ライフサイエンスコーパス: exertion

1 (1 sudden death per 1.51 million episodes of exertion).

2 on in skeletal muscle and muscle damage with exertion.

3 tion and of muscle fiber integrity following exertion.

4 other young individuals subjected to extreme exertion.

5 c death associated with moderate to vigorous exertion.

6 essors such as food deprivation and physical exertion.

7 ) compared with the risk during lesser or no exertion.

8 ceedingly low at 1 per 36.5 million hours of exertion.

9 ubjects' kinematics, kinetics, and perceived exertion.

10 higher arterial pressures evoked by physical exertion.

11 was hospitalized for progressive dyspnea on exertion.

12 evidence of ischaemia, either at rest or on exertion.

13 dden death that was associated with vigorous exertion.

14 hes the risk of sudden death during vigorous exertion.

15 y/severe exercise and the recovery from that exertion.

16 measured with the Borg Scale of Respiratory Exertion.

17 ely 75% of V O2max) for 10 min of submaximal exertion.

18 d in men dying at rest vs those dying during exertion.

19 duce a TDR or a THR for 10 min of submaximal exertion.

20 der characterized by increasing fatigue with exertion.

21 y volume in 1 second (FEV1) 10 minutes after exertion.

22 l of the ventricular rate at rest and during exertion.

23 ic); and (3) induced by prolonged periods of exertion.

24 during or immediately after unusual physical exertion.

25 to cardiac causes, independently of physical exertion.

26 fibrosis most strongly predicted SCD during exertion.

27 a persistent cough and worsening dyspnea on exertion.

28 ymptoms include cramps brought on by cold or exertion.

29 ement, but symptoms can abruptly worsen with exertion.

30 rdered to reflect typical levels of physical exertion.

31 omen, and 87.7% had chest pain or dyspnea on exertion.

32 m the daily activities that require physical exertion.

33 nd worsens after physical activity or mental exertion.

34 and represented 75% of sudden deaths during exertion.

35 wheezing after vigorous playing, crying, or exertion (0.18 [0.04-0.79]).

36 ities at the time of SUD included sleep (5), exertion (2), auditory arousal (1), and undetermined (2)

37 in at rest, 222 (22%) reported chest pain on exertion, 238 (24%) reported a combination of effort and

38 Nineteen patients presented with dyspnea on exertion, 7 with dyspnea at rest, 9 with cough, and 6 wi

39 g correlation between the magnitude of force exertion across the synapse and the speed of perforin po

40 ondition of intermittent claudication during exertion, an exaggerated vasoconstriction of the existin

41 Physical exertion and anger or emotional upset are triggers assoc

42 ograms, as a criterion for achieving maximal exertion and as a clinical guide during diagnostic exerc

43 Each patient experienced dyspnea with mild exertion and decreased endurance; 84 had chest pain with

44 commonly presenting symptoms were dyspnea on exertion and dry cough followed by fatigue and fever.

45 Vigorous exertion and endurance training have been reported to in

46 ronment, and this is reinforced by pulmonary exertion and exacerbation.

47 ported a significant reduction in dyspnea on exertion and exercise intolerance.

48 subjects did not carry load, their perceived exertion and gait performance did not significantly chan

49 nation of factors including extreme physical exertion and heat exposure.

50 Physical exertion and high-fat diet did not increase the likeliho

51 mining both the limitations to mental effort exertion and how we manage those limited cognitive resou

52 her 2 patients heard a "pop" during physical exertion and immediately became dyspneic, and at operati

53 tic systems, in the monitoring of lower back exertion and in muscle stimulation.

54 the load setting reduced subjects' perceived exertion and intact-limb stance time when they carried l

55 e reports both mild shortness of breath with exertion and minimal chronic swelling of the left lower

56 s from the interactive effect of their heavy exertion and plant-food based dietary practices to the e

57 endectomy resulted in worst pain scores upon exertion and required a higher dosage of intravenous ana

58 Participants in the group with leg pain on exertion and rest (n = 88) had a higher (poorer) score f

59 thout PAD, PAD participants with leg pain on exertion and rest at baseline had greater mean annual de

60 locks per week [n = 28]) and the leg pain on exertion and rest group had poorer functioning than thos

61 The group with pain on exertion and rest had a slower time for completing 5 cha

62 ease in average ABI, from no pain to pain on exertion and rest, noncalf pain, atypical calf pain, and

63 n had higher rates of shortness of breath on exertion and skin problems that had developed since they

64 Although the combination of exertion and wheezing suggested the diagnosis of exercis

65 ptoms of heart failure at rest or on minimal exertion and with an ejection fraction <25% (but not vol

66 activity (an individual's perceived level of exertion) and risk of CHD, even among men not satisfying

67 females (higher endurance and survival after exertion) and to out-compete rival males on the female's

68 er pulmonary capillary wedge pressure during exertion, and 23 (39%) of 59 fulfilled both these criter

69 mmatory agents, four to six weeks of limited exertion, and conventional heart failure treatment as ne

70 nd stimulation signals related to lower back exertion, and electrical muscle stimulation with feedbac

71 mitochondrial fusion in response to physical exertion, and for the associated extension in lifespan.

72 , income, access to medical care, dyspnea on exertion, and number of systems involved were associated

73 capacity (FVC) of <85% predicted, dyspnea on exertion, and presence of a ground-glass appearance on h

74 Physical exertion, anger, and emotional upset are reported to tri

75 e initial symptoms of fatigue and dyspnea on exertion are nonspecific and definitive diagnosis requir

76 f CHD among men who perceived their exercise exertion as "moderate," "somewhat strong," and "strong"

77 t the light-driven proton pumping functional exertion as well.

78 During submaximal exertion at comparable heart rates (114+/-6 versus 115+/

79 Extreme exertion at SCAD onset was more frequent in men (7 of 16

80 Exertion before death was determined by the investigator

81 n augmented coronary flow velocity on second exertion (both P<0.001).

82 in motivating cognitive and physical effort exertion by computing subjective effort equivalents.

83 d cross-sectional data suggest that vigorous exertion can trigger cardiac arrest or sudden death and

84 at the positive effect of music on perceived exertion cannot always be explained by an effect of dive

85 entations of outcome value are discounted by exertion, commensurate with an integration of cost and b

86 The maximum exertion condition, compared to relaxed execution, was a

87 , which are usually associated with physical exertion, continue to achieve high public visibility and

88 it produced the highest ratings of perceived exertion coupled with the greatest elevations in heart r

89 t with mutation p.Q136P died suddenly during exertion despite this treatment.

90 emotherapy, symptoms of cough and dyspnea on exertion developed in 32 of 60 patients (53%) and declin

91 Throughout exertions, distal coronary pressure and flow velocity we

92 vestigated the effects of music on perceived exertion during a physically strenuous task, varying mus

93 high school students, and 82% with physical exertion during competition/training, whereas only 11% o

94 Exposure to extreme heat and physical exertion during fire suppression activates platelets, in

95 r this we measured psychologically indicated exertion during physical workout with and without musica

96 is known to be capable of reducing perceived exertion during strenuous physical activity.

97 cal agency significantly decreased perceived exertion during workout, indicating that musical agency

98 ration (dynamic exercise only) and perceived exertion (dynamic exercise only) when compared to contro

99 dition to the subjective rating of perceived exertion, effort perception was estimated on the basis o

100 Physical exertion, emotional stress and environmental temperature

101 radial access, they performed 2 consecutive exertions (Ex1, Ex2) using a supine cycle ergometer.

102 Humans often make their greatest exertions for an idea they form of their group.

103 ial infarction was present in 0 of 25 in the exertion group and in 15 (13%) of 116 in the rest group.

104 essed loss of consciousness, or onset during exertion had 98.5% (95% CI, 94.6%-99.6%) sensitivity and

105 Men dying during exertion had a significantly higher mean (SD) total chol

106 Exertion has been reported to acutely increase the risk

107 iratory disease just as ratings of perceived exertion have been used in healthy individuals.

108 ith HFpEF and abnormal diastolic response to exertion, improvement in exercise E/e' mediates the bene

109 The mechanisms of reduced angina on second exertion in patients with coronary arterial disease, als

110 mechanisms of vaso-occlusion during physical exertion in SCT.

111 t CTLs coordinate perforin release and force exertion in space and time.

112 Normal E/e' response to exertion in symptomatic HFpEF is associated with less pr

113 w that parS is the Caulobacter site of force exertion, independent of its position in the chromosome.

114 s (8%), a female who experienced episodes of exertion-induced syncope since age 10, had normal QT int

115 f 500 milliseconds who experienced recurrent exertion-induced syncope/cardiac arrest beginning at 1 y

116 ure >125 mm Hg, dyspnea at rest or with mild exertion, intravenous diuretic use, glomerular filtratio

117 While it is often assumed that the amount of exertion invested in a task can be voluntarily regulated

118 ata suggest that sudden cardiac death during exertion is an extremely rare event in women.

119 Dyspnea with exertion is nearly always present in patients with pulmo

120 enhancing energy expenditure when perceived exertion is used to establish exercise intensity.

121 left atrial pressure-either at rest or with exertion-is a common factor among all forms of HFpEF and

122 eart rate, mean arterial pressure, perceived exertion, lactate concentration and plasma noradrenaline

123 lating effect of musical agency on perceived exertion may be a previously unacknowledged driving forc

124 Habitual moderate to vigorous exertion modified this transient risk (P = .005 for inte

125 ed a nonproductive cough and mild dyspnea on exertion (Modified Medical Research Council dyspnea scal

126 ficit or known high risk, for whom strenuous exertion must be strictly proscribed; and (c) those who

127 SCD during intense exertion occurred in 61% of cases; ARVC and left ventric

128 through competition with endogenous ATX and exertion of a dominant negative effect.

129 portant role in maximizing utility-promoting exertion of activity when behaviors are rewarded and con

130 favor a simpler view, according to which the exertion of cognitive control carries intrinsic subjecti

131 red changes in speed are consistent with the exertion of constant torque by the spirochetal flagellar

132 tence processing can still be disrupted, and exertion of effort can be elevated, even when intelligib

133 related circuits in behavioural activation, exertion of effort in instrumental behaviour, and effort

134 nucleus accumbens is thought to modulate the exertion of effort in motivated behavior.

135 circuitry regulating behavioural activation, exertion of effort, and effort-related decision-making,

136 l processes including behavioral activation, exertion of effort, approach behavior, sustained task en

137 rch, we predicted amphetamine would increase exertion of effort, particularly when reward probability

138 ce of decision-making biases towards a lower exertion of effort.

139 of a common neural circuitry regulating the exertion of effort.

140 This method, which does not require exertion of external forces or binding to a substrate, r

141 grin to an RGD sequence in the prodomain and exertion of force on this domain, which is held in the e

142 a variety of processes such as the targeted exertion of forces, signaling, and self-assembly in resp

143 of Set2 binding to chromatin and subsequent exertion of its methyltransferase activity is relatively

144 designs are prone to limitations such as the exertion of physical stress on the worms and limited thr

145 ains is sufficient for activation or whether exertion of tensile force by the actin cytoskeleton acro

146 Herein, we show that the exertion of tensile forces on a simplified retinal chrom

147 used to quantify elbow impedance during the exertion of volitional elbow torques from 0% to 20% of m

148 to their index MI, and the effect of regular exertion on risk.

149 antly greater frequency of dyspnea with mild exertion or at rest, and a tendency toward reduced carbo

150 ndromes may be acute or chronic secondary to exertion or exercise.

151 exertion with that during periods of lighter exertion or none.

152 cardia is a heritable arrhythmia unmasked by exertion or stress and is characterized by triggered act

153 emanding cognitive task either "with maximum exertion" or "as relaxed as possible" affected performan

154 ight loss, shortness of breath or dyspnea on exertion, or cough.

155 t was associated with an episode of vigorous exertion (P value for trend=0.006).

156 In multivariate analysis, both exertion (P=.002) and total cholesterol-high-density lip

157 After each grip force exertion, participants had the opportunity to either acc

158 Likely mechanisms are exertion-related increase in episcleral venous pressure

159 ts with acute MI, 640 (64 who experienced an exertion-related MI and 576 who did not) were selected f

160 Patients who experienced exertion-related MI were more frequently men (86% vs 68%

161 known about the clinical characteristics of exertion-related MI.

162 These results show that exertion-related MIs occur in habitually inactive people

163 an adults, suggesting the increased risk for exertion-related sudden death in SCT carriers is unlikel

164 despite concerns that SCT is associated with exertion-related sudden death.

165 aluate the role of whole-exome sequencing in exertion-related SUDY cases.

166 From 1998 to 2010, 32 cases of exertion-related SUDY were referred by Medical Examiners

167 th highest yields derived from the subset of exertion-related SUDY.

168 c mutations for more than one third of these exertion-related, autopsy-negative SUDY cases.

169 siently elevated during moderate to vigorous exertion (relative risk [RR], 2.38; 95% confidence inter

170 racellular stiffness and extracellular force exertion, respectively, relative to an empty vector cont

171 ve the physiological range at rest or during exertion, resulting in an arterial-venous oxygen differe

172 that elicited the same ratings of perceived exertion (RPE) as those observed during exercise with PT

173 infusion did not affect rating of perceived exertion (RPE) during exercise.

174 f muscle pain perception (MPP) and perceived exertion (RPE), muscle sympathetic nerve activity (MSNA)

175 but also activities involving low levels of exertion, such as anger and smoking.

176 An additional ankle DF/PF exertion task was performed.

177 tly more nasal catarrh and breathlessness on exertion than nonsmokers.

178 e exhaustion and had a higher survival after exertion than those with two pedipalps.

179 heart pumps blood at a rate at rest or with exertion that is below the physiological range and the m

180 nd Afghanistan were evaluated for dyspnea on exertion that prevented them from meeting the U.S. Army'

181 patients with symptoms at rest or on minimal exertion, the addition of carvedilol to conventional the

182 se this patient population is symptomatic on exertion, therapeutic treatments targeting abnormal exer

183 Vigorous physical exertion transiently increases the risk of acute myocard

184 The RR of experiencing an MI during exertion was 10.1 times greater than the risk at other t

185 h during and up to 30 minutes after vigorous exertion was 16.9 (95 percent confidence interval, 10.5

186 nary artery disease, sudden death related to exertion was associated with acute plaque rupture.

187 nset of MI in only 0.9% of cases and regular exertion was associated with decreasing risk.

188 c death associated with moderate to vigorous exertion was exceedingly low at 1 per 36.5 million hours

189 th during any particular episode of vigorous exertion was extremely low (1 sudden death per 1.51 mill

190 The culprit plaque in men dying during exertion was plaque rupture in 17 (68%) of 25 vs 27 (23%

191 al mood disturbance and ratings of perceived exertion were found during the V(GREEN) compared to V(GR

192 e, force production and ratings of perceived exertion were measured during all conditions.

193 using the Borg Scale, the perceived level of exertion when exercising (relative intensity).

194 ased left atrial pressure, especially during exertion, which might be a key therapeutic target.

195 ptoms of heart failure at rest or on minimal exertion, who were clinically euvolemic, and who had an

196 bin, cigarette smoking) in addition to acute exertion with plaque rupture were determined.

197 p to 30 minutes after an episode of vigorous exertion with that during periods of lighter exertion or

198 ll, adequate rate control at rest and during exertion, without pathologic AV block, was achieved long