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1 ody mass index, systolic blood pressure, and cardiorespiratory fitness).
2 1) when compared with patients with adequate cardiorespiratory fitness.
3 behaviour as a means to maintain or improve cardiorespiratory fitness.
4 ence interval = -0.039, -0.011), but not via cardiorespiratory fitness.
5 weight gain, cigarette smoking, and loss of cardiorespiratory fitness.
6 ill graded exercise test was used to measure cardiorespiratory fitness.
7 ate in regular physical activity and improve cardiorespiratory fitness.
8 lerance, but there was less of an effect for cardiorespiratory fitness.
9 term weight loss, exercise participation, or cardiorespiratory fitness.
10 of obesity while simultaneously considering cardiorespiratory fitness.
11 moderate-to-vigorous physical activity, and cardiorespiratory fitness.
12 and ameliorated losses in neuromuscular and cardiorespiratory fitness.
13 nal cardiometabolic risk score also included cardiorespiratory fitness.
14 6%) for BMI and 1.8% (95% CI, 1.0%-2.5%) for cardiorespiratory fitness.
15 Multistage 20-m shuttle run test for cardiorespiratory fitness.
16 role as an exercise-stimulated transducer of cardiorespiratory fitness.
17 ow-up duration between the groups defined by cardiorespiratory fitness.
18 en childhood cognitive functioning and adult cardiorespiratory fitness.
19 itively associated (beta = .45, p<.001) with cardiorespiratory fitness.
20 ociated with 10-14 year-old schoolchildren's cardiorespiratory fitness.
21 relationship between sedentary behaviour and cardiorespiratory fitness.
22 -2.32) for BMI, 0.77 (95% CI, 0.68-0.88) for cardiorespiratory fitness, 1.45 (95% CI, 1.32-1.60) for
23 erage running distance (kilometers per day), cardiorespiratory fitness (10-km footrace performance),
24 cal care unit as younger people with similar cardiorespiratory fitness (13 vs 12; P = 0.08 and 1 vs 1
25 Participants achieved near age-predicted cardiorespiratory fitness (94.7+/-32.5% of age-predicted
28 udy aimed to define the relationship between cardiorespiratory fitness and age in the context of post
29 independent and linked associations between cardiorespiratory fitness and age on postsurgical mortal
30 nsity exercise training was found to improve cardiorespiratory fitness and attenuate cutaneous vasodi
31 mary aim of this study was to investigate if cardiorespiratory fitness and body composition are risk
35 are strong associations between measures of cardiorespiratory fitness and burden of symptoms, qualit
37 scribed cross-sectional associations between cardiorespiratory fitness and CHD risk factors in a larg
39 M1, GMPS, COL18A1 and PRKCA) associated with cardiorespiratory fitness and endurance performance in C
40 SCT is beneficial for preserving a patient's cardiorespiratory fitness and exercise cardiac function.
43 hese findings support the importance of high cardiorespiratory fitness and healthy body weight during
44 into the biological mechanisms underpinning cardiorespiratory fitness and highlight the importance o
46 re is a graded, inverse relationship between cardiorespiratory fitness and incident AF, especially am
47 The authors examined the association between cardiorespiratory fitness and incident hypertension in w
48 ey were used to describe the distribution of cardiorespiratory fitness and its association with obesi
49 ave demonstrated strong associations between cardiorespiratory fitness and lower cardiovascular disea
51 udy, we investigated the association between cardiorespiratory fitness and measures of gray matter at
52 2-hour glucose level (primary outcomes) and cardiorespiratory fitness and measures of insulin action
54 udies have reported the relationship between cardiorespiratory fitness and metabolic syndrome inciden
55 tive tests, there was no association between cardiorespiratory fitness and midlife cognitive function
58 inverse, dose-dependent association between cardiorespiratory fitness and mortality is well-establis
61 cacy of 2 exercise training dose regimens on cardiorespiratory fitness and patient-reported outcomes
65 een increased levels of physical activity or cardiorespiratory fitness and reduced coronary heart dis
66 nd no weight loss demonstrate that increased cardiorespiratory fitness and reduced intra-abdominal ad
69 ned the effects of simvastatin on changes in cardiorespiratory fitness and skeletal muscle mitochondr
72 This study sought to evaluate the role of cardiorespiratory fitness and the incremental benefit of
74 r insulin sensitivity and secretion, greater cardiorespiratory fitness, and a predominantly lower bod
80 mong type and duration of physical activity, cardiorespiratory fitness, and musculoskeletal injury in
81 ther, and to what extent, physical activity, cardiorespiratory fitness, and obesity at age 16 mediate
82 ect of percent body fat, hand grip strength, cardiorespiratory fitness, and physical activity levels
85 djustment or not for key confounders such as cardiorespiratory fitness, and to the lack of consensus
86 hanges in myocardial structure and function, cardiorespiratory fitness, and traditional cardiac risk
89 y while promoting physical activity, ET, and cardiorespiratory fitness are needed throughout the heal
91 muscle (low percentage of lean mass and low cardiorespiratory fitness) are likely to contribute thes
92 istory of ischemic heart disease, unfit (low cardiorespiratory fitness as determined by maximal exerc
94 The primary outcome measures were weight and cardiorespiratory fitness (as measured with the 6-minute
95 HealthKit data from Apple Watch can estimate cardiorespiratory fitness, as compared with the gold sta
97 oper Center Longitudinal Study who underwent cardiorespiratory fitness assessment at a mean age of 49
100 ocardial infarction, peak lung function, and cardiorespiratory fitness at baseline, preservation of c
104 study was to examine the association between cardiorespiratory fitness, body mass index (BMI), and wa
105 ardial infarction, type 2 diabetes mellitus, cardiorespiratory fitness, body mass index, systolic blo
107 d mild anemia might be associated with lower cardiorespiratory fitness but not with anaerobic fitness
109 Assessments of physical fitness included cardiorespiratory fitness (CF), muscular endurance (ME),
110 rformed to determine the association between cardiorespiratory fitness changes and bronchiectasis.
111 re made for height, weight, body mass index, cardiorespiratory fitness, cognitive ability, and socioe
113 trategies was greatest in patients with high cardiorespiratory fitness compared to adequate or low ca
114 vity (>/=9 METs) holds greater potential for cardiorespiratory fitness compared to physical activity
115 s additional improvements in S(I), S(G), and cardiorespiratory fitness compared with a sedentary life
117 ine sample included fitness measurements for cardiorespiratory fitness (CRF) (running 1.5 km for girl
118 is study sought to determine the capacity of cardiorespiratory fitness (CRF) algorithms without exerc
119 t of a lifestyle intervention and changes in cardiorespiratory fitness (CRF) and body mass index on r
120 al factors influence the association between cardiorespiratory fitness (CRF) and cardiovascular disea
124 ce has firmly established that low levels of cardiorespiratory fitness (CRF) are associated with a hi
126 features around the home and workplace with cardiorespiratory fitness (CRF) based on a treadmill tes
127 helial function in non-exercisers with lower cardiorespiratory fitness (CRF) but not in exercisers wi
128 <.05) associated with BF%, diastolic BP, and cardiorespiratory fitness (CRF) for the Chu et al PT onl
129 has been shown to be effective in improving cardiorespiratory fitness (CRF) in patients with systoli
142 rength, muscular endurance, flexibility, and cardiorespiratory fitness (CRF) were performed in 22 int
144 ave examined the association between LTL and cardiorespiratory fitness (CRF), an enduring trait influ
145 the individual and joint associations among cardiorespiratory fitness (CRF), body mass index, and he
147 45.9 +/- 12.7 years) completed assessment of cardiorespiratory fitness (CRF, VO(2peak)), muscle stren
149 d self-reported physical activity, predicted cardiorespiratory fitness (cycle ergometer test), obesit
150 ise set of features extracted from patients' cardiorespiratory fitness data, our framework minimizes
160 milar if not indeed superior improvements in cardiorespiratory fitness for a given training volume an
161 hard physical activity were associated with cardiorespiratory fitness for boys (F = 5.64, p<.01) whe
162 sed national levels of physical activity and cardiorespiratory fitness for primary and secondary CHD
163 eficial effects of physical activity /ET and cardiorespiratory fitness for the prevention of chronic
165 arable improvements in physical activity and cardiorespiratory fitness from baseline to 24 months.
166 demonstrated benefits in muscular strength, cardiorespiratory fitness, functional task performance,
167 ty decreased significantly in the group with cardiorespiratory fitness gain >/=2 METs as compared to
172 rbidity and mortality, but the prevalence of cardiorespiratory fitness has not been quantified in rep
174 ellitus, abnormal resting ECG responses, and cardiorespiratory fitness, hazard ratios (95% confidence
175 s well known, there is a lack of data on how cardiorespiratory fitness (hereafter referred to as fitn
178 y secondary outcomes included changes in (i) cardiorespiratory fitness; (ii) cardiovascular risk fact
179 atory fitness and the incremental benefit of cardiorespiratory fitness improvement on rhythm control
180 Here, we examine genetic determinants of cardiorespiratory fitness in 450k European-ancestry indi
182 y living skills, overall quality of life and cardiorespiratory fitness in adults with schizophrenia;
184 ive breastfeeding has a beneficial effect on cardiorespiratory fitness in children and adolescents.
186 ercise testing as an objective assessment of cardiorespiratory fitness in clinical oncology research
188 se relationship between cancer incidence and cardiorespiratory fitness in large population studies.
190 tion of health care costs in later life with cardiorespiratory fitness in midlife after adjustment fo
191 e, is associated with modest improvements in cardiorespiratory fitness in patients previously treated
192 e, fat-free mass (FFM), and fat mass (FM) on cardiorespiratory fitness in pediatric renal transplant
194 ctivity, exercise training (ET), and overall cardiorespiratory fitness in the prevention and treatmen
195 d consider the potential benefits of greater cardiorespiratory fitness in the primary prevention of m
196 /m(2)), physical activity (in km/d run), and cardiorespiratory fitness (in m/s during 10-km footrace)
199 exercise training (i.e. body composition and cardiorespiratory fitness) influence this response.
209 It is not known whether physical activity or cardiorespiratory fitness is associated with the onset o
213 training (ET) leading to improved levels of cardiorespiratory fitness is needed in all age groups, r
214 ramming effect of exclusive breastfeeding on cardiorespiratory fitness is of public health interest.
221 r from oxidative to glycolytic type, reduced cardiorespiratory fitness, loss of muscle mass and stren
225 These data indicate that enhanced levels of cardiorespiratory fitness may confer resistance to eleva
227 ral adipose tissue [VAT], and lean mass) and cardiorespiratory fitness measured by peak oxygen uptake
228 nts were associated with distinct aspects of cardiorespiratory fitness (measured by VO2) during initi
230 al oxidative capacity alone or combined with cardiorespiratory fitness mediated ~20-70% of the differ
231 improvements in SI and that only EX improved cardiorespiratory fitness, mitochondrial respiration and
235 well as the effect of physical activity and cardiorespiratory fitness on cardiovascular diseases.
236 , there are few data regarding the effect of cardiorespiratory fitness on health care costs independe
237 activity/exercise training, and increases in cardiorespiratory fitness on the prognosis of obese pati
238 Move and OnTrack resulted in less decline in cardiorespiratory fitness (P < .001), better physical fu
241 g program (25+/-9 miles/wk) led to increased cardiorespiratory fitness (peak oxygen consumption, 44.6
242 a trend for favorable effects of exercise on cardiorespiratory fitness (peak oxygen uptake or 6-min w
244 Exercise training has been shown to improve cardiorespiratory fitness, physical capacity, and qualit
246 tic information beyond resting variables and cardiorespiratory fitness, potentially refining risk str
248 ercise ECG responses, with stratification by cardiorespiratory fitness, quantified as treadmill test
252 tivities of daily living, communication, and cardiorespiratory fitness results in disability, handica
254 6), and the estimated HR per 5% increment in cardiorespiratory fitness retained throughout midlife wa
255 included physical activity (steps per day), cardiorespiratory fitness, self-efficacy, healthy living
256 ity, objectively measured physical activity, cardiorespiratory fitness, self-reported sports particip
260 ring cancer treatment led to improvements in cardiorespiratory fitness, strength, fatigue, and other
263 BMI, greater physical activity, and greater cardiorespiratory fitness, the latter being statisticall
264 arch is needed to clarify the association of cardiorespiratory fitness timing across the life course
265 -intensity interval training (HIIT) improves cardiorespiratory fitness (VO(2)max), but its impact on
268 body fat distribution (computed tomography), cardiorespiratory fitness (VO2max on a treadmill), physi
276 iratory fitness at baseline, preservation of cardiorespiratory fitness was associated with lower odds
277 n a long-term follow-up, the preservation of cardiorespiratory fitness was associated with lower odds
287 1.50 MJ/day, P = 0.01), but no difference in cardiorespiratory fitness was noted between groups.
294 mass index (weight (kg)/height (m)(2)), and cardiorespiratory fitness were measured at the time of t
295 chool-based intervention improved children's cardiorespiratory fitness when delivered in a large numb
296 entify relationships between improvements in cardiorespiratory fitness with changes in peripheral T c
297 sociations of habitual physical activity and cardiorespiratory fitness with IHTG and the prevalence o
299 cent studies investigated the association of cardiorespiratory fitness with white matter microstructu
300 phenotype imparted by low parental (inborn) cardiorespiratory fitness would be overcome by early-lif