ライフサイエンスコーパス: amendment

1 because of delay in approval of the protocol amendment).

2 rotocol was extended to 52 weeks by protocol amendment.

3 jection events followed by a single nutrient amendment.

4 nk species- and community-level responses to amendment.

5 (biosolids) is applied to farmland as a soil amendment.

6 ign for use as carbon sequestration and soil amendment.

7 sion cohort recruited later after a protocol amendment.

8 on of soil N(2)O emissions following residue amendment.

9 th a carbon sequestration technique and soil amendment.

10 in a 28-day treatment cycle after a protocol amendment.

11 s application to agricultural land as a soil amendment.

12 evere systemic mastocytosis after a protocol amendment.

13 creases ranged from 0.03 to 0.31 Mg C per Mg amendment.

14 s that produced CH(4) without exogenous H(2) amendment.

15 re strongly with time than in response to AC amendment.

16 f metal(loid)s mainly as a result of compost amendment.

17 cells in the sediment relative to a glucose amendment.

18 al irradiation was added later as a protocol amendment.

19 and compared with the 2006 UAGA and its 2007 amendment.

20 n of advertising as a violation of the First Amendment.

21 lar in all treatments, but was hastened by P-amendment.

22 ating agents and novel methods for phosphate amendment.

23 by Ash amendment, and not affected by CaSiO3 amendment.

24 ely 20-30 cm below the depth of the original amendment.

25 nteractions were dramatically altered by EVO amendment.

26 a lymph node were later allowed with a study amendment.

27 weeks was added later (1:1:1), in a protocol amendment.

28 model to assess long-term implications of AC amendment.

29 dule was added to the study after a protocol amendment.

30 67% soil NO emission reductions postbiochar amendment.

31 face waters in response to the Clean Air Act Amendments.

32 following the sequential gavage of phosphate amendments.

33 both conventionally and with residuals-based amendments.

34 out the need for expensive infrastructure or amendments.

35 ulate fractionation during the 2007 and 2008 amendments.

36 1990 Declaration of Helsinki and subsequent amendments.

37 d microflora introduced with organic compost amendments.

38 cide/fertilize formulations or sludge/manure amendments.

39 has the government initiated any legislative amendments.

40 resources such as composts are used as soil amendments.

41 both sites shifted in response to crude MCHM amendments.

42 ed using microcosm experiments and substrate amendments.

43 nano- and microscale zero valent iron (ZVI)] amendments.

44 changes of aggregate stability under manure amendments.

45 group (1.0% vs. 0.2%, P=0.04; after protocol amendment, 0.5% vs. 0.3%, P=0.45).

46 Due to protocol amendments 12 further patients were enrolled.

47 Following carbon amendment, 16S rRNA analysis of temporally separated sam

48 follow-up was included in the third protocol amendment; 28 sites randomizing 709 of the 1,006 patient

49 vittata phytase has potential use as a soil amendment, a transgenic tool, or as a feed additive supp

50 The Food and Drug Administration Amendments Act (FDAAA) mandates timely reporting of resu

51 The U.S. Food and Drug Administration (FDA) Amendments Act of 2007 mandated that the FDA develop a s

52 c studies submitted to the FDA since the FDA Amendments Act of 2007, of which 92 had at least 1 adole

53 adolescent indication studied since the FDA Amendments Act of 2007.

54 AC and TS amendments, added at 2-7% of the dry weight of sediments

55 free Cu ions, but this effect was negated by amendment addition.

56 The amendment also reduced the PCB uptake in fish by 87% aft

57 Surfactant amendment also significantly enhanced the removal of alk

58 s unclear whether long-term intensive manure amendments alter soil aggregates stability and whether G

59 After a protocol amendment, an additional 117 patients were randomly assi

60 olved with public health, agriculture, First Amendment and other legal considerations, and internatio

61 a soil ecosystem receiving long-term sludge amendments and a reference soil ecosystem receiving only

62 cing mineral N fertilization, organic matter amendments and reduced-till coupled with straw return, e

63 ng of the literature, and numerous rounds of amendments and refinements resulted in models that are s

64 Husk amendment, partially alleviated by Ash amendment, and not affected by CaSiO3 amendment.

65 ions, cover crops and green manures, organic amendments, and conservation tillage, also have generall

66 l effects need to be further evaluated in an amendment- and site-specific manner.

67 required to determine what type and level of amendment application are most effective for stimulating

68 A protocol amendment (applied in June, 2008, after 2096 patients ha

69 ions between Clinical Laboratory Improvement Amendments-approved commercial clinical laboratories, as

70 to the implementation of the Balanced Budget Amendment are expected to erode further hospital support

71 All of the amendments are caused by changing clinical scenarios bro

72 tudy showed that the secondary effects of AC amendments are dependent on the dose and the sediment ch

73 Chelating amendments are proposed to enhance Cu phytoextraction by

74 it produces biochar that is a valuable soil amendment as well as bio-oil and pyrolysis gas (py-gas)

75 0.1% of sequences), grew rapidly on all DOC amendments at both depths, but with different substrate

76 her the addition of iron- and aluminum-based amendments (at 5 different rates) during the anaerobic d

77 Since passage of the Clean Air Act and its Amendments, atmospheric deposition of SO2 in this region

78 Chars from wildfires and soil amendments (biochars) are strong adsorbents that can imp

79 verall, our results demonstrate that acetate amendment can be an effective strategy for V removal, an

80 This study demonstrates that while Si-rich amendments can affect rice uptake of As, the kinetics of

81 Collectively, the data suggest that compost amendments can help add value to lettuce by increasing i

82 A large body of literature shows that AC amendments can reduce bioavailability of sediment-associ

83 Triclosan amendment caused all of the Bacteria and Archaea communi

84 Nitrate amendment caused an 18-fold smaller SRB population, but

85 The ZVI amendments caused a decrease in As bioaccessibility, wit

86 P<.001), and Clinical Laboratory Improvement Amendment certification (P = .006).

87 e done in a Clinical Laboratory Improvements Amendments certified laboratory facility.

88 credited and Clinical Laboratory Improvement Amendments-certified clinical laboratory, we quantified

89 a can obtain Clinical Laboratory Improvement Amendments-certified clinical molecular genetic results

90 ormed in our Clinical Laboratory Improvement Amendments-certified College of American Pathologists-ac

91 tested in a Clinical Laboratory Improvement Amendments-certified laboratory for mutations in both KR

92 tus of the Clinical Laboratories Improvement Amendments (CLIA) and their continuing impact on physici

93 ate on the Clinical Laboratories Improvement Amendments (CLIA) and their impact of office practice.

94 arisons in a Clinical Laboratory Improvement Amendments (CLIA) compliant setting enables a single ass

95 l within the Clinical Laboratory Improvement Amendments (CLIA) criterion for uric acid analysis (+/-1

96 eages in the Clinical Laboratory Improvement Amendments (CLIA) environment.

97 ollowing the Clinical Laboratory Improvement Amendments (CLIA)-approved CLSI standard agar dilution m

98 e trial in a Clinical Laboratory Improvement Amendments (CLIA)-waived setting in comparison to bacter

99 auxite residues with and without restoration amendments (compost and gypsum addition, revegetation) i

100 ted with C : N ratios, but generally residue amendment could not reduce soil N(2)O emissions, even fo

101 Because the Second Amendment curtails legislation broadly restricting firea

102 Although all three amendments decreased Cu sorption to roots, which should

103 Column experiments with a peat amendment delayed PAH breakthrough.

104 After 12-32 months of field aging, all AC amendments demonstrated effectiveness for reducing pore

105 c materials, is an increasingly popular soil amendment designed to improve soil fertility.

106 antify transcript reallocation following DSW amendment, differed for diatoms and haptophytes, reflect

107 Electron donor amendments, different redox conditions (anaerobic, aerob

108 e application to raise soil pH, however this amendment does not remedy subsoil acidity, and liming ma

109 Per protocol amendment, doses for 24 patients who initially received

110 s each were switched from acetate to lactate amendment during either iron (earlier) or sulfate (later

111 trogen-fixing conditions under various metal amendments (e.g., Mo or V) revealed the discrete complem

112 as the mineral pyromorphite using phosphate amendments (e.g., rock phosphate, phosphoric acid, and a

113 Expressed as Mg C per Mg amendment, effective C increases ranged from 0.03 to 0.3

114 n influence bioavailability testing and soil amendment effectiveness.

115 AC amendments efficiently reduced PCB bioavailability deter

116 Furthermore, the naphthalene amendment enhanced the proportion of active strain CJ2 c

117 Increasing SOC through straw organic amendments enhances PIC accumulation in the arid croplan

118 on and arrangement, forced aeration, organic amendments, etc.) to improve the efficiency of Se remova

119 ption capacity of caps with activated carbon amendment even at a lower dose of 0.2% demonstrated a si

120 27-year-long inorganic fertilizer and manure amendment experiment in a maize (Zea mays L.) double-cro

121 esent the results of full-factorial nutrient amendment experiments conducted at the eastern boundary

122 SRB were confirmed as a methylating guild by amendment experiments showing significant sulfate stimul

123 l iron acquisition is poorly understood, but amendment experiments using model ligands show they can

124 ozole as compared with tamoxifen, a protocol amendment facilitated the crossover to letrozole of pati

125 The tested amendments (FeCl3, Al2(SO4)3, and Al-rich water treatmen

126 Following the protocol amendment for cardiovascular safety, only one further th

127 s highlight the valuable services of biochar amendment for CH4 control from paddy soil in a future th

128 a promising P nanofertilizer and an in situ amendment for contaminated site remediation.

129 The results showed soil amendment for enhanced agricultural production to be the

130 Se-enriched S. pinnata is valuable as a soil amendment for enriching broccoli and carrots with health

131 Activated carbon (AC) sediment amendment for hydrophobic organic contaminants (HOCs) is

132 for using S(0) as environmentally favorable amendment for phytoextraction of metal-polluted soils.

133 n response to emulsified vegetable oil (EVO) amendment for uranium bioremediation.

134 y) indicating that the efficacy of phosphate amendments for reducing Pb RBA may be predicted using IV

135 rbon and other sorbents as potential in situ amendments for remediation of mercury and methylmercury

136 lts, CFH-12 and oxidized Fe(0) are effective amendments for the stabilization of Sb in shooting range

137 sulfate reducing conditions over subsequent amendments, from 20 days in the 2007 experiment to 4 day

138 (99m)Tc was highest where continuous acetate amendment had resulted in sulfate-reducing conditions.

139 All amendments had a deleterious effect on the growth of A.

140 N amendments had no effect on CO2 flux and increased N2 O

141 Both amendments had only small impacts on microcosm surface w

142 It is concluded that the four soil amendments had variable but never strongly deleterious e

143 Soil biochar amendment has been proposed as a promising tool to mitig

144 Soil biochar amendment has been shown to significantly decrease N2O e

145 (3)AsO(3)(0) share an uptake pathway, silica amendments have been proposed to decrease As uptake and

146 To date, work hour amendments have not changed the annual rate of attrition

147 l practices, such as the application of soil amendments, have the capacity to enhance disease suppres

148 eviously as not changing with this nano-TiO2 amendment; herein, we also found that some selected soil

149 After an early amendment, HR-positive, pN0-1 patients with RS </= 11 we

150 of 2011 data, the CQI team proposed specific amendments implemented over 2012: the use of nontraditio

151 illate, but was correlated with carbohydrate amendment in Cedars-specific minimal media.

152 ugh manure from dairy farms is a common soil amendment in crop production, its impact on the soil mic

153 ot due to decreased marijuana use, but to an amendment in marijuana's illegal status.

154 itor the transport of mZVI during subsurface amendment in quasi real-time.

155 sorbing additional HOCs some years following amendment in the field.

156 ive engineered materials that can be used as amendments in barrier systems or geosynthetic liners.

157 owed evaluation of the microbial response to amendments in columns that received an influx of natural

158 The effectiveness of amendments in reducing bioaccumulation was well-correlat

159 The addition of organic amendments in the form of alfalfa hay or alfalfa meal wa

160 easing the dosages of common water treatment amendments including quicklime (Ca(OH)2) and dolomitic l

161 ted As in response to different Si-rich soil amendments including rice husk, rice husk ash, and CaSiO

162 tida preferred biochar compared to all other amendments including the unamended soil.

163 on commercial dairies and found that manure amendments increased soil C stocks by 19.0 +/- 7.3 Mg C

164 and escalating with the 1962 Kefauver-Harris amendments, increasing pressure has been placed on pharm

165 Nutrient amendment incubations skewed N/P ratios, elucidating nut

166 oncentration reacted with cement and FeSO(4) amendment indicated correlation of Hg and Fe, supporting

167 These results indicate that manure amendment induced a bloom of certain antibiotic-resistan

168 roarray in a Clinical Laboratory Improvement Amendments/International Organization for Standardizatio

169 In situ activated carbon (AC) amendment is a new direction in contaminated sediment ma

170 The application of biochar as a soil amendment is a potential strategy for carbon sequestrati

171 Activated carbon (AC) amendment is a recently developed sediment remediation m

172 Nutrient amendment is a widely accepted practice in oil-spill bio

173 Biochar soil amendment is advocated to mitigate climate change and im

174 ong-term carbon cycle, and its use as a soil amendment is promoted as a C sequestration strategy (bio

175 on surface) and its applicability as a soil amendment is still unclear and does not allow the establ

176 Although in situ remediation with phosphate amendments is a viable option, the scope of the problem

177 g assay in a Clinical Laboratory Improvement Amendments laboratory.

178 tes on the Clinical Laboratories Improvement Amendments, laboratory utilization, and office diagnosis

179 e no fertilization (CK), low and high manure amendment (M1, M2), chemical nitrogen, phosphorus and po

180 n (maize-derived carbon) and external manure amendment (manure-derived carbon) to the total soil orga

181 e secondary ecotoxicological effects of soil amendment materials that can be added to contaminated so

182 Thus, in situ sediment sorbent amendments may be able to reduce the risk of biotic Hg a

183 However, the use of chemical amendments may offer advantages in terms of treatment pr

184 cosystems and according to this study the AC amendments may reduce this transport.

185 In situ amendment of activated carbon (AC) to sediments can effe

186 d directly in the initiation, execution, and amendment of arm and hand movements.

187 pared to the unamended soil, except the 0.5% amendment of biochar.

188 Amendment of biosolids further suppressed mineralization

189 Cysteine, DOC, or trolox amendment of citrate-AgNPs differentially modified parti

190 Fe(II)-amendment of nonstoichiometric magnetite (Fe(II)/Fe(III)

191 wildfires, soot deposition, and intentional amendment of pyrolyzed waste biomass (biochar).

192 Amendment of sediments with either Fe(III) oxyhydroxide

193 The third priority is an amendment of the FCTC to include an ambitious global tob

194 Amendment of the nutrient deficiency would intuitively a

195 Policy changes include amendment of the Stafford Act to include gradual geophys

196 esent in WWTP and paper fiber biosolids upon amendment of these materials with soil that had been sow

197 s under the Clinical Laboratory Improvements Amendments of 1988.

198 Experiments with simultaneous amendments of both (13)C-labeled dissolved inorganic car

199 Amendments of C and N and their interactions significant

200 Amendments of only 4 mg L(-1) SRHA and SDBS decreased oo

201 164 are new function predictions and 29 are amendments of previously proposed assignments.

202 Adding soil amendments (olivine, hematite) to the paddy soil had no

203 anding of the systematic effects of nutrient amendment on biodegradative microbial populations or the

204 lacebo (cohort 1); however, after a protocol amendment on Nov 19, 2009, patients were switched in a m

205 The effect of surfactant amendment on soil (geno)toxicity was also evaluated for

206 red (PAC) or granular (GAC) activated carbon amendment on soil microbiology and pollutant biodegradat

207 hese deposit feeders, absolute effects of AC amendments on growth and energy reserves were not signif

208 ere we studied the effect of iron (Fe)-based amendments on the mobility of Sb in contaminated soil fr

209 The effects of the amendments on the suite of prokaryotic species and the e

210 Pb and unreacted phosphate arising from the amendment or from assay constituents.

211 ese recommendations conflict with the Second Amendment or previous rulings of the U.S. Supreme Court.

212 n of endogenous PP2A activity by inhibition, amendment, or depletion confirmed its role in CDK8 activ

213 With multiple harvests and PR amendments, our results showed As removal by PV from con

214 ctions promulgated by the 1990 Clean Air Act Amendments, our results suggest that other acid-affected

215 standard (TB-117) has undergone significant amendments over the past few years, and TDCIPP has been

216 creased by 12.67-63.30% with the use of soil amendments (p </= 0.0001).

217 induced yield losses were alleviated by Husk amendment, partially alleviated by Ash amendment, and no

218 A protocol amendment permitted patients in the everolimus group to

219 ed with 0.5, 2, and 5% of the following four amendments: powder activated carbon (PAC), granular acti

220 e Cu increased endodermal development, while amendments prevented this effect.

221 n kinetics and the effects of redox mediator amendment provided insights into the factors affecting t

222 C. minuta amendment reduced weight gain and altered the microbiome

223 All amendments reduced the inhibition of luminescence to V.

224 to examine the effects of different acetate amendment regimes and reoxidation scenarios over 55 days

225 Two different levels of organic matter amendment resulted in different magnitudes of ammonium a

226 Use of amendments resulted in greater C storage compared to con

227 uence of the implementation of Clean Air Act Amendments, results in 84,000 (30,000-164,000) more live

228 y decision to adopt either an open or closed amendment rule occurs following the committee's proposal

229 ion at an optimum level of 15% compost (w/w) amendment showing good growth and minimal shoot accumula

230 C amendments significantly enhanced CO2 flux, reduced N2 O

231 cs of the sedimentary environment and the AC amendment strategy (e.g., dose and particle size).

232 robial community responded quickly to the OM amendment suggesting that estuarine sediments can buffer

233 Phosphoric acid was the only amendment that could significantly decrease Pb bioaccess

234 ds for inferring hierarchies, (2) propose an amendment that improves the performance of a popular met

235 We added organic soil amendments that range along a gradient of carbon labilit

236 Except with DOC amendment, the combined toxicity of AgNPs and released A

237 of toxicity has been accelerated by nutrient amendment, the use of chelating agents and novel methods

238 result of the 1987 Montreal Protocol and its amendments, the atmospheric loading of anthropogenic ozo

239 U.S. biosolids being applied on land as soil amendment, this study warrants more research into the oc

240 After the amendment to add bevacizumab, the median survival time h

241 ncerns over nephrotoxicity led to a protocol amendment to an open-label design with reduced CsA troug

242 Lactate amendment to aquifer sands containing 91 mg kg(-1) P-ext

243 rooting zone, often requiring addition of an amendment to assist plant growth.

244 of 2, allowing for future scenarios under AC amendment to be estimated.

245 In rural areas, it can be used as a soil amendment to increase soil fertility.

246 Activated carbon (AC) amendment to polluted sediment or soil is an emerging in

247 biochars, and >99% for ACs with 5% by weight amendment to sediment.

248 The results show the potential for AC amendment to sequester PAHs in petroleum-impacted sedime

249 Furthermore, Husk was the only tested Si-amendment to significantly decrease grain As concentrati

250 Biochar amendment to soil is a potential technology for carbon s

251 Furthermore, in the UK, amendment to the current legislation will be required.

252 ition Labeling and Education Act of 1990--an amendment to the Federal Food, Drug, and Cosmetic Act--p

253 rabundant snow geese, the Conservation Order amendment to the International Migratory Bird Treaty was

254 y support consideration of this method as an amendment to the NCCLS M38-A standard for the testing of

255 mas) and 63 from the RICOVER-noRTh study (an amendment to the RICOVER-60 study in which patients rece

256 same immunochemotherapy but without RT in an amendment to the RICOVER-60 trial (RICOVER-noRTh) in a p

257 Experts proposed amendments to adult GALS, achieving consensus by modifie

258 fective biological control, to blend organic amendments to foster disease suppression, to monitor env

259 ective biological control and use of organic amendments to foster disease suppression.

260 ion (14%), avoided conversion (11%), compost amendments to grasslands (9%), and wetland and grassland

261 arbons (ACs) and two biochars were tested as amendments to reduce the availability of aged polychlori

262 Activated carbon (AC) amendments to sediments were tested for nontoxic, second

263 sed to test the cost-effectiveness of making amendments to the care pathway.

264 ening of a nearby coal-fired power plant and amendments to the Clean Air Act.

265 I add two friendly amendments to the target article: (1) The leftist moral

266 ndependent mental health advocacy, under the amendments to the UK Mental Health Act of 1983.

267 ion was also largely independent of the fuel amendment type, based on molecular analysis of 16S rRNA

268 g-term projection of the effectiveness of AC amendment using the model shows that the effects of AC p

269 te under ambient conditions without chemical amendments, value-added organic compounds and high rate

270 An unexpected outcome of the Ca amendment was a change in watershed hydrology; annual ev

271 The decrease in Pb RBA following phosphate amendment was attributed to the formation of poorly solu

272 Husk amendment was likely effective at decreasing grain As an

273 NPs and released Ag under cysteine or trolox amendment was lower than of AgNO3 alone.

274 n core coupled with restoration of 1 ha with amendments was close to carbon neutral.

275 under natural field conditions and fresh AC amendments was compared for one soil and two sediments.

276 evated CO2 , 6-13 of which with nitrogen (N) amendment, was examined.

277 nt with (15)NH4NO3, NH4(15)NO3, or Na(15)NO2 amendments, we found distinct (15)N abundances in NO, in

278 among the soil types examined unless carbon amendments were added.

279 s marketed before and after 1 May 2002, when amendments were made to the drug rules.

280 This result emphasized that organic amendments were necessary to a win-win strategy for both

281 Amendments were tested in four separate microcosm assays

282 Four amendments were tested: an activated carbon (AC); CETCO

283 Search terms with appropriate amendments were used to identify S&FTD articles that inc

284 se assignment, crossover design, or protocol amendment, were included.

285 ngal isolates), together with a biochar soil amendment, were tested further in the field.

286 sampling were reduced by more than 95% upon amendment with 4.5% fine granular AC.

287 Sorbent amendment with activated carbon (AC) is a novel in situ

288 Sediment amendment with activated carbon (AC) is a promising tech

289 of a nitrification inhibitor and enhanced by amendment with ammonium (NH4(+)), with peaks at 19 and 8

290 ng in quartz-sand-packed columns to periodic amendment with Au(I)-thiosulfate.

291 issions from soil is commonly observed after amendment with biochar.

292 sms and enrichment cultures were enhanced by amendment with lactate or acetate as electron donors but

293 Upon amendment with phosphate, the consortium completely degr

294 In situ sediment amendment with sorbents such as activated carbon (AC) ca

295 While amendment with topsoil more than doubled several key nit

296 Specifically, soil amendments with greater content of high molecular mass a

297 he Planktothrix-dominated blooms to nutrient amendments with orthophosphate (PO4) and inorganic and o

298 ding on fish food, organisms grew less in AC amendments with slightly lower lipid and glycogen conten

299 e per week for 4 weeks) or, after a protocol amendment, with R plus R maintenance (MR; administered o

300 ural community APase activity following iron amendment within the low zinc and moderately low iron We