ライフサイエンスコーパス: control program

1 a critical component of an effective malaria control program.

2 e an intensive and costly test-and-slaughter control program.

3 I during implementation of an effective MRSA control program.

4 mponent of this regenerative transcriptional control program.

5 er the amino acid-responsive transcriptional control program.

6 therefore on the cost and effectiveness of a control program.

7 tepartum depression to a parenting education control program.

8 disorder (P =.02) compared with those in the control program.

9 to implement a tuberculin test and slaughter control program.

10 r an efficient, safe and sustainable genetic control program.

11 part of a comprehensive nosocomial infection control program.

12 will be the essential items of an effective control program.

13 a necessary component of a comprehensive TB control program.

14 e, attention-matched, internet-based placebo control program.

15 150 real eggs samples taken from monitoring control program.

16 s following deployment by a national malaria control program.

17 development of safe and efficient biological control programs.

18 n of disease estimates and monitoring of CRS control programs.

19 ta that will be widely accessible to malaria control programs.

20 refore, have implications for ID and malaria control programs.

21 more generally, other vector or insect pest control programs.

22 or models evaluating the impact of chlamydia control programs.

23 m humans and pigs that are of importance for control programs.

24 zed approaches to measuring WASH in trachoma control programs.

25 and will inform the practical operations of control programs.

26 nd thus improve the cost-effectiveness of TB control programs.

27 its impact on the success of ongoing malaria control programs.

28 unctions to ensure the robustness of genetic control programs.

29 mydia trachomatis infection despite enhanced control programs.

30 s an integral component of effective malaria control programs.

31 nt consequences for predicting the impact of control programs.

32 ng the success of ongoing and future malaria control programs.

33 insects are the targets of innovative vector control programs.

34 insecticide resistance management by malaria control programs.

35 erred into other mosquito vectors as part of control programs.

36 is crucial to improve the success of future control programs.

37 te importation could greatly improve malaria control programs.

38 t precautions are important for hospital VRE control programs.

39 tion elimination may be an important goal of control programs.

40 optimizing their implementation in national control programs.

41 g the urgent need for tuberculosis infection-control programs.

42 eservoir and should be considered in malaria-control programs.

43 d play a key role in malaria elimination and control programs.

44 ation of transgenic methodologies to malaria-control programs.

45 ageous for the implementation of insect pest control programs.

46 smodium falciparum is a challenge to malaria control programs.

47 plementation of national and state chlamydia control programs.

48 al for the success of country-based trachoma control programs.

49 g ranges and seem unabated by current vector control programs.

50 s essential to the development of successful control programs.

51 ions and appear to be sufficient for measles control programs.

52 ittle effect on the funding of state tobacco-control programs.

53 ximately 6 percent of these funds to tobacco-control programs.

54 mportance for effective and efficient vector control programs.

55 personnel improve compliance with infection control programs.

56 rious threat to the efficacy of many malaria control programs.

57 hese funds in expenditures for state tobacco-control programs.

58 r capita (range, $0.10 to $15.47) to tobacco-control programs.

59 lamydia-associated syndromes is important in control programs.

60 advantages to both patients and tuberculosis control programs.

61 c nematode species for particular biological control programs.

62 or manage resistance to Bt toxins in insect control programs.

63 tes and cities downgraded their tuberculosis control programs.

64 nce in Latin America is essential to improve control programs.

65 is method practical for nosocomial infection control programs.

66 ts a potential additional benefit of malaria control programs.

67 ntrally important in guiding schistosomiasis control programs.

68 confronts this regimen and threatens malaria control programs.

69 ered in the use of B. bassiana in biological control programs.

70 ation within many neglected tropical disease control programs.

71 deletions, are an emerging threat to malaria control programs.

72 nd setting targets for tuberculosis care and control programs.

73 has therefore become a priority for national control programs.

74 researchers seeking to design effective weed control programs.

75 yram are increasingly being found in quality control programs.

76 ia and arboviral disease vectors by national control programs.

77 ersist over time scales relevant for genetic control programs.

78 s should be weighed in future gastric cancer control programs.

79 ents new and evolving challenges for malaria control programs.

80 g the outcome of therapy, as well as disease-control programs.

81 l inputs and autonomously implement chemical control programs.

82 essential to address challenges faced by CE control programs.

83 on of advanced transgenic strains for vector control programs.

84 mosquito larvicides into integrated mosquito control programs.

85 reat to the effectiveness of schistosomiasis control programs.

86 ecent years and now threatens the success of control programs.

87 nly transgenic Anopheles strains for malaria control programs.

88 n is essential for the success of filariasis control programs.

89 tion of these discoveries into treatment and control programs.

90 These findings can inform surveillance and control programs.

91 B) poses an escalating threat to national TB control programs.

92 .68 [0.16]) compared with adolescents in the control program (1.65 [0.37]; P =.01).

93 up through 1997 in a work-site hypertension control program, 2343 were followed up until 60 years of

94 The California Tobacco Control Program, a large, aggressive antitobacco program

95 dicines program implementation, hypertension control program administration, drug treatment and monit

96 Mosquito control programs aimed at limiting transmission of these

97 In addition, a comprehensive quality-control program and an electronic communication network

98 inical images when used in a routine quality control program and facilitated detection of simulated p

99 ese findings can help strengthen the cholera-control program and serve as the basis for future studie

100 nets (ITNs) are at the forefront of malaria control programs and even though the percentage of house

101 ment funds received and allocated to tobacco-control programs and in the context of other state-level

102 an incentive to invest in infectious disease control programs and infrastructures in and beyond their

103 A, it also expanded infection prevention and control programs and resources.

104 portunity costs that will likely be borne by control programs and stakeholders in the future.

105 e may pose significant challenges to malaria control programs and will demand timely responses to mit

106 not currently used within any international control program, and is illegal within the EU.

107 tegrity in residents, a suboptimal infection control program, and lack of awareness of infections lik

108 rtunity to guide and monitor schistosomiasis control programs, and that in high-transmission settings

109 nation of dosage of azithromycin in trachoma control programs appears to be feasible, using the heigh

110 Among them, light-controlled programming approach, where optical input is

111 vidence indicates that comprehensive tobacco control programs are an effective strategy for reducing

112 Comprehensive community-wide tobacco control programs are considered appropriate public healt

113 Control programs are implemented to mitigate the damage

114 the next few decades if no effective smoking control programs are implemented.

115 Effective infection-control programs are needed to ensure high standards of

116 but the risks and net benefits of biological control programs are often derived from social or cultur

117 ibiotics and the lack of effective infection control programs are often identified as key components

118 Given that TB control programs are resource constrained and that the i

119 Current diagnosis and monitoring of these control programs are solely based on the detection of wo

120 e resistance is a growing threat to mosquito control programs around the world, thus creating the nee

121 resident employees through integrated vector control programs, as well as an ethical responsibility t

122 nstitutions have already begun tight glucose control programs based on a limited number of clinical t

123 pment and utilization of this technology for control programs based on manipulative molecular modific

124 Traditional vector control programs based on strategies from 1950s and 1960

125 le lethal genes are advantageous for genetic control programs based on the sterile insect technique (

126 n addition to weaknesses in the tuberculosis control program, biological factors drive the persistenc

127 to confer long-term benefits with a 10-year control program by pushing the system into a new state w

128 de a means to measure the success of measles control programs by helping to identify the transmission

129 This finding warrants refinement of quality control programs by the manufacturer and users.

130 The control program can be further improved by removing fema

131 ial transcript stability and a translational control program can supply the diversity of protein prod

132 GC infection is essential so that infection control programs can develop better strategies for decre

133 clustering through molecular fingerprinting, control programs can distribute their limited resources

134 number of examples exist in which antibiotic control programs can work when traditional infection con

135 NF-kappaB/Rel factors control programmed cell death (PCD), and this control is

136 re cytoplasmic serine/threonine kinases that control programmed cell death by phosphorylating substra

137 head is evidence that developmental factors control programmed cell death by regulating the expressi

138 acaspases, AtMC1 and AtMC2, antagonistically control programmed cell death in Arabidopsis.

139 and Bcl-2 are a pair of important genes that control programmed cell death, or apoptosis, with Bax be

140 , and ced-9 all can act cell autonomously to control programmed cell death.

141 the well-established form of developmentally controlled programmed cell death.

142 paB/Rel transcription factors are central to controlling programmed cell death (PCD).

143 become clear that the regulatory mechanisms controlling programmed cell death are as fundamental, an

144 Genetic studies have suggested that ced-9 controls programmed cell death by regulating ced-4 and c

145 ases the expression of Bcl-2, a protein that controls programmed cell death in several cell types, in

146 ar that melanoma and nonmelanoma skin cancer control programs combining primary prevention, education

147 ested the effectiveness of the PRO-SELF Pain Control Program compared with standard care in decreasin

148 theory is extended to assess how suboptimal control programs contribute to the evolution of drug res

149 Others have estimated that the median toxic control program costs 146 times more per hypothetical li

150 These results suggest that vector control programs could produce better outcomes by priori

151 nologies into operational vector and disease control programs, (d) transfer of map-based information

152 t studies investigating the effectiveness of control programs date from the 1950s.

153 n our hospital with an established infection control program designed to contain transmission from sy

154 n exists on subsequent risk of infection; as control programs develop, approaches targeting high-risk

155 Administration, the Conference of Radiation Control Program Directors, and the American College of R

156 in the Amhara Region, Ethiopia, the Trachoma Control Program distributed over 124 million doses of an

157 tead be attributed to the absence of disease control programs due to the disruption of health service

158 ean =34.4%) resulting from U.S. NOx emission control programs during the same time period.

159 ve important implications for TB and tobacco control programs, especially for children in settings wi

160 , or twice-weekly per the local tuberculosis control program), followed by 4 mo of twice-weekly rifab

161 mulations suggest that the planned emissions control program for O3 precursors will not diminish the

162 described here could be selected by the NWS Control Program for testing at large scale in the produc

163 se hold promise for use in a pheromone-based control program for this species, an invasive pest in th

164 ty for counties considering surveillance and control programs for Ae. aegypti and Ae. albopictus.

165 for Bangkok and suggests that prevention and control programs for drug users need to be expanded thro

166 assessed in training and included in quality control programs for HIV-1 genotyping.

167 future challenges will be to develop quality control programs for molecular methods and to continue t

168 ely enhance the efficacy of surveillance and control programs for this disease vector of substantial

169 ct can be restrained via mosquito population control programs, for tick-borne viruses only vaccinatio

170 Although trachoma control programs frequently use the World Health Organiz

171 Models designed to predict the impact of control programs generally infer a relationship between

172 changes automatically managed by the version control program Git.

173 The National Diabetes Prevention and Control Program has a dynamic and evolving scientific fo

174 ion in ARF recurrence indicates that the RHD control program has improved secondary prophylaxis; a de

175 This training and quality control program has resulted in a large number of surgeo

176 California's Tobacco Control Program has touched the life of every California

177 The expansion of tuberculosis control programs has been limited by the lengthy and cum

178 Integrated research and control programs have begun, but improved control of lei

179 programs can work when traditional infection control programs have failed.

180 Major disease-control programs have greatly reduced both disease and i

181 ion against HBV, blood safety, and infection-control programs have greatly reduced the burden of HBV

182 tion therapies (ACTs) across Africa, malaria control programs have increasingly relied on standardize

183 t, as defined by the Central African malaria control program: high fever (odds ratio (OR) = 3.25, 95%

184 racted from clinical records from Sindh AIDS Control Program HIV Clinic (Shaikh Zayed Childrens Hospi

185 nfection could present a major challenge for control programs if its infectiousness is confirmed.

186 xic air contaminant (TAC) identification and control program in 1984, the California Air Resources Bo

187 ning and evaluation of the hepatitis B and C control program in Malaysia.

188 ing all TB cases notified to the National TB control Program in Paraguay during the period 2009-2018.

189 rategies, notably an industry-led Salmonella control program in poultry in the United Kingdom.

190 We conducted a three-phase control program in Tumbes, Peru, to determine whether re

191 s an essential component of the official FMD control programs in both endemic and disease-free settin

192 Implementation of anemia control programs in developing countries requires carefu

193 thogenesis and their relevance in alphavirus control programs in endemic areas.

194 We evaluated state expenditures for tobacco-control programs in fiscal year 2001 in the context of t

195 n the United States, the success of emission control programs in optimal ozone reduction is disputabl

196 's findings and the implications for tobacco control programs in the US, which are currently poorly f

197 onal data from nine national schistosomiasis control programs (in eight countries in sub-Saharan Afri

198 Key components of an effective infection control program include the following: 1) pre-exposure i

199 Narrowly focused control programs including homestead production, plant b

200 Our assessment will inform dog control programs including monitoring, education, veteri

201 mportant for the design of successful larval control programs including those using predatory mosquit

202 A control program, including a disease register, in the No

203 re is an urgent need for effective infection control programs, including active surveillance componen

204 itochondrial function and associated quality control programs, including mitochondrial-specific autop

205 influences on different stages of biological control programs, including natural enemy selection, eff

206 ons of these findings for large-scale tsetse control programs, including suppression or eradication,

207 at thwart development of optimally effective control programs, including vaccine development.

208 Results suggest that, under current control programs, infections in humans result from spill

209 A gonorrhea control program initiated in 1967 in registered female s

210 blocks HCV replication through translational control programs involving PKR and P56 to, respectively,

211 A large and aggressive tobacco-control program is associated with a reduction in deaths

212 of MDR strains is low and a well-functioning control program is in place, a small subpopulation of a

213 A control program is managed cooperatively between the gov

214 While comprehensive expansion of TB control programs is desirable, logistical challenges are

215 An important question for chlamydia control programs is the extent to which finding and trea

216 xic areas of tumors activate a translational control program known as the integrated stress response

217 of the second molar and a three-visit plaque control program may have a beneficial effect on PD level

218 Malaria control programs may consider PCR testing to guide asymp

219 tment strategies in national schistosomiasis control programs more frequently, with local epidemiolog

220 Our findings suggest that RIP3 controls programmed necrosis by initiating the pronecrot

221 Vector control programs need to be expanded to curtail new infe

222 aria started to support the National Malaria Control Program (NMCP) in 2007.

223 015 represent a dilemma for National Malaria Control Programs (NMCPs) that are still far from malaria

224 O) in 2010, Viet Nam's National Tuberculosis Control Program (NTP) began using GeneXpert instruments

225 g cells to identify the core transcriptional control program of lineage specification.

226 The RNA-binding proteins PTBP1 and PTBP2 control programs of alternative splicing during neuronal

227 onine protein phosphatase, has been shown to control programs of gene expression in skeletal muscles,

228 Together these data reveal a tightly controlled program of changing IL-4 responsiveness that

229 ngs indicate that SNF5 mediates a temporally controlled program of cyclin-dependent kinase inhibition

230 ing neuronal differentiation, an exquisitely controlled program of signal transduction events takes p

231 The diet was a controlled program of underfeeding during which meals we

232 n-polar butyrate groups between amides allow controlled programming of supramolecular hydrogen bondin

233 rovement compared to the parenting education control program on all three measures of mood at termina

234 binations that may enhance the impact of STH control programs on T. trichiura, without compromising e

235 uld be part of any chlamydial prevention and control program or health plan.

236 t go on to form the basis of national vector control programs or more broadly support local healthcar

237 (95% CI, 13.8%-33.2%) of adolescents in the control program (P =.007).

238 tended to invest less per capita in tobacco-control programs (P=0.007), as did tobacco-producing sta

239 roduce TCVs as part of an integrated typhoid control program, particularly in light of the increasing

240 set to develop biological control-based pest control programs, particularly on an area-wide basis, th

241 r of the nuclear receptor superfamily, which controls programs regulating cell proliferation, differe

242 Neglected tropical disease (NTD) control programs rely on an army of volunteers, or commu

243 prevention in children because tuberculosis control programs rely predominantly on presentation of s

244 calendar years and that the current disease control program remains applicable.

245 d infections for the patient, clinician, and control program remains unclear.

246 Budgetary constraints in tuberculosis (TB) control programs require streamlining contact investigat

247 ectional survey data, results suggest anemia-control programs should address both iron deficiency and

248 d could help to determine in which countries control programs should be a priority.

249 We conclude that malaria control programs should focus on increasing bed-net cove

250 CDI control programs should include prospective access to C.

251 Physicians and tuberculosis control programs should incorporate questions about trav

252 Furthermore, this comparison dictates that control programs should place less effort in vaccination

253 ng those due to the effects of state tobacco control programs, smoking restrictions, and differences

254 pathogens is generally useful for infection control programs, specific data supporting use of rapid

255 The rule implies that control programs targeted at the "core" 20% group are po

256 e nuanced planning and evaluation of malaria control programs than heretofore.

257 The proposed model outlines a quality control program that allows lipid exchange at low endoso

258 participation in a multidisciplinary weight-control program that includes aspartame may facilitate t

259 A control program that screens female recruits who are 25

260 ulature, implying the existence of a quality control program that targets defective ECs.

261 ought to determine whether a multifaceted BP control program that uses a web-based health portal (Hea

262 tion with PIV may help explain why infection-control programs that emphasize symptoms are effective a

263 Leishmaniosis control programs that include a combination of coordinat

264 While we do not suggest stopping control programs that rely on non-immunizing controls, o

265 he feasibility of integrating deworming with control programs that target other neglected tropical di

266 In the frame of an official control program the validation study of a molecular test

267 ons and implementation of a rigorous quality control program (the later ensured that changes in analy

268 t that demonstrates the effectiveness of HIV control programs, the HCV incidence remains high.

269 tobacco settlement is being used for tobacco-control programs, the settlement represents an unrealize

270 Evolution persistently undermines vector control programs through insecticide resistance.

271 We demonstrate the value of centralised CPE control programs to increase case ascertainment, resolve

272 nization with CPO, which can guide infection control programs to limit the spread of these organisms.

273 xisting evidence-based, systems-wide tobacco control programs to prevent initiation and foster cessat

274 ance of antibiotic stewardship and infection control programs to prevent this disease in children.

275 Trachoma control programs to reduce risk of scarring are urgently

276 These data can inform local prevention and control programs to reduce the HCV mortality burden.

277 ory and immunobiology, with implications for control programs;to review existing data on these key qu

278 How neuronal growth control programs tune dendritic arborization to ensure f

279 investigated optimal vaccination and bednet control programs under two endemic settings with varying

280 We accomplish this hardware embedded self-control programming using normally closed membrane valve

281 Surveillance, a key component of screwworm control programs, utilizes traps baited with rotting liv

282 ion of settlement funds allocated to tobacco-control programs varied from 0 to 100 percent and was st

283 es in the rates after 1988, when the tobacco-control program was approved, and after 1992, when the p

284 ence of these diseases, California's Tobacco Control Program was established in 1989 specifically to

285 ealing-abutment connection, a 2-month plaque control program was initiated.

286 through sample vial made in-house and action control programming was assembled to monitor carboxylic

287 the settlement revenue allocated to tobacco-control programs was the primary determinant of the leve

288 To design a chlamydia-control program, we conducted a large survey of women in

289 of water injected into underground injection control program wells ranged from 206.8 to 305.4 Mm(3),

290 public and the effects of a governmental STD control program were reviewed.

291 As a result, anemia control programs were either not initiated or stopped in

292 Hypertension awareness, treatment, and control programs were initiated in the United States dur

293 for drug resistance surveillance in leprosy control programs when combined with similar molecular te

294 ations and consideration of their use in STH control programs where T. trichiura is present.

295 of the private sector in developing malaria control programs, which can include extensive collaborat

296 for CT, training of technicians, and quality control programs will reduce the necessary radiation dos

297 Eighteen-month behavioral weight control program with 3 groups: long-bout exercise (LB),

298 strained the resources available to mosquito control programs within its current range.

299 icides are critical to the success of vector control programs worldwide.

300 ener aspartame to a multidisciplinary weight-control program would improve weight loss and long-term