ライフサイエンスコーパス: medical intervention

1 s at the baseline visit, before any laser or medical intervention.

2 ry end point was recurrence of SVT requiring medical intervention.

3 40 were other illnesses that required urgent medical intervention.

4 ng clinical problem that increasingly defies medical intervention.

5 Early detection allows early medical intervention.

6 cedural complication or as a complication of medical intervention.

7 tors, only nutritional status is amenable to medical intervention.

8 vention of nuclear war as the only effective medical intervention.

9 hypothetical life-year saved than the median medical intervention.

10 most episodes were mild and resolved without medical intervention.

11 neuropathies have been widely reported with medical intervention.

12 o septic shock and death without appropriate medical intervention.

13 n HFpEF, a disease notoriously refractory to medical intervention.

14 ve and life-threatening, requiring immediate medical intervention.

15 self-isolate, seek testing, and obtain early medical intervention.

16 scheme to examine injurious falls requiring medical intervention.

17 ry disease and may lead to novel targets for medical intervention.

18 nopathy was self-limited and did not require medical intervention.

19 nopathy was self-limited and did not require medical intervention.

20 atomic variants to findings requiring urgent medical intervention.

21 ing AATD-LD progression and promoting timely medical intervention.

22 ther spread of the infection and allow early medical intervention.

23 llected at diagnosis and before start of any medical intervention.

24 sustained ventricular tachycardia treated by medical intervention.

25 ome was time to first exacerbation requiring medical intervention.

26 or worsening of renal function resulting in medical intervention.

27 nt time gap between the injury and the first medical intervention.

28 radigm of "biological-small molecule hybrid" medical intervention.

29 iotechnology to innovations in bioenergy and medical intervention.

30 risks and describing the possible effect of medical intervention.

31 us disease that could be mitigated by timely medical intervention.

32 d the genetics of disease-free aging without medical intervention.

33 ) included a patient demand or request for a medical intervention.

34 cardiac outcomes who may benefit from early medical intervention.

35 restored to normal form and function through medical intervention.

36 actionable genetic variants warranting early medical intervention.

37 s composition and could be useful in guiding medical intervention.

38 highly lethal disease that is refractory to medical intervention.

39 alternative for prophylaxis before elective medical interventions.

40 directing potential targets for behavior and medical interventions.

41 harnessed has the potential to revolutionize medical interventions.

42 subset of patients undergoing critical care medical interventions.

43 e effectiveness of drugs, devices, and other medical interventions.

44 arch when assessing efficacy of new drugs or medical interventions.

45 nal radiologic techniques as well as various medical interventions.

46 icacy within the range of generally accepted medical interventions.

47 that compare reasonably with other accepted medical interventions.

48 RCA2, little was known about the efficacy of medical interventions.

49 is similar to that of many commonly accepted medical interventions.

50 arable to that of many other widely accepted medical interventions.

51 pression is comparable with that of accepted medical interventions.

52 ck of data to compare the implant with other medical interventions.

53 ac surgical deaths preceded by limitation of medical interventions.

54 was greater than that of other well-accepted medical interventions.

55 s comparable with many generally recommended medical interventions.

56 isodes rather than an increase in success of medical interventions.

57 cost-effective compared with other accepted medical interventions.

58 financial and health consequences of costly medical interventions.

59 potential applications in human dietary and medical interventions.

60 quivalent to that of many currently accepted medical interventions.

61 tissue for evaluating disease pathology and medical interventions.

62 resistance threatens the viability of modern medical interventions.

63 arative lack of effective, disease-modifying medical interventions.

64 ers, can make fully informed decisions about medical interventions.

65 e even before the onset of symptoms to allow medical interventions.

66 clinical care and enhancing the precision of medical interventions.

67 stitute a major part of treatment success in medical interventions.

68 radiation exposure are crucial for effective medical interventions.

69 nd testing, forgoing potentially life-saving medical interventions.

70 ignificantly impact many current anti-cancer medical interventions.

71 uation raise the potential for plaque-driven medical interventions.

72 otential to significantly alter responses to medical interventions.

73 ential for developing targeted, personalized medical interventions.

74 ncern and have stimulated the development of medical interventions.

75 anxiety in patients, and lead to unnecessary medical interventions.

76 esthesia at least twice as part of essential medical interventions.

77 harness these biological rhythms to improve medical interventions.

78 viduals early that would benefit from timely medical interventions.

79 e avalanche search-and-rescue techniques and medical interventions.

80 its applicability across a broad spectrum of medical interventions.

81 l to improve the precision and efficiency of medical interventions.

82 erinatal outcomes and had lower odds of most medical interventions.

83 ses and be exploited for epidemiological and medical interventions.

84 enerate evidence to inform public health and medical interventions.

85 prediction of future health and response to medical interventions.

86 ens in response to changing environments and medical interventions.

87 and severity of acute illness, and specific medical interventions.

88 icacy and minimize the iatrogenic effects of medical interventions.

89 favorably with many other commonly accepted medical interventions.

90 c diagnosis and the availability of specific medical interventions.

91 on infection, either as infections requiring medical interventions (1.26, 1.02-1.54) or with severe s

92 , along with the context of sparse available medical interventions, a broader understanding of factor

93 Medical interventions aimed at alleviating ER stress in

94 of life and/or length of life) conferred by medical interventions, allows a measure of comparative e

95 se diagnosis of CN1 and in prognosis, prompt medical intervention and appropriate therapy.

96 atients who do not require intensive general medical intervention and are willing to accept voluntary

97 Such individuals may benefit from medical intervention and be good candidates for preventi

98 bone marrow histopathology as they relate to medical intervention and communication.

99 educe the time between clinical analysis and medical intervention and minimize artifacts created duri

100 e has great potential in helping with timely medical intervention and prevention from COVID-19 transm

101 cause rare but severe envenomation requiring medical intervention and sometimes antivenom.

102 etected from clinical cases, the efficacy of medical intervention and the requirements for decontamin

103 g (AST) results are critical for appropriate medical intervention and to either de-escalate or escala

104 These results reinforce the need for medical intervention and treatment to lessen the impact

105 th the cost-effectiveness of widely accepted medical interventions and health policy regulations, but

106 me and diabetes mellitus, responds poorly to medical interventions and is characterized by chronic ve

107 fore, an integrated approach ensuring timely medical interventions and real-time monitoring can help

108 y was thought to be summarily independent of medical interventions and resuscitations, we now know th

109 not sufficient to demonstrate that specific medical interventions and services are effective, as thi

110 mechanisms and tracking patient response to medical interventions and treatments.

111 l edema were reversible and resolved without medical intervention, and best-corrected VA at fluid res

112 ection was observed against severe Covid-19, medical intervention, and death than against other end p

113 use, concomitant medications, dose, latency, medical intervention, and outcome information.

114 aster approval of more efficacious and safer medical interventions, and a more personalized implement

115 source consumption, intensity of nursing and medical interventions, and daily patient-related charges

116 lve in response to changing environments and medical interventions, and information is often modified

117 on of an aging population, growing number of medical interventions, and surging economic burden of he

118 alth and economic consequences of health and medical interventions, and they have been recommended by

119 y in the evaluation of treatment benefits of medical interventions, and use of patient-centered outco

120 who should receive standard treatment after medical intervention; and frail patients with non-revers

121 arker and target for AKI early diagnosis and medical intervention; and imply the clinical relevance o

122 As no effective medical interventions are available, osteoarthritis ofte

123 ging method in modeling and simulation where medical interventions are evaluated using computational

124 irect medical costs alone, demonstrates that medical interventions are more cost effective and, in ma

125 Efficacious medical interventions are needed to help mitigate treatm

126 have profound effects on health and require medical intervention as part of relief operations.

127 e gains in life expectancy from a variety of medical interventions as reported in 83 published source

128 to understand, both for informing potential medical interventions as well as predicting the likely h

129 ting the effectiveness of DNA damage related medical interventions at the cellular level.

130 offering a robust platform for personalized medical interventions based on individual tear film comp

131 ersonal risk and choose the most appropriate medical interventions based on the genotype and environm

132 cause of acute respiratory illness requiring medical intervention because it affects all age groups a

133 erly population who will most likely require medical intervention because of disease activity.

134 None of these episodes required medical intervention beyond routine treatment.

135 Medical intervention bias can be avoided by censoring an

136 an important measure of the effectiveness of medical interventions, but its interpretation requires t

137 gly used to determine the appropriateness of medical interventions, but these 2 approaches use differ

138 A gain in life expectancy from a medical intervention can be categorized as large or smal

139 ealth economic costs, there are currently no medical interventions capable of delaying or halting its

140 All medical interventions carry risks, but the patient often

141 POLST order for medical interventions ("comfort measures only" vs "limit

142 has become increasingly focused on specific medical interventions designed to improve the health of

143 There was no need for medical intervention despite the statistically significa

144 er transformative solutions for non-invasive medical interventions due to their small size and unteth

145 ted adverse events or dysfunctions requiring medical intervention during follow-up.

146 Considerable strides in medical interventions during the acute phase of traumati

147 as ICU admission contrary to POLST order for medical interventions during the last hospitalization of

148 ratory tract infections (RTIs) that required medical intervention, during 12 months of follow-up.

149 However, medical intervention efforts require a rapid and accurat

150 NSAEs requiring medical intervention (eg, paranoia, headache) were simil

151 ination represents the single most effective medical intervention ever developed.

152 Vaccination is the most effective medical intervention ever introduced and, together with

153 ostic practices, and patient attitudes about medical intervention explain only a small degree of regi

154 ost-effective compared with currently funded medical interventions; follow-up for false-positive find

155 s physical activity, weight maintenance, and medical intervention for health needs.

156 neonatal early-onset sepsis (EOS) result in medical intervention for large numbers of uninfected inf

157 brain damage are still unknown, and the only medical intervention for newborns with moderate-to-sever

158 Our study implies that timely medical intervention for reversing transtentorial hernia

159 ention for symptoms with a score >/= 1 and a medical intervention for symptoms with a score >/= 4.

160 andomized placebo-controlled evaluation of a medical intervention for the prevention of trastuzumab-r

161 ant, to allow closer observation and earlier medical intervention for those at risk, and to objective

162 Risk of dialysis and medical intervention for worsening renal function were c

163 ARS-CoV-2 strains, and help inform potential medical interventions for combating COVID-19.

164 ices (DT LVADs) are one of the most invasive medical interventions for end-stage illness.

165 This information could focus psychiatric and medical interventions for high-risk patients.

166 apeutics to define and validate regenerative medical interventions for mammalian hair cell loss.

167 still localized improves patient response to medical interventions for most cancer types.

168 in corneal stroma suggest new approaches to medical interventions for ocular immune diseases and vac

169 Improvements in medical interventions for people with Down's syndrome ha

170 ffered from malignant pain or required acute medical interventions for their pain relief.

171 out the true safety and efficacy of approved medical interventions for this disease and should prompt

172 ip and/or palate (CLP), who undergo numerous medical interventions from infancy, can suffer from life

173 ys had a profound impact on people requiring medical interventions - from vaccine development to canc

174 ved access to GAC, specific gender-affirming medical interventions (GAMIs), and mental health among T

175 However, like all medical interventions, genetic testing has some specific

176 However, medical intervention has been limited to the use of broa

177 e to increase over the next 20 years despite medical intervention has stimulated new research into th

178 As a result, the demand for new medical interventions has increased substantially over t

179 The comparative effectiveness of medical interventions has recently been emphasized in th

180 Most medical interventions have modest effects, but occasiona

181 actor in guiding decisions surrounding early medical interventions, however, literature is inconclusi

182 inimally invasive alternative to surgical or medical intervention; however, given the variety of mate

183 tiveness ratios compared with other accepted medical interventions; however, the analysis for symptom

184 was the most common complication, requiring medical intervention in 192 infants.

185 ve immunity and may be subject to deliberate medical intervention in a way that can control a chronic

186 ossibility may enable prompt recognition and medical intervention in affected patients.

187 ally more optimistic regarding prospects for medical intervention in the aging process and also sugge

188 one of the fastest growing classes of novel medical interventions in areas such as cancer, infectiou

189 portunities for safe and physically adaptive medical interventions in hard-to-reach regions.

190 cribe gut microbiome dynamics in response to medical interventions in preterm, hospitalized neonates.

191 ified screening or for guiding lifestyle and medical interventions in the clinical setting remain to

192 otential to revolutionize minimally invasive medical interventions in the future.

193 An apparent increase in medical interventions in the management of twins may res

194 Microbe, Thanert et al.(1) characterize how medical interventions in the neonatal intensive care uni

195 tiveness well within the acceptable range of medical interventions in the United States.

196 The use of medical interventions in the year preceding angina resol

197 as cost-effective as many routinely accepted medical interventions in this setting.

198 Medical interventions included topical corticosteroids,

199 I, 54.3 to 88.0) against Covid-19 leading to medical intervention (including hospitalization), and 82

200 isorders can be debilitating and may require medical intervention, including alterations in antiretro

201 d lead to increases in hMPV burden under RSV medical interventions, including active and passive immu

202 with cost-effectiveness benchmarks and other medical interventions, including PCS.

203 As improved medical interventions increase the life expectancy of HI

204 Medical interventions increasingly rely on biosensors th

205 ontacts according to study protocol, and (3) medical intervention initiated after FTC due to cardiac

206 nts who are potentially unfit to drive are a medical intervention intended to prevent trauma from mot

207 Urgent surgical and medical intervention is lifesaving.

208 ldren aged >=4 years with signs of glaucoma, medical intervention is the initial consideration.

209 ncy loss, although the effectiveness of many medical interventions is controversial.

210 ent in determining the benefits and harms of medical interventions is the use of well-defined and rel

211 The goal of administering medical interventions is to help patients live longer or

212 -the failure to use effective and affordable medical interventions-is common and responsible for subs

213 Like with all medical interventions, it is important to consider the r

214 tivity, host exploitation, and the impact of medical interventions like drug treatment.

215 additional precautions must be taken before medical interventions like intubation.

216 is therefore important if we are to develop medical interventions limiting expansion rates.

217 However, it has not yet evolved into a medical intervention, mainly because most developed inhi

218 odrama therapy to remediate stress alongside medical interventions marks a holistic approach to enhan

219 , differences in response or access to newer medical interventions may largely account for these tren

220 Economic analyses of medical interventions must also take into consideration

221 main unclear, leading to a lack of effective medical interventions now.

222 Gastrointestinal-wall disruption requiring medical intervention occurred in 1.2%, 2.8%, and 2.6% of

223 Biopsy-related complications requiring medical intervention occurred in 4 of 79 patients (5.1%)

224 g the frequency of bleeding events requiring medical intervention, of hemorrhagic and nonhemorrhagic

225 clinically available therapeutic molecules, medical interventions on CNS disorders are mostly limite

226 Less is known about the impact of specific medical interventions on morbidity such as intellectual

227 d that is simple to use and does not require medical intervention or a strict daily regimen.

228 ow-up, the subretinal fluid resolved without medical intervention or drug interruption in all but 1 p

229 e life-threatening and necessitate prolonged medical intervention or removal from trial.

230 estigation is warranted to determine whether medical interventions or alterations to operative strate

231 which patients or their surrogates authorize medical interventions or involvement in research.

232 e measures, parental supervision, and timely medical intervention, our findings underscore the potent

233 d 100% against rotavirus illnesses requiring medical intervention (P<.001 for each).

234 These results suggest that other medical interventions, particularly the advent of intens

235 Interactions between medical interventions, pediatric hosts, and microbial co

236 ient diaries and hospital charts focusing on medical interventions provoking edematous attack, and th

237 ntervention and without the need for further medical intervention, represents an important goal in th

238 There were no serious adverse events, no medical interventions required to manage effects of psil

239 ge and outcomes measured from randomization: medical interventions, safety (intensive care unit trans

240 An evidence synthesis of a medical intervention should assess the balance of benefi

241 8 months, but the patient has not needed any medical intervention since then.

242 atremia, which were mild and did not require medical intervention; sodium levels returned to normal r

243 Our findings suggest that medical intervention strategies incorporating chronobiol

244 A range of CVEs requiring medical intervention such as new congestive heart failur

245 Allocation of very scarce medical interventions such as organs and vaccines is a p

246 human developmental biology, as well as new medical interventions, such as generating transplantable

247 potential to reduce the need for additional medical interventions, such as intravenous medications g

248 Previous research has shown that specific medical interventions, such as newborn screening for con

249 py compared favorably with other established medical interventions, such as screening mammography and

250 portunities to improve patient outcomes with medical interventions supported through a restored micro

251 scientific studies point to the benefits of medical interventions supporting gender affirmation.

252 In this setting, palliative sedation is a medical intervention that must be considered as part of

253 availability limits access to a cost-saving medical intervention that reduces morbidity and mortalit

254 for years of life saved compared with other medical interventions that are deemed cost-effective.

255 l shapes in Actinobacteria, but also lead to medical interventions that impact human health.

256 Medical interventions that may generate DNPH should addr

257 A second step is to provide medical interventions that provide good value: medical b

258 factors could enable targeted behavioural or medical interventions that reduce the likelihood of earl

259 associated with CAD makes the development of medical interventions that repair and replace diseased a

260 l and evolutionary responses of pathogens to medical interventions that target the symptoms of infect

261 Medical interventions that treat complications of hepati

262 h trisomy 18, the prognosis with and without medical intervention, the factors that have contributed

263 sample source could delay the initiation of medical intervention, thereby reducing the efficacy of a

264 TP has ranged from close observation without medical intervention to aggressive management with corti

265 eng et al. (2014) use prolonged fasting as a medical intervention to decrease IGF-1/PKA signaling and

266 e measures, parental supervision, and timely medical intervention to mitigate their impact on young l

267 of infection plays a crucial role in prompt medical intervention to prevent rapid disease progressio

268 disorder include early diagnosis and skilled medical intervention to prevent the inexorable physical

269 Antiviral drugs are a proposed medical intervention to reduce household transmission of

270 Gene therapy was originally conceived as a medical intervention to replace or correct defective gen

271 Red blood cell (RBC) transfusion is a common medical intervention to treat anemia in very preterm neo

272 In high-income countries, medical interventions to address the known risks associa

273 rare in the population, which makes studying medical interventions to clear persistent virus difficul

274 l experience, helps practitioners best apply medical interventions to clinical practice.

275 n the future might help clinicians tailoring medical interventions to individual needs.

276 tigated as a potential target for developing medical interventions to treat MASLD and MASH.

277 on would be cost-effective relative to other medical interventions under a wide range of assumptions.

278 tients with sepsis and hypotension requiring medical intervention using data from the Multiparameter

279 ffectiveness trials and within the range for medical interventions usually covered by employer-sponso

280 Without appropriate medical intervention, visual impairment may become a gre

281 The cumulative incidence of RTIs requiring medical intervention was 0.029 in the BCG-vaccinated gro

282 istered study in which the assignment of the medical intervention was not at the discretion of the in

283 Medical intervention was required in one ecallantide-tre

284 Because FDC may respond to medical intervention, we have previously recommended tha

285 icipants affected by SAEs or NSAEs requiring medical intervention were summarized descriptively.

286 This study found that gender-affirming medical interventions were associated with lower odds of

287 No excess medical interventions were noted with PHP use.

288 Advances in gene editing are leading to new medical interventions where patients' own cells are used

289 mortality trends reflect the effects of new medical interventions, whereas birth cohort mortality tr

290 increased odds of most adverse outcomes and medical interventions, whereas completed community birth

291 ary youth are now accessing gender-affirming medical interventions, which have been demonstrated to i

292 e directive does not guarantee that unwanted medical interventions will not be forced on us.

293 es in combination (involving both social and medical interventions) will be required to achieve simil

294 Red blood cell transfusion is a common medical intervention with benefits and harms.

295 ne, and exposure to viruses or bacteria, and medical interventions with antibiotics or anti-ulcer med

296 iduals will lead to preventive lifestyle and medical interventions with potential to prevent sudden c

297 iated with poorer recovery and more frequent medical interventions with their relevant adverse effect

298 efined as evident hematochezia that required medical intervention within 15 days after colonoscopy.

299 owing use of nuclear energy and radiation in medical interventions within the last decade, the potent

300 Evidence on how much medical interventions work may change over time.

301 CTs) remain the gold standard for evaluating medical interventions, yet ethical, practical and financ