ライフサイエンスコーパス: athletic

1 nistered before participation in high school athletics.

2 risk of joint damage during participation in athletics.

3 ts adolescents involved in overhead throwing athletics.

4 n and adolescents participating in organized athletics.

5 articipated in high school and/or collegiate athletics.

6 n information source, improved perception of athletic abilities and strength-training self-efficacy,

7 ts of individuals in specific age ranges and athletic abilities remains essential in assessing the un

8 inematics consistent with steeply decreasing athletic ability with size.

9 al talent selection techniques in predicting athletic ability, and careful consideration should be gi

10 ed as a natural and safe method of improving athletic ability.

11 uscle dysfunction, fatigue, and weakening of athletic ability.

12 cations in wet environments, particularly in athletic activities involving water or significant persp

13 Sudden cardiac death during athletic activities is a highly visible event, and contr

14 d participation by the general population in athletic activities leads to increased trauma to bones,

15 dings in obese children, children engaged in athletic activities, children with renal disease, childr

16 s and positional changes that may occur with athletic activities.

17 dormitory, off-campus roommates, friends, or athletic activities.

18 ses concern regarding the safe resumption of athletic activity (return to play) following resolution

19 Nonparticipation in competitive athletic activity and disease-specific treatment for ide

20 recognized as a cause of sudden death during athletic activity because of its association with ventri

21 ary intake, overall well-being, sex factors, athletic activity, and cortisol concentrations in variou

22 tury, we have learned much about the healthy athletic adaptation that occurs with exercise.

23 In athletic adolescents, spondylolysis is the most common o

24 that inspires Texas A&M Aggies to victory in athletic and academic competitions.

25 ores for young athletes with a concussion in athletic and clinical settings.

26 Dust samples from a mixed-use athletic and educational facility were subjected to micr

27 Online questionnaires ascertained athletic and military history.

28 Specific athletic and occupational activities result in predictab

29 s continued all normal activities, including athletics and driving.

30 Athletics and vanity aside, there are many reasons for w

31 cations, such as healthcare, rehabilitation, athletics, and senior monitoring.

32 r athletic tasks, such as jumping, or to non-athletic applications, such as designing interventions t

33 erence for disqualification from competitive athletics are now a standard for management decisions wh

34 eath in Athletes and the National Collegiate Athletic Association (2002 to 2011).

35 letics sponsored by the Michigan High School Athletic Association (MHSAA) during academic years 2015

36 all high schools in the Michigan High School Athletic Association (MHSAA) during academic years 2016-

37 death were identified in National Collegiate Athletic Association (NCAA) athletes from 2004 to 2008 b

38 ormed for all 65 Power 5 National Collegiate Athletic Association (NCAA) Division I institutions duri

39 2019 across 6 Division I National Collegiate Athletic Association (NCAA) football programs participat

40 ion (CDC) partnered with National Collegiate Athletic Association (NCAA) institutions to analyze retr

41 ults of the 2021 to 2022 National Collegiate Athletic Association (NCAA) myPlaybook survey, which was

42 ootball League (NFL) and National Collegiate Athletic Association (NCAA) opted to host football games

43 the incidence of SCD in National Collegiate Athletic Association (NCAA) student-athletes and assess

44 in studies of Division 1 National Collegiate Athletic Association and Italian athletes (ages 18 to 25

45 rom data provided by the National Collegiate Athletic Association and the National Federation of Stat

46 t study conducted by the National Collegiate Athletic Association and the US Department of Defense Co

47 This study included National Collegiate Athletic Association athlete deaths during a 20-year tim

48 The rate of SCD in National Collegiate Athletic Association athletes is high, with males, black

49 otal of 143 SCD cases in National Collegiate Athletic Association athletes were identified from 1102

50 The National Collegiate Athletic Association convened a multidisciplinary task f

51 A database of all National Collegiate Athletic Association deaths (2003-2013) was developed.

52 ve case-control study of National Collegiate Athletic Association Division I athletes from any sport

53 bservational study of 29 National Collegiate Athletic Association Division I football players include

54 clinical outcomes among National Collegiate Athletic Association Division I university and professio

55 n varsity athletics at a National Collegiate Athletic Association Division I university between 1999

56 ed student athletes at a National Collegiate Athletic Association Division I university campus who te

57 The National Collegiate Athletic Association Injury Surveillance Program include

58 The National Collegiate Athletic Association Injury Surveillance Program include

59 nd Outcomes Network; and National Collegiate Athletic Association Injury Surveillance Program, respec

60 A total of 1110 National Collegiate Athletic Association member colleges and universities we

61 The National Collegiate Athletic Association resolutions list identified 117 of

62 s and search strategies (National Collegiate Athletic Association resolutions list, Parent Heart Watc

63 n between the enactment of state high school athletic association-mandated NATA-IATF guidelines and t

64 A subset of state high school athletic associations have implemented state-mandated gu

65 ll male athletes who participated in varsity athletics at a National Collegiate Athletic Association

66 ic nanogenerator for self-powered sensing in athletic big data analytics.

67 e been observed, the genetic contribution to athletic bradycardia has not been elucidated.

68 reserved, and some patients had a remarkable athletic build.

69 applications in biomarker discovery in elite athletic candidates, non-conventional anti-doping analyt

70 We aimed to establish whether athletic cardiac remodeling assessed by cardiovascular m

71 Athletic cardiac remodeling can occasionally be difficul

72 hallenging because little is known regarding athletic cardiac remodeling in these athletes or athlete

73 ere younger and fitter and exhibited greater athletic cardiac remodeling than non-BAs.

74 ns regarding feedback control performance in athletic coaching.

75 athletes of all ages, and serve the greater athletic community and our nation as a whole, by allowin

76 ac emergencies in basketball players and the athletic community at large.

77 xercise, it is important for the medical and athletic community to be aware of possible associated oc

78 e stimulant drugs whose use is prohibited in athletic competition by the World Anti-Doping Agency (WA

79 versity programs that faced each other in an athletic competition, despite receipt of negative antige

80 reatments, and to educate patients in proper athletic conditioning.

81 tudy of college football players in a single athletic conference examines the association of close co

82 er a training session (78 cases) or a formal athletic contest (43 cases), with 80 deaths (63%) occurr

83 Repetitive head impacts, often in athletic contexts, are now believed to be associated wit

84 roblems after TBI in military, civilian, and athletic contexts.

85 ohort of pitchers ('Pitch2', n = 10) and non-athletic controls ('Con', n = 4).

86 on compared to cross-country runners and non-athletic controls, respectively.

87 These results highlight the capacity of athletic data to predict late-life mortality, even acros

88 position and metabolic responses tailored to athletic demands, laying the groundwork for personalized

89 cess was obtained from the team physician or athletic director; preparticipation screening forms were

90 female participants, including 14 from each athletic discipline, underwent two 5-minute EEG recordin

91 ntions to support specific energy demands in athletic disciplines.

92 scale variant catalog for a major and highly athletic domestic animal species will enhance its abilit

93 egetarian diet is compatible with successful athletic endeavor.

94 al science research applied to understanding athletic endeavor.

95 erized by natural beauty, graceful movement, athletic endurance, and, as a result of its development

96 ational Operating Committee on Standards for Athletic Equipment adopted the standard and had an open

97 ational Operating Committee on Standards for Athletic Equipment standard for chest protectors should

98 ational Operating Committee on Standards for Athletic Equipment which initially adopted the standard

99 ith examples of fully printed representative athletic equipment with integrated sensors.

100 ding applications in personal healthcare and athletic evaluation.

101 ted in concussed athletes on the sideline of athletic events.

102 Collected were daily injury and athletic exposure (AE) reports, a baseline questionnaire

103 son, and the incidence rate was 1.2 per 1000 athletic exposure hours (95% CI, 0.9-1.6).

104 ayers, there were 59 concussions with 43 742 athletic exposure hours.

105 every 10 000 athletic exposures, in which an athletic exposure is defined as one athlete participatin

106 Data on athletic exposure were available for 34 American footbal

107 ately 2.5 concussions occur for every 10 000 athletic exposures, in which an athletic exposure is def

108 ional source of reactive chlorine within the athletic facility and outdoors.

109 t-emitting diode (LED)-lit room in a college athletic facility over a 2 week period.

110 , the recognized cardiovascular risks of the athletic field are now extended to include cardiac arres

111 zing performance, setting a new standard for athletic footwear design tailored to the rigorous demand

112 Furthermore, participation in competitive athletics for athletes with life-threatening arrhythmias

113 mportant to develop tools that differentiate athletic from cardiomyopathic change.

114 As our society's interest in competitive athletics has grown, so has the participation of our you

115 Female participation in athletics has increased significantly over the past seve

116 nics for a real-time, reliable assessment of athletic health and performance.

117 diagnostic criteria; and informant-reported athletic history and informant-completed scales that ass

118 ere [stages III and IV]); informant-reported athletic history and, for players who died in 2014 or la

119 muscles, are a fundamental component of the athletic horse's respiratory system: as the sole abducto

120 a surface lesion, especially in the young or athletic individual.

121 , most commonly occurring during exertion in athletic individuals in the absence of previous reported

122 nd respiratory disorders are common in young athletic individuals.

123 To properly diagnose and manage athletic injuries in adolescent girls, pediatric health

124 This review identifies athletic injuries that are unique to or especially commo

125 has broad implications that spans sociology, athletics, interactive technology, and economics.

126 We hypothesized that athletic left ventricular hypertrophy is a consequence o

127 Regression of athletic LV hypertrophy can be detected after just 1 mon

128 This finding suggests that collegiate athletics may be held without an associated increased ri

129 osis of hypertrophic cardiomyopathy in young athletic men should, therefore, not be made purely on th

130 quirements between middle-aged sedentary and athletic men, suggesting that energy requirements of hea

131 assess Physical Literacy, Mental Toughness, Athletic Mental Energy, Achievement Emotions Positive, A

132 s among Physical Literacy, Mental Toughness, Athletic Mental Energy, Achievement Emotions Positive, A

133 Additionally, Mental Toughness, Athletic Mental Energy, and Achievement Emotions Positiv

134 eracy positively predicted Mental Toughness, Athletic Mental Energy, and Achievement Emotions Positiv

135 ification score (e.g. as one method, British Athletics Muscle Injury Classification - BAMIC) to descr

136 ow VO2max is set and concludes that the more athletic one is, the more VO2max is sensitive to O2 tran

137 ities were social rather than educational or athletic (P<.05).

138 Revised management recommendations regarding athletic participation after acute myocarditis have heig

139 In recent years, athletic participation has more than doubled in all majo

140 Athletic participation in high school football.

141 In the initial year of athletic participation, 19.2% of football athletes had h

142 final (19.2% versus 10.2%; P=0.001) years of athletic participation.

143 VC risk calculator can be used accurately in athletic patients without modification.

144 diatricians can appropriately care for their athletic patients.

145 vigilance (psychomotor vigilance test), and athletic performance (40-m sprint time, long jump distan

146 olic androgenic steroids are used to enhance athletic performance and appearance.

147 (AAS) are illicitly administered to enhance athletic performance and body image.

148 ephedra or ephedrine used for weight loss or athletic performance and case reports of adverse events

149 port of common variant mQTLs linked to elite athletic performance and endurance sports with potential

150 cts of swimmers' character strengths (CS) on athletic performance and examined multiple mediating eff

151 Concerned with the improvement of athletic performance and the prevention of injury, adole

152 ey achieved at younger ages, but declines in athletic performance are inevitable with ageing.

153 Such positive effects of neuostimulation in athletic performance as demonstrated in this research an

154 ls, iron deficiency often not only decreases athletic performance but also impairs immune function an

155 to increase limb range of movement prior to athletic performance but it is unclear which component o

156 to identify genetic predisposition to elite athletic performance by investigating genetically-influe

157 and are in a range that has shown meaningful athletic performance changes.

158 -related difference of ~10% or more in elite athletic performance for humans; however, the upper limi

159 Genetic research of elite athletic performance has been hindered by the complex ph

160 Examination of athletic performance has been used to discern the functi

161 tal muscle and/or skin perfusion might limit athletic performance in hot environments.

162 afest and most effective agents in enhancing athletic performance in this group are creatine, branche

163 on the association of genetic variation with athletic performance in young athletes is available; how

164 atment of disease, aging, and enhancement of athletic performance is becoming more widespread.

165 , and evidence to support use of ephedra for athletic performance is insufficient.

166 colonisation events on subsequent health and athletic performance is unknown.

167 toppers for four to six weeks improved some athletic performance measures compared to sleeping on LR

168 ry airways, thereby affecting the health and athletic performance of swimmers.

169 y structure, health events in later life and athletic performance on the racetrack.

170 eview and meta-analysis to determine whether athletic performance or some physical fitness measure is

171 All those studies did not examine athletic performance per se, but all studies assessed on

172 s to propose a new integrative framework for athletic performance prediction based on state-of-the-ar

173 a on elite athletes to reveal how early-life athletic performance predicts late-life mortality and ag

174 Athletic performance relies on tendons, which enable mov

175 f comprehensive body composition analysis in athletic performance studies.

176 ife gut bacterial communities and subsequent athletic performance that has implications for athletes

177 at peak athleticism and rates of decline in athletic performance to predict late-life mortality patt

178 pecific effects of circadian misalignment on athletic performance under natural conditions.

179 Surprisingly, athletic performance up to three years old, measured by

180 e predicts the risk of specific diseases and athletic performance up to three years old.

181 Athletic performance was positively associated with CS,

182 No trials of ephedra and athletic performance were found; 7 trials of ephedrine w

183 growth hormone is reportedly used to enhance athletic performance, although its safety and efficacy f

184 t, shorter glucocorticoid pulses may improve athletic performance, although the mechanisms remain unc

185 genes are consistently associated with elite athletic performance, and none are linked strongly enoug

186 vers a number of the agents known to enhance athletic performance, and their possible role in preserv

187 g work productivity, voluntary activity, and athletic performance, are addressed.

188 ld stimulates adaptations towards maximising athletic performance, but is unlikely to have further be

189 metimes are used for weight loss or enhanced athletic performance, but the efficacy and safety of the

190 Foot arch structure is critical in athletic performance, load absorption, and injury preven

191 interactions between the gut microbiome and athletic performance, metabolism, longevity and the abil

192 s the decades-long, controlled diminution in athletic performance, should not be seen as a disease pr

193 with at least 8 weeks of follow-up; and for athletic performance, those having no minimum follow-up.

194 e the existing literature on the genetics of athletic performance, with particular consideration for

195 ent, targeted recovery approaches to improve athletic performance.

196 Leucine has been suggested to improve athletic performance.

197 y determine the effects of growth hormone on athletic performance.

198 that loss of myostatin function can enhance athletic performance.

199 on and is purported to increase strength and athletic performance.

200 monitoring endurance, training routines, or athletic performance.

201 enetic and training influences that maximise athletic performance.

202 such as a somewhat increased capability for athletic performance.

203 icant role in maintaining health and optimal athletic performance.

204 poses significant physiologic challenges to athletic performance.

205 between oral health and factors relevant to athletic performance.

206 ting such targeted interventions to optimize athletic performance.

207 the complex realities which influence elite athletic performance.

208 iome-encoded enzymatic process that enhances athletic performance.

209 in average prize money earnings, a proxy for athletic performance.

210 hanges that support the demands of sustained athletic performance.

211 ) is a growing empirical approach to improve athletic performance.

212 y growing experimental approaches to enhance athletic performance.

213 ycaemic events, promoting overall health and athletic performance.

214 omote the desired adaptations for maximising athletic performance.

215 late key physiological processes involved in athletic performance.

216 isease recovery, while males are superior in athletic performance.

217 y of ephedra and ephedrine on weight loss or athletic performance; disagreements were resolved by con

218 training environment, is important for elite athletic performance; however, few genes are consistentl

219 The sexual differences in longevity and athletic performances are attributed to the tradeoff bet

220 rfaces may contribute to the maximization of athletic performances, and further studies are warranted

221 es are superior in longevity, while males in athletic performances.

222 Shoulder disease is common in the athletic population and may arise as a consequence of a

223 n suggested, although not studied in a large athletic population comparing black and white athletes.

224 ersy of excessive volumes of exercise in the athletic population is discussed.

225 Shoulder injuries are common in the athletic population.

226 early osteoarthritic changes in the injured athletic population.

227 nose and manage in an active and competitive athletic population.

228 deficiency anemia is likely to be higher in athletic populations and groups, especially in younger f

229 ot fully known, as outcomes studies in these athletic populations are needed, but given the strong as

230 screening for cardiovascular disease in such athletic populations may not be justifiable.

231 Such studies could include clinical and athletic populations to integrate nutritional and exerci

232 There is a lack of large studies on athletic populations to predict VO(2max) using somatic o

233 This has implications for athletic populations, as well as conditions characterise

234 and improve health care outcomes for diverse athletic populations.

235 CTE pathology and players' concussion count, athletic positions, years of football, and PEM-derived m

236 hysiologists wishing to provide a measure of athletic potential or to characterize subjects in exerci

237 ardiomyopathies, and defining guidelines for athletic preparticipation screening.

238 confirmed cases occurred within a university athletics program after the index patient attended a mee

239 ks occurred among intercollegiate university athletic programs during the fall 2020 semester, despite

240 ication, the performance of the materials as athletic protective gear is demonstrated.

241 Athletic pubalgia (AP) is a leading cause of athlete los

242 epicts patterns of findings in patients with athletic pubalgia, including rectus abdominis insertiona

243 ility of the hip, myotendinous injuries, and athletic pubalgia.

244 ation provides an objective assessment of an athletic punching force.

245 Analysis of athletic records shows that there is a sex-related diffe

246 thletes have characterized manifestations of athletic remodeling by echocardiography and electrocardi

247 cular structural adaptations associated with athletic remodeling were present in 64 athletes (47.1%).

248 Athletic remodeling, both on a macroscopic and cellular

249 nificantly lower percentage body fat, higher athletic scores, higher fruit intake, lower total serum

250 mass index, higher estimated VO2max, higher athletic scores, lower ratios of total serum cholesterol

251 Preparticipation athletic screening for cardiovascular disease with stand

252 male collegiate football athletes before the athletic season (Pre) and after the last game (Post).

253 aliva, a biofluid which can be sampled in an athletic setting without the risks and burdens associate

254 ystem regulation, applicable in clinical and athletic settings to monitor health and recovery.

255 exist to aid decision making in clinical and athletic settings.

256 Musical and athletic skills are learned and maintained through inten

257 tudy among student athletes participating in athletics sponsored by the Michigan High School Athletic

258 However, athletic status had no effect on substrate oxidation.

259 sociated with WT, as were physical activity, athletic status, pregnancy, socioeconomic status, and en

260 , a third study examining the positive Black-athletic stereotypical association fails to demonstrate

261 which psychological processes contribute to athletic strivings.

262 ly enough to warrant their use in predicting athletic success.

263 le is associated with increased LM and elite athletic success.

264 eflects the finding whereby deep categorized athletic talent prediction requires a multi-dimensional

265 Our simulator can be extended to other athletic tasks, such as jumping, or to non-athletic appl

266 ide range of patients: from the sedentary to athletic, the toddler to the pre-teen.The osteochondrose

267 wever, with growing female representation in athletics, the sport community has become increasingly a

268 are providers, and others involved in female athletics to allow early identification and intervention

269 xpenditure, constrain human performance from athletics to manual labor.

270 Synthetic athletic tracks and turf areas for outdoor sporting grou

271 event type, sport level, contact level, and athletic trainer involvement.

272 moved from participation and evaluated by an athletic trainer or physician prior to returning to part

273 At schools that employ at least one athletic trainer, most high school athletes who sustain

274 during the season via each team's certified athletic trainer.

275 ort-related concussions will be cared for by athletic trainers and primary care physicians.

276 Data were collected by athletic trainers at youth, high school, and collegiate

277 Athletic trainers attended each practice and game during

278 lete exposure information were documented by athletic trainers during practices and games.

279 practitioners and 244 schools (34%) allowed athletic trainers to perform examinations.

280 In 2009, the National Athletic Trainers' Association Inter-Association Task Fo

281 tionally, multidisciplinary teams comprising athletic trainers, physical therapists, primary care spo

282 e geared toward athletes as well as coaches, athletic trainers, school nurses, primary care providers

283 adaptations of the foot arch in response to athletic training and its implications for performance a

284 ience sample of 12 NFL teams at professional athletic training facilities between April and July 2007

285 iac remodeling occurs in response to regular athletic training, and the degree of remodeling is assoc

286 Athletic training, such as that undertaken by ballet dan

287 plications for diagnosis, rehabilitation and athletic training.

288 ificantly affected by diet, but not by prior athletic training.

289 The National Athletic Treatment, Injury and Outcomes Network program

290 Youth Football Surveillance System; National Athletic Treatment, Injury and Outcomes Network; and Nat

291 The National Athletic Treatment, Injury, and Outcomes Network Program

292 Artificial athletic turf containing crumb rubber (CR) from shredded

293 lly led to the abrupt shutdown of collegiate athletics until guidelines were established for a safe r

294 esponding to unanticipated cardiac events in athletic venues.

295 by echocardiography in a large population of athletic versus sedentary healthy subjects.

296 iological mechanisms for plaque formation in athletic versus sedentary men.

297 Human experiments conducted on athletic volunteers during exercise confirm that our dev

298 y the NCAA, participation in intercollegiate athletics was not associated with increased SARS-CoV-2 t

299 Gaining the benefits of participation in athletics while minimizing the risk of osteoarthritis re

300 V. Hill authored three manuscripts analysing athletic world records from a physiological perspective.