation with Spo2 <=92% for >1 minute).

92 ere coded as clinically relevant (i.e., true oxygen desaturation with SpO2<89 for >15s) or irrelevant

93 tients with COPD who have nocturnal arterial oxygen desaturation without qualifying for long-term oxy