ライフサイエンスコーパス: pulse oximetry

1 potentially detectable through screening via pulse oximetry.

2 and clinical application of multiwavelength pulse oximetry.

3 rly labor to either "open" or "masked" fetal pulse oximetry.

4 oke, with transcranial doppler and overnight pulse oximetry.

5 Test if a novel panel consisting of pulse oximetry, 12-lead electrocardiography, and serum t

6 +/- 1.9; p<0.001), as was use of continuous pulse oximetry (78% vs. 58%, respectively; p=0.001).

7 tion and favourable cost-effectiveness makes pulse oximetry a promising candidate for improving the p

8 eep apnea using questionnaire plus nocturnal pulse oximetry against using polysomnography to identify

9 One-third of pulse oximetry alarm notifications were for clinically r

10 Cardiac monitoring, pulse oximetry and capnography are used, often without s

11 hospital admission, particularly the use of pulse oximetry and chest radiography.

12 ated by publications addressing knowledge of pulse oximetry and those warning against the use of tran

13 ts suspected of bacterial pneumonia, bedside pulse oximetry and urinary antigen testing for Streptoco

14 rate (electrocardiogram), oxygen saturation (pulse oximetry), and brachial artery blood flow and shea

15 ected, and standard vital signs (heart rate, pulse oximetry, and body temperature) were monitored at

16 O(2) is the oxygen saturation as measured by pulse oximetry, and DLCO is the diffusing capacity for c

17 ry artery pressure, central venous pressure, pulse oximetry, and end-tidal CO(2) were continuously mo

18 rate, lower Glasgow Coma Scale score, lower pulse oximetry, and nursing home residence during out-of

19 x, mean arterial blood pressure, heart rate, pulse oximetry, and transcutaneous oxygen and carbon dio

20 Simultaneous blood gas, pulse oximetry, and ventilator settings were collected.

21 Nadir oxygen saturation as measured by pulse oximetry, apnea-hypopnea index, and the fraction o

22 gression to assess the impact of introducing pulse oximetry as a prognostic tool to distinguish sever

23 We assessed the performance of pulse oximetry as a screening method for the detection o

24 The concept of using pulse oximetry as a screening method to detect undiagnos

25 We prospectively assessed the accuracy of pulse oximetry as a screening test for congenital heart

26 ist, including the introduction of universal pulse oximetry at a hospital in Chisinau, Moldova, where

27 rgical safety checklist and the provision of pulse oximetry at a referral hospital in Moldova, a lowe

28 h leading to the development of new types of pulse oximetry-based monitoring techniques.

29 ies (gestation >34 weeks) were screened with pulse oximetry before discharge.

30 rch in recent years to expand the utility of pulse oximetry beyond the simple measurement of arterial

31 Pulse oximetry can be used reliably to estimate the arte

32 Pulse oximetry can significantly increase the incidence

33 ng capacity of the lung for carbon monoxide, pulse oximetry, chest radiograph, and high-resolution th

34 ed examination of the pulmonary circulation, pulse oximetry, complete blood count, and serum chemistr

35 Pulse oximetry correlates well with cooximeter-measured

36 Pulse oximetry data from 54 countries suggested that aro

37 with hepatopulmonary syndrome underwent home pulse-oximetry during sleep.

38 P, arterial hemoglobin oxygen saturation (by pulse oximetry), end-tidal PCO2, and carotid artery bloo

39 ed their readiness and reported that all had pulse oximetry equipment onsite and 74.4% had access to

40 algorithm using questionnaire and nocturnal pulse oximetry excluded few patients from sleep studies,

41 The overall sensitivity of pulse oximetry for detection of critical congenital hear

42 tcome was the sensitivity and specificity of pulse oximetry for detection of critical congenital hear

43 lected studies that assessed the accuracy of pulse oximetry for the detection of critical congenital

44 r) + (nadir oxygen saturation as measured by pulse oximetry >82.5%) + (Fhypopneas >58.3%).

45 Routine use of pulse oximetry has been associated with changes in bronc

46 Reliance on pulse oximetry has been associated with increased hospit

47 hat, assuming access to supplemental oxygen, pulse oximetry has the potential to avert up to 148,000

48 Experimental sensors based on reflectance pulse oximetry have been developed for use in internal s

49 Recent advances in pulse oximetry have made it possible to noninvasively me

50 rements for universal CCHD screening through pulse oximetry in birth hospitals.

51 e measured by a clinical severity score, and pulse oximetry in room air was done.

52 To assess the accuracy of pulse oximetry in the diagnosis of hypoxemia in SCD, we

53 s with diabetic ketoacidosis and, along with pulse oximetry, in lung-function laboratories to estimat

54 Pulse oximetry is a safe, feasible test that adds value

55 Pulse oximetry is a ubiquitous non-invasive medical sens

56 Routine screening for CCHD using pulse oximetry is being increasingly supported and was a

57 INTERPRETATION: Pulse oximetry is highly specific for detection of criti

58 Given pulse oximetry is increasingly substituting for arterial

59 Pulse oximetry is ubiquitous but detailed understanding

60 Along with pulse oximetry, it has reduced anesthesia-related morbid

61 Vital signs, pulse oximetry, laser Doppler flowmetry, and toe tempera

62 intermittent pulse oximetry monitoring (ie, pulse oximetry measurements were obtained along with a s

63 Pulse oximetry measurements with true saturation values

64 signed to undergo continuous or intermittent pulse oximetry monitoring (ie, pulse oximetry measuremen

65 Our results suggest that intermittent pulse oximetry monitoring can be routinely considered in

66 Continuous pulse oximetry monitoring is recommended to improve safe

67 Intermittent pulse oximetry monitoring of nonhypoxemic patients with

68 mean length of stay did not differ based on pulse oximetry monitoring strategy (48.9 hours [95% CI,

69 0% reported routine use of blood pressure or pulse oximetry monitoring, and 75% reported daily rounds

70 Side effects were monitored by pulse oximetry, nasal end-tidal capnography, and serial

71 ve regression model was used to estimate the pulse oximetry need for countries that did not provide d

72 outpatient clinics lack capacity to conduct pulse oximetry, nutritional assessment, or HIV testing,

73 d mild systemic hypoxia (85 % O2 saturation; pulse oximetry of the earlobe).

74 There were no differences in laser Doppler, pulse oximetry, or toe temperature measurements during o

75 hma Score, respiratory rate, heart rate, and pulse oximetry oxygen saturation values were recorded at

76 .001), metered dose inhalers (p = .01), and pulse oximetry (p = .02).

77 Analyses were done on all babies for whom a pulse oximetry reading was obtained.

78 iolitis, those with an artificially elevated pulse oximetry reading were less likely to be hospitaliz

79 only obtaining intermittent or "spot check" pulse oximetry readings for those who show clinical impr

80 Data collected included all preoperative pulse oximetry recordings, all values from preoperative

81 cially weak areas in ICU monitoring, such as pulse oximetry reliability.

82 o; and (3) usually, an associated decline in pulse oximetry saturation.

83 nates: access to postdischarge newborn care, pulse oximetry screening for congenital heart disease, a

84 Pulse oximetry screening for cyanotic congenital heart d

85 rity of clinicians felt the case for routine pulse oximetry screening had not been proven.

86 Pulse oximetry screening is a highly specific, moderatel

87 Pulse oximetry screening should be routine and performed

88 udies reporting the test accuracy of routine pulse oximetry screening, and involving over 150 ,000 ba

89 reviews the development of novel reflectance pulse oximetry sensors for the esophagus and bowel, and

90 The use of novel reflectance pulse oximetry sensors has been successfully demonstrate

91 Pulse oximetry showed oxygen desaturations below 90% in

92 Pulse oximetry significantly underestimates true arteria

93 Pulse oximetry slightly overestimated oxyhemoglobin perc

94 ygen saturation of hemoglobin as measured by pulse oximetry (Spo(2)) were monitored continuously thro

95 %; exercise oxygen saturation as measured by pulse oximetry [Spo(2)] = 86.5 +/- 2.9%) participated.

96 symptom score, multi-slice CT, perfusion CT, pulse oximetry (SpO2%), and hemoglobin concentration (Hb

97 In this study, blood oxygen saturation using pulse oximetry (SpO2) and pulse rate were measured daily

98 quest, when oxygen saturation as measured by pulse oximetry (SpO2) dropped to less than 84%, or after

99 with target oxygen saturation as measured by pulse oximetry (SpO2) of 88-92% (n = 52) or a liberal ox

100 n saturation (arterial [SaO2] or measured by pulse oximetry [SpO2]) </= 90%.

101 ion (oxyhemoglobin saturation as measured by pulse oximetry [Spo2], 89 to 93%).

102 rt monitoring, advances in intrapartum fetal pulse oximetry, thresholds of acidosis associated with f

103 r estimating cardiac output; b) the standard pulse oximetry to screen for pulmonary problems; c) tran

104 xic gas to titrate arterial O(2) saturation (pulse oximetry) to 80%, while remaining normocapnic via

105 The cardiac index, pulse oximetry, transcutaneous oxygen tension, transcuta

106 rstood and routinely assessed in patients by pulse oximetry, variability at the single-cell level has

107 With the exception of pulse oximetry vital sign days, the readings in most vit

108 Sensitivity of pulse oximetry was 75.00% (95% CI 53.29-90.23) for criti

109 itical congenital heart disease (CCHD) using pulse oximetry was added to the recommended uniform scre

110 rt defects was particularly low when newborn pulse oximetry was done after 24 h from birth than when

111 thetic inhibition.Oxyhaemoglobin saturation (pulse oximetry) was decreased (P<0.001) with hypoxia (63

112 To estimate availability of pulse oximetry, we sent surveys to anaesthesia providers

113 ), Lake Louise AMS score, and Sao2 level (by pulse oximetry) were measured.

114 theatres and quantified the availability of pulse oximetry, which is an essential monitoring device

115 Oxygen saturation was monitored by pulse oximetry, which recorded the number of times satur

116 Oxygen saturation (SaO2) was measured by pulse oximetry while children were awake and asleep.

117 ng phase contrast angiography and pre-ductal pulse oximetry, while regional cerebral oxygen saturatio

118 We also found that the combination of pulse oximetry with integrated management of childhood i