ライフサイエンスコーパス: treadmill test

1 d baseline examinations, including a maximal treadmill test.

2 e diagnostic characteristics of the exercise treadmill test.

3 consumption (VO2peak) by a maximal exercise treadmill test.

4 y artery disease (CAD) and positive exercise treadmill test.

5 idor walk test and the 9-minute self-powered treadmill test.

6 e, no change) observed on the final exercise treadmill test.

7 METs achieved during a standardized exercise treadmill test.

8 ls in the exercise group completed a maximal treadmill test.

9 peak METS achieved on the baseline exercise treadmill test.

10 Actual CRF was measured by a maximal treadmill test.

11 ttery of 3 mental stress tests followed by a treadmill test.

12 alking times were recorded during a standard treadmill test.

13 CRF was assessed by using a graded exercise treadmill test.

14 Fitness was determined by using a maximal treadmill test.

15 valents (METs), was estimated from a maximal treadmill test.

16 At PN70 VO2,max was measured by treadmill test.

17 arthritis completed the HAP and a submaximal treadmill test.

18 VO(2max) was estimated from the submaximal treadmill test.

19 ice had significantly reduced endurance in a treadmill test.

20 espiratory fitness was assessed by a maximal treadmill test.

21 ness was quantified as duration of a maximal treadmill test.

22 rement and should be recorded as part of all treadmill tests.

23 performed incremental and run-to-exhaustion treadmill tests.

24 consumption (VO(2)) were recorded during the treadmill tests.

25 te mortality in patients undergoing exercise treadmill testing.

26 racial cohort that underwent graded exercise treadmill testing.

27 ormation provided by clinical assessment and treadmill testing.

28 n, blood tests, and underwent Bruce protocol treadmill testing.

29 echocardiography, pressure-volume loops, and treadmill testing.

30 RBITA-app, questionnaires, DSE, and exercise treadmill testing.

31 testing, and were angina-limited on exercise treadmill testing.

32 rs in patients referred for routine clinical treadmill testing.

33 al injection to scavenge O2- before a second treadmill testing.

34 ere 18 years or older and underwent exercise treadmill testing.

35 All completed 2 symptom-limited exercise treadmill tests, 1 or more years apart (mean 5.8 +/- 3.7

36 p for up to 6 years and underwent additional treadmill testing 2 to 3 years after randomization.

37 Decreased use was also observed for exercise treadmill testing (2.3% to 1.7%), stress echocardiograph

38 visit, and 2,735 participants with a second treadmill test 20 years later.

39 Of 4,860 eligible for a submaximal treadmill test, 3,250 completed the test and were includ

40 stable coronary disease, a positive exercise treadmill test, 48-hour ambulatory ECG with > or =1 epis

41 maximal and functional walking distance on a treadmill test, 6-minute walk test) and vascular quality

42 od of coronary artery disease after exercise treadmill testing, a cost-effectiveness ratio of $25 134

43 yses for each of 77 subjects who had > or =1 treadmill test after initiation of therapy.

44 ed maximal exercise duration (Max(dur)) of a treadmill test allows for insight into the association o

45 h cardiorespiratory fitness (CRF) based on a treadmill test and body mass index (BMI) (weight (kg)/he

46 All women underwent a symptom-limited treadmill test and MPI.

47 ment) we assessed exercise capacity with the treadmill test and the 12 min walk.

48 CVF was measured with a multistage treadmill test and was expressed as the oxygen consumpti

49 n 976 women and 2,249 men who underwent both treadmill testing and cardiac catheterization in a singl

50 xcept a suggestion of myocardial ischemia on treadmill testing and mild atherosclerosis noted on caro

51 d using a questionnaire, Doppler evaluation, treadmill testing and repeat cardiac catheterization.

52 The results of exercise treadmill testing and stress echocardiography were compa

53 a, underwent ambulatory monitoring, exercise treadmill testing and stress thallium-201 scintigraphy.

54 mg/dL) for 4 days before undergoing a second treadmill testing and urinary nitrate measurement.

55 dults who underwent symptom-limited exercise treadmill testing and who underwent coronary angiography

56 terans Affairs Medical Centers who underwent treadmill tests and coronary angiography between 1987 an

57 There were 2,193 male patients who had treadmill tests and coronary angiography.

58 Treadmill tests and other assessments were completed at

59 Fitness was assessed using a treadmill test, and fatness was assessed as body mass in

60 uding ambulatory ECG monitoring and exercise treadmill testing, and endothelial assessment using brac

61 ardiac magnetic resonance imaging), exercise treadmill testing, and histological and biochemical anal

62 Exercise treadmill tests, angina class, and quality of life asses

63 the change in peak walking time on a graded treadmill test at 6 months compared with baseline.

64 ard improvement in angina class and exercise treadmill testing at 6-month follow-up in the sole thera

65 coronary flow by Doppler and normal exercise treadmill testing at a median follow-up interval of 1.5

66 rs in 263 HL survivors referred for exercise treadmill testing at a median interval of 19 years after

67 le; 64% white) without AF underwent exercise treadmill testing at a tertiary care center.

68 sured in 1959 patients referred for clinical treadmill testing at the Palo Alto (Calif) Veterans Affa

69 ompleted at least 1 symptom-limited exercise treadmill test between 1977 and 2001 were included.

70 cular fitness was measured with a multistage treadmill test, %BF with dual-energy X-ray absorptiometr

71 ine measures of CRF estimated from a maximal treadmill test, body mass index, and longitudinal change

72 iduals in the nandrolone group who performed treadmill tests, but not to a statistically significant

73 unction on forced tasks, such as rotarod and treadmill tests, caused by substantia nigra lesioning in

74 clear added value over clinical and exercise treadmill testing data in patients with normal resting E

75 by cardiorespiratory fitness, quantified as treadmill test duration.

76 At week 4, treadmill testing, echocardiography, and right heart cat

77 t-perceived angina, symptom-limited exercise treadmill test (ETT) and 48-h ambulatory electrocardiogr

78 gnostic performance of the standard exercise treadmill test (ETT) in comparison to stress imaging pro

79 asis of clinical characteristics or exercise treadmill test (ETT) performance in patients with stable

80 n imaging (MPI) to the standard ECG exercise treadmill test (ETT) provides incremental information to

81 ided evidence that it could improve exercise treadmill test (ETT) time and myocardial perfusion.

82 At day 60, the change in exercise treadmill test (ETT) time from baseline was not differen

83 y is to determine the usefulness of exercise treadmill testing (ETT) among asymptomatic persons in pr

84 omatic ST-segment depression during exercise treadmill testing (ETT) and ambulatory ECG (AECG) monito

85 ns were performed at each visit and exercise treadmill testing (ETT) at baseline and at 4 and 12 week

86 y were to (1) examine how data from exercise treadmill testing (ETT) can identify patients who have c

87 arge coronary angiography (CA) with exercise treadmill testing (ETT) in low-risk patients in the ches

88 ercise-induced abnormalities during exercise treadmill testing (ETT) were initially compared in 60 su

89 =2 mm) ST segment depression during exercise treadmill testing (ETT).

90 results of downstream testing after exercise treadmill tests (ETTs).

91 test (Ex 8), 45 patients within 48 h after a treadmill test (Ex 48), and 34 patients without prior ex

92 48 patients underwent PET within 8 h after a treadmill test (Ex 8), 45 patients within 48 h after a t

93 rdial infarction underwent standard exercise treadmill tests followed by coronary angiography, with c

94 Treadmill testing has been reported to have a lower accu

95 n the diagnostic characteristics of exercise treadmill test have been conducted on relatively small p

96 l echocardiography with Doppler and exercise treadmill testing have been analyzed.

97 the safety and utility of immediate exercise treadmill testing (IETT) of low risk patients presenting

98 ccuracy and high sensitivity of the exercise treadmill test in a large cohort of patients with restin

99 d, and glucose were measured during exercise treadmill test in C57/BL6 mice fed either a high-Pi (2%)

100 ngiography is projected to overtake exercise treadmill testing in 2024 and stress echocardiography in

101 measures of repolarization during submaximal treadmill testing in men and women.

102 tial assessment underwent immediate exercise treadmill testing in our chest pain evaluation unit.

103 noted in 31% of the patients during exercise treadmill testing, in 16% during exercise radionuclide a

104 Functional studies included graded exercise treadmill testing, in vivo assessments of left ventricul

105 Sensitivity of the exercise treadmill test increased in 206 patients with resting ST

106 th computerized analysis, sensitivity of the treadmill test increased in 349 patients with resting ST

107 associated with ischemic changes on exercise treadmill tests independent of traditional cardiac risk

108 and adds incremental value over clinical and treadmill test information.

109 The exercise treadmill test is recommended for risk stratification am

110 Symptom-limited treadmill testing is commonly performed on entry to card

111 f echocardiography, electrocardiography, and treadmill testing is expected, and nearly all patients h

112 iables included time to ischemia on exercise treadmill testing, ischemia on 48-h ambulatory electroca

113 = 0.0008), less functional impairment during treadmill testing manifested by longer exercise duration

114 studies, exercise SPECT rather than standard treadmill testing may emerge as the initial noninvasive

115 Risk assessment tools for exercise treadmill testing may have limited external validity.

116 An asymptomatic cohort with baseline treadmill tests (n=6126; 46% women, FRS <20%) was follow

117 th syndrome X (chest pain, abnormal exercise treadmill test, normal coronary angiogram without other

118 ionnaire, SF-36, and modified Bruce exercise treadmill test obtained at baseline and 6 months after t

119 rs, medications, and indication for exercise treadmill testing: odds ratio: 3.96 (95% confidence inte

120 Immediate exercise treadmill testing of low risk patients with chest pain a

121 urgery were required to take symptom-limited treadmill tests one, three and five years after revascul

122 ession analysis showed inducible ischemia on treadmill testing (OR, 7.5 [95% CI, 1.7-33.0]; P=0.008)

123 T segment depression on the initial exercise treadmill test (p = 0.021).

124 assays (P < 0.05) and exercise tolerance in treadmill tests (P < 0.05), whereas miR-126 up-regulatio

125 with one of five noninvasive tests--exercise treadmill testing, planar thallium imaging, single-photo

126 re (BP) and heart rate responses to exercise treadmill testing predict incidence of cardiovascular di

127 normal coronary arteries underwent exercise treadmill testing, radionuclide angiography at rest and

128 the value of a new prognostic feature of the treadmill test-rate of recovery of HR after exercise.

129 onstrating an arrhythmia burden on Holter or treadmill testing received beta-blocker therapy (17%).

130 rphisms tested for association with exercise treadmill testing responses, the minimum nominal probabi

131 adjusted for clinical correlates of exercise treadmill testing responses, we estimated the heritabili

132 athways for their potential role in exercise treadmill testing responses.

133 By combining several aspects of treadmill testing, the DTS effectively stratifies women

134 Treadmill testing, the Seattle Angina Questionnaire, and

135 16 m; Week 12, 439 +/- 16 m), Naughton-Balke treadmill test time (n = 26; baseline, 582 +/- 50 s; Wee

136 Subjects also completed a submaximal treadmill test, Timed-Stands Test, and 50-Foot Walk Test

137 AP scores and the questionnaires, submaximal treadmill test, Timed-Stands Test, and 50-Foot Walk Test

138 vascular risk factors or a positive exercise treadmill test to a cardiovascular MRI-based strategy or

139 ometry and radiographic imagery, VO2max by a treadmill test to exhaustion, and RMR by indirect calori

140 he exercise and recovery periods of a graded treadmill test to the risk of developing new-onset hyper

141 sting lung function underwent an incremental treadmill test to VO2,max during the follicular phase of

142 CVD who underwent submaximal graded exercise treadmill testing to achieve at least 75% to 90% of thei

143 an additional set of E mice (n=8), underwent treadmill testing to determine maximal oxygen uptake (VO

144 apoE-deficient (E-; n=9) C57BL/6J mice were treadmill-tested to measure indices defining exercise ca

145 %, and wild-type control mice (SOD2+/+) were treadmill-tested to measure indices defining exercise ca

146 maximum oxygen consumption estimated by the treadmill test validates it as a measure of physical act

147 sion imaging volumes have surpassed exercise treadmill test volumes and, assuming the current rate of

148 Treadmill test was completed for 128/212 (60%) patients.

149 higher metabolic equivalent achieved during treadmill testing was associated with a 7% lower risk of

150 Fitness level assessed by treadmill testing was inversely associated with plasma f

151 of > or = 30 and < or = 300 m on a standard treadmill test were randomized to placebo or one of thre

152 reduction in FEV(1) (%) after a standardized treadmill test were used for BHR assessment.

153 with stable angina pectoris and ischemia on treadmill testing were randomly assigned to PTCA or medi

154 onhypertensive]) performing submaximal Bruce treadmill tests were followed for 20 years (385 CVD deat

155 Exercise treadmill tests were performed at baseline and at the en

156 Graded treadmill tests were performed at baseline and then 3, 6

157 stered PTSD Scale, and standardized exercise treadmill tests were performed to detect myocardial isch

158 ht loss and improved fitness (as assessed on treadmill testing) were significant mediators of this ef

159 nderwent physiological examination, stepwise treadmill test with blood lactate analysis, and contrast

160 erwent magnetic resonance angiography (MRA), treadmill testing with maximal oxygen consumption measur

161 sting at both testing times: symptom-limited treadmill testing with measurement of peak oxygen uptake

162 le; median age, 60 y) who underwent exercise treadmill testing with RNA-EF and SPECT perfusion imagin

163 plasma BNP levels before performing exercise treadmill testing with stress echocardiography in outpat

164 ntermittent claudication during 2 qualifying treadmill tests, with peak walking time (PWT) between 1