ライフサイエンスコーパス: cardiorespiratory fitness

1 ody mass index, systolic blood pressure, and cardiorespiratory fitness).

2 ill graded exercise test was used to measure cardiorespiratory fitness.

3 ate in regular physical activity and improve cardiorespiratory fitness.

4 lerance, but there was less of an effect for cardiorespiratory fitness.

5 term weight loss, exercise participation, or cardiorespiratory fitness.

6 ow-up duration between the groups defined by cardiorespiratory fitness.

7 of obesity while simultaneously considering cardiorespiratory fitness.

8 moderate-to-vigorous physical activity, and cardiorespiratory fitness.

9 en childhood cognitive functioning and adult cardiorespiratory fitness.

10 itively associated (beta = .45, p<.001) with cardiorespiratory fitness.

11 ociated with 10-14 year-old schoolchildren's cardiorespiratory fitness.

12 relationship between sedentary behaviour and cardiorespiratory fitness.

13 1) when compared with patients with adequate cardiorespiratory fitness.

14 behaviour as a means to maintain or improve cardiorespiratory fitness.

15 ence interval = -0.039, -0.011), but not via cardiorespiratory fitness.

16 erage running distance (kilometers per day), cardiorespiratory fitness (10-km footrace performance),

17 cal care unit as younger people with similar cardiorespiratory fitness (13 vs 12; P = 0.08 and 1 vs 1

18 Participants achieved near age-predicted cardiorespiratory fitness (94.7+/-32.5% of age-predicted

19 Cardiorespiratory fitness also declines with age, and th

20 Effects on cardiorespiratory fitness and abdominal obesity are both

21 udy aimed to define the relationship between cardiorespiratory fitness and age in the context of post

22 independent and linked associations between cardiorespiratory fitness and age on postsurgical mortal

23 nsity exercise training was found to improve cardiorespiratory fitness and attenuate cutaneous vasodi

24 Cardiorespiratory fitness and body fatness are both rela

25 The combined associations of changes in cardiorespiratory fitness and body mass index (BMI) with

26 ficant epidemiologic observations connecting cardiorespiratory fitness and cancer.

27 scribed cross-sectional associations between cardiorespiratory fitness and CHD risk factors in a larg

28 The association between cardiorespiratory fitness and covariate adjusted decline

29 We investigated the impact of cardiorespiratory fitness and exercise training on physi

30 elationships between hard physical activity, cardiorespiratory fitness and health parameters.

31 re is a graded, inverse relationship between cardiorespiratory fitness and incident AF, especially am

32 The authors examined the association between cardiorespiratory fitness and incident hypertension in w

33 ey were used to describe the distribution of cardiorespiratory fitness and its association with obesi

34 ave demonstrated strong associations between cardiorespiratory fitness and lower cardiovascular disea

35 udy, we investigated the association between cardiorespiratory fitness and measures of gray matter at

36 2-hour glucose level (primary outcomes) and cardiorespiratory fitness and measures of insulin action

37 udies have reported the relationship between cardiorespiratory fitness and metabolic syndrome inciden

38 tive tests, there was no association between cardiorespiratory fitness and midlife cognitive function

39 inverse, dose-dependent association between cardiorespiratory fitness and mortality is well-establis

40 High maternal BMI and low levels of cardiorespiratory fitness and physical activity independ

41 ge, during and after treatment) and improves cardiorespiratory fitness and physical function.

42 Low cardiorespiratory fitness and physical inactivity are in

43 nd no weight loss demonstrate that increased cardiorespiratory fitness and reduced intra-abdominal ad

44 We found a positive association between cardiorespiratory fitness and regional gray matter volum

45 The primary outcomes were cardiorespiratory fitness and skeletal muscle (vastus la

46 ned the effects of simvastatin on changes in cardiorespiratory fitness and skeletal muscle mitochondr

47 Simvastatin attenuates increases in cardiorespiratory fitness and skeletal muscle mitochondr

48 This study sought to evaluate the role of cardiorespiratory fitness and the incremental benefit of

49 High levels of cardiorespiratory fitness and/or habitual physical activ

50 cise program in improving physical activity, cardiorespiratory fitness, and blood pressure.

51 wer incident AMD risk independent of weight, cardiorespiratory fitness, and cigarette use.

52 n among physical activity type and duration, cardiorespiratory fitness, and injury.

53 mong type and duration of physical activity, cardiorespiratory fitness, and musculoskeletal injury in

54 ther, and to what extent, physical activity, cardiorespiratory fitness, and obesity at age 16 mediate

55 factors influence physical activity levels, cardiorespiratory fitness, and risk of death.

56 djustment or not for key confounders such as cardiorespiratory fitness, and to the lack of consensus

57 hanges in myocardial structure and function, cardiorespiratory fitness, and traditional cardiac risk

58 Moreover, cardiorespiratory fitness appears to be one of the stron

59 Low levels of cardiorespiratory fitness are associated with high risk

60 Physical activity and cardiorespiratory fitness are not currently recognized a

61 muscle (low percentage of lean mass and low cardiorespiratory fitness) are likely to contribute thes

62 istory of ischemic heart disease, unfit (low cardiorespiratory fitness as determined by maximal exerc

63 no evidence for a neuroprotective effect of cardiorespiratory fitness as of midlife.

64 The primary outcome measures were weight and cardiorespiratory fitness (as measured with the 6-minute

65 oper Center Longitudinal Study who underwent cardiorespiratory fitness assessment at a mean age of 49

66 Improvement in cardiorespiratory fitness augments the beneficial effect

67 rences were observed in daily step counts or cardiorespiratory fitness between the groups.

68 study was to examine the association between cardiorespiratory fitness, body mass index (BMI), and wa

69 ardial infarction, type 2 diabetes mellitus, cardiorespiratory fitness, body mass index, systolic blo

70 Exercise training improved cardiorespiratory fitness by 5.0 ml kg(-1) min(-1) (95%

71 re made for height, weight, body mass index, cardiorespiratory fitness, cognitive ability, and socioe

72 The present review focuses on cardiorespiratory fitness (commonly measured by maximal

73 trategies was greatest in patients with high cardiorespiratory fitness compared to adequate or low ca

74 vity (>/=9 METs) holds greater potential for cardiorespiratory fitness compared to physical activity

75 s additional improvements in S(I), S(G), and cardiorespiratory fitness compared with a sedentary life

76 is study sought to determine the capacity of cardiorespiratory fitness (CRF) algorithms without exerc

77 A positive association between cardiorespiratory fitness (CRF) and white matter integri

78 ce has firmly established that low levels of cardiorespiratory fitness (CRF) are associated with a hi

79 Cardiorespiratory fitness (CRF) as assessed by formalize

80 features around the home and workplace with cardiorespiratory fitness (CRF) based on a treadmill tes

81 <.05) associated with BF%, diastolic BP, and cardiorespiratory fitness (CRF) for the Chu et al PT onl

82 has been shown to be effective in improving cardiorespiratory fitness (CRF) in patients with systoli

83 Poor cardiorespiratory fitness (CRF) is an independent risk f

84 It is well established that cardiorespiratory fitness (CRF) is inversely associated

85 Cardiorespiratory fitness (CRF) is not routinely measure

86 Low cardiorespiratory fitness (CRF) may contribute to CV ris

87 Evidence on the effect of cardiorespiratory fitness (CRF) on age-related longitudi

88 An increase in cardiorespiratory fitness (CRF) through exercise trainin

89 Prospective data relating cardiorespiratory fitness (CRF) with nonfatal cardiovasc

90 ave examined the association between LTL and cardiorespiratory fitness (CRF), an enduring trait influ

91 the individual and joint associations among cardiorespiratory fitness (CRF), body mass index, and he

92 ted the association between overall diet and cardiorespiratory fitness (CRF).

93 45.9 +/- 12.7 years) completed assessment of cardiorespiratory fitness (CRF, VO(2peak)), muscle stren

94 d self-reported physical activity, predicted cardiorespiratory fitness (cycle ergometer test), obesit

95 Cardiorespiratory fitness (determined by a maximal exerc

96 Higher cardiorespiratory fitness during childhood is associated

97 Cardiorespiratory fitness (fitness) is associated with c

98 Cardiorespiratory fitness ("fitness") is related with lo

99 To determine the association among cardiorespiratory fitness ("fitness"), adiposity, and mo

100 hard physical activity were associated with cardiorespiratory fitness for boys (F = 5.64, p<.01) whe

101 sed national levels of physical activity and cardiorespiratory fitness for primary and secondary CHD

102 All groups showed an increase in cardiorespiratory fitness from baseline to 18 months, wi

103 arable improvements in physical activity and cardiorespiratory fitness from baseline to 24 months.

104 demonstrated benefits in muscular strength, cardiorespiratory fitness, functional task performance,

105 ty decreased significantly in the group with cardiorespiratory fitness gain >/=2 METs as compared to

106 ts effect on AF recurrence or the benefit of cardiorespiratory fitness gain is unknown.

107 Impact of cardiorespiratory fitness gain was ascertained by the ob

108 Participants with better cardiorespiratory fitness had higher cognitive test scor

109 rbidity and mortality, but the prevalence of cardiorespiratory fitness has not been quantified in rep

110 ellitus, abnormal resting ECG responses, and cardiorespiratory fitness, hazard ratios (95% confidence

111 s well known, there is a lack of data on how cardiorespiratory fitness (hereafter referred to as fitn

112 Cardiorespiratory fitness, homeostasis model assessment

113 atory fitness and the incremental benefit of cardiorespiratory fitness improvement on rhythm control

114 Further adjustment for cardiorespiratory fitness in a subset of 572610 men with

115 chronic diseases and is associated with low cardiorespiratory fitness in adults.

116 ive breastfeeding has a beneficial effect on cardiorespiratory fitness in children and adolescents.

117 ysical activity subcomponents are related to cardiorespiratory fitness in children.

118 ercise testing as an objective assessment of cardiorespiratory fitness in clinical oncology research

119 se relationship between cancer incidence and cardiorespiratory fitness in large population studies.

120 Higher cardiorespiratory fitness in middle age is strongly asso

121 tion of health care costs in later life with cardiorespiratory fitness in midlife after adjustment fo

122 e, fat-free mass (FFM), and fat mass (FM) on cardiorespiratory fitness in pediatric renal transplant

123 -reported leisure-time physical activity and cardiorespiratory fitness in the elderly.

124 ctivity, exercise training (ET), and overall cardiorespiratory fitness in the prevention and treatmen

125 d consider the potential benefits of greater cardiorespiratory fitness in the primary prevention of m

126 /m(2)), physical activity (in km/d run), and cardiorespiratory fitness (in m/s during 10-km footrace)

127 Cardiorespiratory fitness increased by 10% (p < 0.05) in

128 Low cardiorespiratory fitness is a strong and independent pr

129 Low cardiorespiratory fitness is an established risk factor

130 Cardiorespiratory fitness is an independent predictor of

131 It is not known whether physical activity or cardiorespiratory fitness is associated with the onset o

132 Cardiorespiratory fitness is favorably associated with m

133 On the other hand, high cardiorespiratory fitness is known to be a strong predic

134 ramming effect of exclusive breastfeeding on cardiorespiratory fitness is of public health interest.

135 Although cardiorespiratory fitness is protective against incident

136 One consequence of inactivity, low cardiorespiratory fitness, is an established risk factor

137 Mean (SD) cardiorespiratory fitness levels also increased signific

138 Cardiorespiratory fitness levels were assessed between 1

139 r duration of physical activity per week and cardiorespiratory fitness levels.

140 Cardiorespiratory fitness (maximum oxygen uptake (VO2max

141 Results suggest that cardiorespiratory fitness may be a surrogate for unmeasu

142 These data indicate that enhanced levels of cardiorespiratory fitness may confer resistance to eleva

143 Cardiorespiratory fitness measured by a maximal exercise

144 improvements in SI and that only EX improved cardiorespiratory fitness, mitochondrial respiration and

145 tive functioning predisposed to better adult cardiorespiratory fitness (neuroselection).

146 well as the effect of physical activity and cardiorespiratory fitness on cardiovascular diseases.

147 , there are few data regarding the effect of cardiorespiratory fitness on health care costs independe

148 activity/exercise training, and increases in cardiorespiratory fitness on the prognosis of obese pati

149 Move and OnTrack resulted in less decline in cardiorespiratory fitness (P < .001), better physical fu

150 >/=2 compared to those with METs gain <2 in cardiorespiratory fitness (p < 0.001 for both).

151 piratory fitness compared to adequate or low cardiorespiratory fitness (p < 0.001 for both).

152 g program (25+/-9 miles/wk) led to increased cardiorespiratory fitness (peak oxygen consumption, 44.6

153 Cardiorespiratory fitness (peak oxygen uptake) was measu

154 Exercise training has been shown to improve cardiorespiratory fitness, physical capacity, and qualit

155 Cardiorespiratory fitness predicts arrhythmia recurrence

156 ercise ECG responses, with stratification by cardiorespiratory fitness, quantified as treadmill test

157 those without CHD into age- and sex-specific cardiorespiratory fitness quintiles.

158 ciation was found between sedentary time and cardiorespiratory fitness (r = -.13, p>.05).

159 It is also possible that low cardiorespiratory fitness, rather than overweight or obe

160 tivities of daily living, communication, and cardiorespiratory fitness results in disability, handica

161 included physical activity (steps per day), cardiorespiratory fitness, self-efficacy, healthy living

162 ity, objectively measured physical activity, cardiorespiratory fitness, self-reported sports particip

163 Patients older than 75 years with low cardiorespiratory fitness spent a median of 11 days long

164 Older people with normal cardiorespiratory fitness spent the same number of days

165 Cardiorespiratory fitness (standardized odds ratio: 0.33

166 nsitions revealed little variability between cardiorespiratory fitness tertiles.

167 axial accelerometers and undertook a maximal cardiorespiratory fitness test.

168 BMI, greater physical activity, and greater cardiorespiratory fitness, the latter being statisticall

169 Secondary outcomes measured were cardiorespiratory fitness (VO2 peak) and body compositio

170 Exercise improved cardiorespiratory fitness (VO2 peak) compared with the C

171 body fat distribution (computed tomography), cardiorespiratory fitness (VO2max on a treadmill), physi

172 In this analysis, low cardiorespiratory fitness was a strong and independent p

173 Cardiorespiratory fitness was assessed by a maximal trea

174 Adult cardiorespiratory fitness was assessed using a submaxima

175 Low cardiorespiratory fitness was associated with increased

176 To determine a dose response, cardiorespiratory fitness was categorized as: low (<85%)

177 Cardiorespiratory fitness was estimated by maximal metab

178 To determine whether cardiorespiratory fitness was longitudinally associated

179 1.50 MJ/day, P = 0.01), but no difference in cardiorespiratory fitness was noted between groups.

180 Baseline cardiorespiratory fitness was quantified as duration of

181 Significant weight loss and improved cardiorespiratory fitness were achieved through the comb

182 In addition, men with greater cardiorespiratory fitness were at significantly less ris

183 mass index (weight (kg)/height (m)(2)), and cardiorespiratory fitness were measured at the time of t

184 sociations of habitual physical activity and cardiorespiratory fitness with IHTG and the prevalence o

185 The implications of cardiorespiratory fitness with prognosis are discussed,