ライフサイエンスコーパス: preparedness

1 is critical for risk assessment and pandemic preparedness.

2 WS were not used-a major step for Full Earth preparedness.

3 he backbone of climate-related public health preparedness.

4 ve attenuated influenza vaccine for pandemic preparedness.

5 njection, route of injection, and procedural preparedness.

6 r IAVs is an important component of pandemic preparedness.

7 Murray reflect on the importance of disaster preparedness.

8 framework for a tiered approach to hospital preparedness.

9 apid diagnostic tests for emergency outbreak preparedness.

10 seasonal disease burden and ensure pandemic preparedness.

11 ockpiling of bacterial vaccines for pandemic preparedness.

12 ses of poverty and strengthening of outbreak preparedness.

13 serve as a risk assessment tool for pandemic preparedness.

14 ction and an essential component of pandemic preparedness.

15 plication to dengue containment and epidemic preparedness.

16 heightens concerns about pandemic influenza preparedness.

17 acilitate improved surveillance and pandemic preparedness.

18 process and would also enhance our pandemic preparedness.

19 is critical for risk assessment and pandemic preparedness.

20 ach in young children for pandemic influenza preparedness.

21 h radioecology studies and nuclear emergency preparedness.

22 ublic concerning hurricane communication and preparedness.

23 neptunium contamination level for emergency preparedness.

24 s and youth have a strong interest in stroke preparedness.

25 nual vaccination, and enhancing our pandemic preparedness.

26 gricultural sector and for human prepandemic preparedness.

27 ted fields such as bioterrorism response and preparedness.

28 onsiderable investment in pandemic influenza preparedness.

29 ers with a moving target, demanding constant preparedness.

30 shortfall areas in current hospital disaster preparedness.

31 resources for epidemic control and disaster preparedness.

32 and taught other lessons valuable for future preparedness.

33 viding financial support will improve future preparedness.

34 rmulation of vaccines and handicaps pandemic preparedness.

35 HIV crisis, emerging pathogens and pandemic preparedness.

36 rtant utility for public health planning and preparedness.

37 d on improving household earthquake and fire preparedness.

38 djuvant doses and therefore aide in pandemic preparedness.

39 f care and nationwide-level data on facility preparedness.

40 , implying that a sense of agency influences preparedness.

41 lly influencing access to care and emergency preparedness.

42 vaccine production is essential for pandemic preparedness.

43 to understanding pandemic risk and informing preparedness.

44 fluenza virus infection and improve pandemic preparedness.

45 anced portfolio of research and contemporary preparedness, (3) clarify operational responsibilities i

46 al source may be a way to extend multihazard preparedness across a population.

47 (USA PATRIOT) Act and the 2002 Bioterrorism Preparedness Act on US select agent research could be di

48 Preparedness activities were beneficial for identifying

49 In conjunction with pandemic preparedness activities, assessments such as ours can id

50 le, that address topics such as IRB disaster preparedness activities, informed consent, vulnerable po

51 antigenicity, the G218E CVVs should benefit preparedness against the threat of an A(H7N9) influenza

52 ective ZIKV countermeasures and increase our preparedness against this significant public health thre

53 military personnel in a national program of preparedness against use of smallpox as a biological wea

54 nt influenza surveillance programs, pandemic preparedness also involves application of current survei

55 ational community on how to ensure emergency preparedness and build resilient health systems in setti

56 e community-care arm, birth and newborn-care preparedness and careseeking from qualified providers we

57 ide variety of applications in public health preparedness and control.

58 ealth-care providers is necessary to promote preparedness and efficacy in crisis management.

59 vely, through processes such as evolutionary preparedness and enculturation.

60 eir academic trajectories for improving STEM preparedness and enhancing overall academic success.

61 e evaluation of funding priorities involving preparedness and epidemics management.

62 be related to their career selection, their preparedness and experience, the fewer injuries they suf

63 sease and identify the priorities for future preparedness and further research.

64 virus, is crucial for current public health preparedness and future pandemic planning.

65 odels provide important lessons for pandemic preparedness and global health policy.

66 Both heat preparedness and heat response were, on average, more ex

67 in light of the recent emphasis on hospital preparedness and homeland security.

68 We applied the concepts of preparedness and mutuality to help frame the understandi

69 nts and their caregivers through the lens of preparedness and mutuality.

70 central to the development of public health preparedness and prevention strategies.

71 tion, suggesting some focal points for Ebola preparedness and providing direction to inform intervent

72 our results highlight the need for improved preparedness and public health interventions in endemic

73 pread of viral agents requires both adequate preparedness and quick response.

74 ildren and adolescents into general disaster preparedness and recovery plans; working with families r

75 and other countries have improved emergency preparedness and response capabilities, but these action

76 and surveillance tools made possible by past preparedness and response efforts.

77 offer a set of priorities for global health preparedness and response for future infectious disease

78 goal was to examine county-level local heat preparedness and response in 30 U.S. states following th

79 We found that CRSCI has strengthened climate preparedness and response in local public health agencie

80 otential of Internet data streams to improve preparedness and response in outbreak situations by draw

81 th the Office of the Assistant Secretary for Preparedness and Response in the United States Departmen

82 cipate in the largest survey to date of heat preparedness and response in the United States.

83 additional health-care costs of a strategic preparedness and response plan (SPRP) would be if curren

84 f polio importation might be useful to guide preparedness and response planning.

85 a way forward toward robust, targeted local preparedness and response that may serve as a useful exa

86 rtment of Health and Human Services plan for preparedness and response to an influenza pandemic and t

87 sease risk and consequent underinvestment in preparedness and response to infectious disease crises.

88 urveillance and laboratory network, outbreak preparedness and response, extensive communications and

89 ortant lessons on how to strengthen pandemic preparedness and response, few have examined the effect

90 blic health guidance for diphtheria-specific preparedness and response.

91 luenza viruses and lead to improved pandemic preparedness and response.

92 terature, suggesting guidelines for disaster preparedness and response.

93 om the Office of the Assistant Secretary for Preparedness and Response.

94 ermining patient care and hindering outbreak preparedness and response.

95 The attack challenged our medical preparedness and scientific understanding of the epidemi

96 10 IAV is a candidate for influenza pandemic preparedness and should be monitored in wildlife and at

97 ulnerable subpopulations can inform disaster preparedness and the understanding of climate change con

98 Here we evaluate the preparedness and vulnerability of African countries agai

99 ulation immunity, surveillance, and outbreak preparedness) and reviewed current threats and measures

100 dardized equipment for monitoring, emergency preparedness, and airway clearance are outlined.

101 ols in educational resources used, perceived preparedness, and knowledge about antimicrobial use.

102 ficant funding has been committed to vaccine preparedness, and numerous novel candidate influenza vac

103 ifiable factors such as smoking and military preparedness, and other factors such as predeployment ph

104 nt relies heavily on avoidance and emergency preparedness, and recent studies, guidelines, and resour

105 Improving flood predictability, preparedness, and response at seasonal to decadal time-s

106 designed, at least in part, for bioterrorism preparedness applications.

107 European countries is strong, and levels of preparedness are broadly good.

108 mission, where prevention, surveillance, and preparedness are key priorities in previously dengue-fre

109 uence of observation is that it may increase preparedness, as even the control groups changed their b

110 ons on preventive policies and health system preparedness at the state level.

111 ory viruses is also part of emerging disease preparedness, because non-human coronaviruses and paramy

112 Although there is ongoing debate on preparedness before the event and the candor of responsi

113 In general preparedness, behaviour was predicted by factors includi

114 formance, indicating not only improved motor preparedness but also enhanced perception.

115 of macrophages enhances their anti-bacterial preparedness by inducing anti-microbial proteins that re

116 From a public health perspective, pandemic preparedness can be achieved with a plan that builds a n

117 ectancy and home ownership predicted overall preparedness change in both intervention groups longitud

118 erventions for essential newborn care (birth preparedness, clean delivery and cord care, thermal care

119 -33.1 to -50.2), and higher preoperative VAS preparedness (difference, 32.4; 95% CI, 24.9-39.8), and

120 Finally, the residents' sense of clinical preparedness diminished after the work hour limits were

121 logical agents, biological warfare, hospital preparedness, disaster management, and intensive care.

122 sures, which can be useful for public health preparedness during extreme heat events.

123 ainst influenza virus and can guide pandemic-preparedness efforts directed against emerging influenza

124 Preparedness efforts include development of prepandemic

125 ods are most vulnerable can help guide local preparedness efforts.

126 r avian influenza virus subtypes in pandemic preparedness efforts.

127 sment remain essential parts of our pandemic preparedness efforts.

128 We hereby examine the emergency preparedness experience, effectiveness, and challenges o

129 Preparedness for a bioterrorist event affecting the food

130 ntly associated with resident self-report of preparedness for a majority of conditions investigated.

131 d, the community will not have optimized its preparedness for a pandemic.

132 ificant efforts are still required to ensure preparedness for a possible escape of RPV from a laborat

133 is a continued need to improve the state of preparedness for a potential influenza pandemic in the U

134 Here we consider progress to date in preparedness for an influenza pandemic and review what r

135 A critical failure in our preparedness for an influenza pandemic is the lack of a

136 xploring the reasons for our current lack of preparedness for an influenza pandemic.

137 China may be one of the weak links in global preparedness for avian influenza.

138 demonstrate the importance of dermatologist preparedness for bioterrorism, dermatologist knowledge r

139 prediction, surveillance, and public health preparedness for climate change.

140 Public health preparedness for coronavirus (CoV) disease 2019 (COVID-1

141 o strengthen pandemic management, and future preparedness for COVID-19 and other infectious diseases.

142 sted whether national-level data on facility preparedness for diabetes were positively associated wit

143 Secondary outcomes were self-reported preparedness for discharge and frequency of primary care

144 tial to a health care organization's overall preparedness for emergencies.

145 wer all ethical questions; (2) alertness and preparedness for emerging ethical questions during the r

146 ld be used as a model diagnostic to increase preparedness for extreme hydrological events.

147 ial vulnerability is a critical precursor to preparedness for extreme weather events, understanding A

148 tion in water availability, whereas in Nepal preparedness for flood extremes should be the policy pri

149 ighly sensitive and rapid assay will improve preparedness for foodborne botulism and deliberate expos

150 ronments: lay publics with varying levels of preparedness for fully understanding new scientific brea

151 overy research to provide the foundation for preparedness for future outbreaks in addition to the tar

152 To improve preparedness for future pandemics, we have initiated a n

153 e developed into an immunologists' guide for preparedness for future pandemics.

154 control both for poultry and in prepandemic preparedness for humans.

155 demonstrate that genetic forecasting can aid preparedness for impending viral invasions.

156 We conclude that preparedness for intentional outbreaks has the important

157 Predictors of confidence and preparedness for job seeking included ethnicity, nursing

158 s the important added value of strengthening preparedness for natural epidemics, and vice versa.

159 We assessed these plans, to judge Europe's preparedness for pandemic influenza.

160 dents is valuable and suggests that resident preparedness for pediatric anaphylaxis from intravenous

161 ation model for assessing radiology resident preparedness for pediatric life-threatening events in th

162 early influenza vaccination and increase our preparedness for potential pandemics.

163 amount of sleep, fatigue and its impact, and preparedness for practice.

164 atment is available and strict avoidance and preparedness for prompt treatment of allergic reactions

165 ble tools for other jurisdictions to enhance preparedness for public health emergencies.

166 Perceived preparedness for re-entry was analyzed as a moderator of

167 Beliefs about and preparedness for reporting and experiences with colleagu

168 ed on COVID-19 disease burden, institutional preparedness for resumption of elective procedures, pati

169 he knowledge pool necessary for postpandemic preparedness for SARS-CoV-2.

170 helpful to guide intervention strategies and preparedness for the potential resurgence of COVID-19.

171 h emerging pathogens and was a reminder that preparedness for the worst-case scenario, although chall

172 st COVID-19 wave that can inform and improve preparedness for upcoming COVID-19 surges and other futu

173 many competing priorities, without defining "preparedness for what," the task can seem overwhelming.

174 h Regulations (2005), and Pandemic Influenza Preparedness Framework-strives for a safer, healthier, a

175 widespread, for example, inducing states of preparedness from which adaptive clones are better selec

176 rotein encodes several nutrient- and stress- preparedness functions, which may convey fitness benefit

177 siologists Committee on Trauma and Emergency Preparedness has designed a curriculum that can serve as

178 Influenza pandemic preparedness has focused on influenza virus H5 and H7 su

179 allel, the responsibility for natural hazard preparedness has shifted to communities and individuals(

180 Improvements in birth preparedness, hygienic delivery, thermal care (including

181 ce of developing an H10 vaccine for pandemic preparedness.IMPORTANCE Avian origin H10 influenza virus

182 ace-to-face workshops, increased multihazard preparedness in both cultures longitudinally.

183 ng OPV infections, as well as strategies for preparedness in case of accidental or intentional releas

184 epidemics, political and structural pandemic preparedness in China, lessons to be taken from the 1976

185 HSV-2 surveillance could inform HIV preparedness in countries where HIV prevalence among FSW

186 a feasible strategy for increasing epidemic preparedness in Kenya.

187 vaccine highlight the challenges of pandemic preparedness in poorer countries, where substantial disp

188 risk factors could also improve planning and preparedness in public health strategies as part of a pr

189 generation of financial market bubbles, ill preparedness in the face of natural disasters, and overl

190 groups, with more improvement in earthquake preparedness in the Turkish participants and more improv

191 industry met to review the current state of preparedness in the United States for a potential influe

192 s such, there is not an adequate baseline of preparedness in the United States to deal with the poten

193 h participants and more improvements in fire preparedness in the US participants.

194 ults, pointing towards a stress-anticipatory preparedness in Thellungiella.

195 presents a critical barrier to public health preparedness, including the testing of antivirus therapy

196 red to baseline, the primary outcome-overall preparedness-increased significantly in the intervention

197 the 27 associations tested between facility preparedness indicators and outcomes, the only associati

198 As part of CEPI's (Coalition for Epidemic Preparedness Innovations) Lassa vaccine development prog

199 alth Research (NIHR), Coalition for Epidemic Preparedness Innovations, Bill & Melinda Gates Foundatio

200 earch and Innovation, Coalition for Epidemic Preparedness Innovations, National Institute for Health

201 alth Research (NIHR), Coalition for Epidemic Preparedness Innovations, NIHR Oxford Biomedical Researc

202 f available educational resources, emergency preparedness, instruction on the use of self-injectable

203 In addition, few hazard-preparedness interventions have been evaluated longitudi

204 Pandemic preparedness is an important public health priority.

205 inuous global improvement in diagnostic test preparedness is essential for more rapid detection of pa

206 Preparedness is essential for successful response, but b

207 To improve preparedness, it is critical to have some understanding

208 human population and is high on WHO pandemic preparedness list, we assessed the likelihood of reemerg

209 ome visits to promote birth and newborn-care preparedness, made postnatal home visits to assess newbo

210 as insecticide-treated bednets and epidemic preparedness may be needed to prevent adverse pregnancy

211 heir preparedness, yet adoption of household preparedness measures continues to be low, even in high-

212 To increase influenza virus preparedness, much work has been dedicated to the develo

213 Specifically, preparedness, mutuality, and availability of supportive

214 or poliovirus introduction, but the level of preparedness needed improvement.

215 ctional architecture account, emphasizes the preparedness of both infants and parents to respond in s

216 The preparedness of both physicians and nursing professional

217 Indicators of preparedness of countries to manage cardiovascular disea

218 d global health priorities, ageism, the poor preparedness of health systems to deliver age-appropriat

219 We sought to gauge the preparedness of primary care to participate in the deliv

220 managed the pandemic and the resilience and preparedness of the health and social care system.

221 ey will need to play an integral part in the preparedness of their institutions and communities for m

222 ources, and increasing the effectiveness and preparedness of their respective health care systems.

223 ldren and the framework for office emergency preparedness offers insight into current challenges for

224 that X-ray irradiation can support emergency preparedness, outbreak response and front-line diagnosti

225 uses on the future of the Pandemic Influenza Preparedness (PIP) Framework, which was initially establ

226 rocess should inform a comprehensive written preparedness plan targeting the most worrisome scenarios

227 nse Team (FRT) as a part of school emergency preparedness plan were more likely to implement the NPI

228 ately a more robust and efficacious pandemic preparedness plan.

229 nza-preparedness plans should include school preparedness planning and FRTs.

230 Preparedness planning for a high-activity EV-D68 season

231 -Pacific countries have published as part of preparedness planning for an outbreak of influenza in pe

232 Influenza pandemic preparedness planning is critical for reducing human suf

233 However, gaps in preparedness planning remain, and substantial variations

234 ce, basic and applied research, and pandemic preparedness planning that emphasizes prevention, contai

235 Pandemic research preparedness planning with regulatory bodies and dedicat

236 Disaster preparedness planning would be greatly enhanced if fully

237 ect targeted research and pandemic influenza preparedness planning, emphasizing prevention, containme

238 emes commonly discussed by the interviewees: preparedness planning, new lease on life, optimizing sup

239 considered a priority in pandemic influenza preparedness planning.

240 egic vision to strengthen future capacity in preparedness planning.

241 care needs in such settings are critical for preparedness planning.

242 ese advances have required new approaches to preparedness, planning and surveillance, as well as new

243 National preparedness plans for responding to poliovirus introduc

244 Published national pandemic influenza preparedness plans from the European Union countries, th

245 implemented to formally test polio outbreak preparedness plans in the European Region.

246 g a pandemic and the development of personal preparedness plans may be beneficial.

247 National polio outbreak preparedness plans need strengthening.

248 Pandemic preparedness plans should consider that immune protectio

249 Public health influenza-preparedness plans should include school preparedness pl

250 Pandemic preparedness plans will need to include strategies to en

251 provision remains the focus of many pandemic preparedness plans, however, there is considerable uncer

252 rticular need of strengthening were national preparedness plans, initial response, plans for securing

253 has prompted urgent development of national preparedness plans.

254 d vaccine candidates from the human pandemic preparedness program in a chicken challenge model identi

255 hat may be informative to influenza pandemic preparedness programs.

256 outcomes were B-PREPARED score for discharge preparedness (range: 0 [most prepared] to 22 [least prep

257 r know unless those responsible for pandemic preparedness recognize and act on the extraordinary poss

258 Interventions to increase stroke preparedness (recognizing stroke warning signs and calli

259 rview of relevant aspects of EVD disease and preparedness relevant to the radiologic community.

260 ating actions is not definitive and pandemic preparedness remains a political and scientific challeng

261 Proper disaster preparedness requires attention to hospital-level needs

262 Smallpox preparedness research has led to development of antivira

263 aster social support functions as a disaster preparedness resource to mitigate post-disaster depressi

264 d of SARS-CoV-2 is critical to inform future preparedness response plans.

265 ysfunction due to impairments in attentional preparedness, selective attention, and arousal regulatio

266 Using GIS mapping, SAO system preparedness, service delivery, and cost protection were

267 a complete situation analysis of SAO system preparedness, service delivery, and financial risk prote

268 behavioral interventions to increase stroke preparedness should be sensitive to both individual and

269 The focus of pandemic preparedness should include upstream prevention through

270 Pandemic preparedness strategies include H7N9 vaccine development

271 important implications on pandemic influenza preparedness strategies.

272 nal vital statistics to health and emergency preparedness systems in the United States.

273 nly one-third of respondents perceived their preparedness to be adequate in some fundamental principl

274 d quality of care, all of which diminish its preparedness to care for a fifth of the world's populati

275 ved vaccine raise serious concerns regarding preparedness to combat this emerging virus.

276 s in both arms significantly increased their preparedness to consider clinical trials (P < .001), and

277 arine environmental extremes, reveals a lack preparedness to counter the effects of extreme condition

278 tudy, we observed that indicators of country preparedness to deal with CVDRFs are poor proxies for qu

279 ny countries in Africa are stepping up their preparedness to detect and cope with COVID-19 importatio

280 We found a lack of neurologist preparedness to discuss stem cell therapies with patient

281 icine and FP residents report differences in preparedness to manage common adult conditions.

282 Fellows' feelings of preparedness to manage complex trauma patients improved

283 Preparedness to manage complications remains paramount a

284 mplication is that assessments of countries' preparedness to manage CVDRFs should not rely on proxies

285 d close monitoring over time to optimize our preparedness to meet their growing healthcare needs.

286 dual residents' development and ensure their preparedness to provide patient care.

287 erity and this, in turn, guides respondents' preparedness to take protective action.

288 Disaster preparedness training and shift rotations to enable shor

289 major emphasis on Ebola virus disease (EVD) preparedness training at medical facilities throughout t

290 rk has focused on state-based factors (e.g., preparedness, uncertainty), with little attention given

291 In parallel with clinical preparedness, universities have shut down most scientifi

292 ct and respond to cases with two indicators: preparedness, using the WHO International Health Regulat

293 , clinical manifestations, US-based hospital preparedness, vaccine and therapy development, and contr

294 aving children, among others, but absence of preparedness was attributed to fatalistic attitudes.

295 o overcome this limitation in our biodefense preparedness, we have designed monoclonal antibodies (mA

296 mendations on vaccine spacing and procedural preparedness were based on practical necessities, but co

297 problems; coping strategies; and feelings of preparedness were measured.

298 education and a diminished sense of clinical preparedness were noted.

299 ing future stings and attention to emergency preparedness with appropriate prescription of self-injec

300 efore crucial that households increase their preparedness, yet adoption of household preparedness mea