ライフサイエンスコーパス: waste

1 dstock development (e.g. microalgae and food wastes).

2 to improve research transparency and reduce waste.

3 d therefore reduces costs and the associated waste.

4 er the speciation of contaminants in organic waste.

5 lfides and zinc phosphate as compared to raw waste.

6 recommended because it generates infectious waste.

7 rally occur at high concentration in organic waste.

8 floral aroma profile derived from pineapple waste.

9 t in and closely associated with human fecal waste.

10 limiting the release of PBDEs from consumer waste.

11 ed by the accumulation of cellular metabolic waste.

12 howing the removal of caustic salts from the waste.

13 ctive treatment of highly infectious medical waste.

14 for some of the world's increasing volume of waste.

15 the partitioning of f-elements from nuclear waste.

16 ste followed by thermally processed red-beet waste.

17 earch benefit, and to help minimise research waste.

18 e amounts of peel and seeds are discarded as waste.

19 izers, fossil fuels, and human and livestock waste.

20 recipitation) that contain 47% of U.S. solid waste.

21 ciples, limiting extraction time and solvent waste.

22 al revenue from a food that is still largely wasted.

23 application as gas-processing of industrial wastes.

24 ents by itself more than half of all plastic wastes.

25 uent and, to a lesser extent, geese and gull wastes.

26 ial biomarkers for fish farm-derived organic wastes.

27 ion of CN(-) in water samples and laboratory wastes.

28 approach for similar organic-inorganic solid wastes.

29 Zn, was bioavailable from acid mine drainage wastes.

30 inhibitor, benzamil, reversed excessive K(+) wasting.

31 ncreased glucagon, without preventing muscle wasting.

32 sary and sufficient for tumor-induced muscle wasting.

33 xhibited severe hypokalemia and urinary K(+) wasting.

34 salt wasting, low BP, and profound potassium wasting.

35 abnormal substrate utilization and lean mass wasting.

36 mation and massive muscle and adipose tissue wasting.

37 mo and at 1 y-for reducing the risk of child wasting.

38 eting TLR4 alone effectively abrogate muscle wasting.

39 for the development of therapies for muscle wasting.

40 dy weight loss and muscle and adipose tissue wasting.

41 ect of selected miRNAs on age-related muscle wasting.

42 severe wasting and <115-125 mm for moderate wasting.

43 ino acid catabolism without affecting muscle wasting.

44 ein intake is associated with protein-energy wasting, a risk factor that affects outcome.

45 ed light on possible optimization of nuclear waste administration.

46 minant and variations in concentrations with waste age affected total estimated mass.

47 n protein recovered from chitosan processing waste alkaline solution can be a potential source of bio

48 d on the hydrothermal treatment of olive oil waste (alperujo) led to a final liquid phase that contai

49 Muscle wasting, also known as cachexia, is associated with many

50 nal and external validity, minimize research waste and add value to health care research.

51 rocessing industry generates huge volumes of waste and co-products which still contain valuable compo

52 lumina catalysts/supports from aluminum foil waste and demonstrates its application in acid-catalysed

53 3 from AlCl3.6H2O derived from aluminum foil waste and designated as ACFL550 is demonstrated, which s

54 tion, was developed to convert mixed organic waste and ethanol into renewable caproic acids.

55 tic function, enabling efficient drainage of waste and fluid from the brain and effectively improving

56 lly ineffective for certain types of medical waste and highlighted the critical role of waste packagi

57 nagement of sources from urban input, sewage waste and irrigation runoff.

58 lyst (PCNx) has been synthesized from marine waste and its use demonstrated in a metal-free heterogen

59 99 ((99)Tc) contained in reprocessed nuclear waste and present in contaminated subsurface systems rep

60 The agrifood industry produces tons of waste and substandard products that are discarded at gre

61 anic contaminants that have been detected in waste and surface waters.

62 With the ever-increasing volume of polymer wastes and their associated detrimental impacts on the e

63 patial distribution of the generated organic wastes and their effect on benthic bacterial biomass.

64 ence (MUAC) with a cutoff <115 mm for severe wasting and <115-125 mm for moderate wasting.

65 Presentations vary from neonatal salt wasting and atypical genitalia, to adult presentation of

66 LE: Critical illness is hallmarked by muscle wasting and disturbances in glucose, lipid, and amino ac

67 which is characterised by progressive muscle wasting and the discovery of reliable blood-based biomar

68 ed in the quadriceps of patients with muscle wasting and to determine the molecular pathways by which

69 LMN) syndromes typically present with muscle wasting and weakness and may arise from pathology affect

70 ns, resulting in ecological damage, economic waste, and occupational hazards.

71 n mice, miR-542 overexpression caused muscle wasting, and reduced mitochondrial function, 12S rRNA ex

72 factors contribute to cancer-induced muscle wasting, and therefore therapy requires combinational st

73 nd with purified enzymes differed among salt-wasting- and nonclassical-associated variants, but these

74 nty of 500000 people generating 320000 Mg of waste annually.

75 vities of the major Romanian agro-industrial wastes (apple peels, carrot pulp, white- and red-grape p

76 Climate change impacts of food waste are highest for fresh vegetables, due to the large

77 rium and the removal of tritium from nuclear waste are the key challenges in separation of light isot

78 ions, metal extraction from ores and nuclear waste, as well as drug delivery.

79 Food waste at the end of the food value chain (households and

80 ost 60% of the total climate impacts of food waste, because of the large quantities lost at this stag

81 ous and liquid emissions from landfills, (v) waste being recycled, (vi) waste for energy recovery, (v

82 tion, and intentional amendment of pyrolyzed waste biomass (biochar).

83 ging bed linens, pouring and flushing liquid waste, bronchoscopy, noninvasive ventilation, and nebuli

84 and lipid metabolism, did not affect muscle wasting, but drastically suppressed markers of hepatic a

85 quantifies the environmental impacts of food waste by distinguishing the various stages of the food v

86 at can significantly reduce time, costs, and waste by shaping various 3D materials with high fidelity

87 ptor 4 (TLR4) mediates cancer-induced muscle wasting by directly activating muscle catabolism as well

88 compatibility and without the production of waste byproducts.

89 he resulting triphenylphosphine oxide (TPPO) waste can be difficult to separate from the reaction pro

90 ure solids and 55% of low moisture solids if waste can be shipped anywhere within the state.

91 e demonstrate that fish farm-derived organic wastes can be readily detected at the seafloor by quanti

92 study illustrates that all the components of wastes can be useful resources, offering a simple recycl

93 Our recent experience indicates that many wasted children were not identified when these cutoffs f

94 interstitial space provides a mechanism for waste clearance.

95 nium (U) and vanadium(V) from abandoned mine wastes collected from the Blue Gap/Tachee Claim-28 mine

96 s emitted from crop residue, wood, and solid waste combustion in a residential stove were analyzed us

97 Results are sensitive to waste composition, energy mix and recycling rates.

98 suggested that aquaculture waste, especially waste containing therapeutic antibiotics, has a signific

99 rovement of the industrial and motor vehicle waste control techniques.

100 on, sustainable food systems need to address waste, crop-grass-livestock interdependencies and human

101 ween 1.15 and 2.41 million tonnes of plastic waste currently enters the ocean every year from rivers,

102 itions were compared to the source signal of waste deposits for the dumpsite and highly contaminated

103 ce also had inflammatory symptoms, including wasting, dermatitis, colitis, hypereosinophilia, and hig

104 Childhood wasting did not differ between groups (OR 0.92, 95% CI 0

105 g born to muntjac dams infected with chronic wasting disease (CWD) (1).

106 is a reservoir for prions that cause chronic wasting disease (CWD) and influences the risk of transmi

107 to precede neuroinvasion.IMPORTANCE Chronic wasting disease (CWD) is a universally fatal transmissib

108 In nature, cervids are infected with chronic wasting disease (CWD) prions by oral and nasal mucosal e

109 ative errors to test deer saliva for chronic wasting disease (CWD) prions.

110 e, we removed the lipid content from chronic wasting disease (CWD)-infected white-tailed deer brain h

111 trophy (DMD) is an incurable X-linked muscle-wasting disease caused by mutations in the dystrophin ge

112 PORTANCE The facile dissemination of chronic wasting disease within captive and free-range cervid pop

113 er recycling, which aggravates the burden of waste disposal in landfill.

114 During nuclear waste disposal process, radioactive iodine as a fission

115 '-modified ascarosides, thus identifying the waste disposal system of the cell as a hotspot for ascar

116 In-sink grinding (ISG) via a food-waste disposer and flushing for management with other se

117 issippi River in St. Lawn fertilizer and pet waste dominated N and P inputs, respectively, underscori

118 This model minimizes waste due to expiration while avoiding shortages; the nu

119 shelf life, platelet products are frequently wasted due to expiration.

120 aring TLR4(-/-) mice were spared from muscle wasting due to a blockade in muscle catabolic pathways.

121 ltural and pharmaceutical products, chemical waste dumps, and analytical-grade material, covering the

122 id, and amino acid homeostasis and in muscle wasting during critical illness.

123 lts of this study suggested that aquaculture waste, especially waste containing therapeutic antibioti

124 view of the agroindustrial potential of fish wastes, especially viscera, as a source for obtaining na

125 by burial or transportation to a designated waste facility.

126 ation of recent and present-day martian mass wasting features, as much less water may be required to

127 ersions and extraction of CO from industrial waste feeds, which currently underutilize this versatile

128 source of CF3 is the inexpensive industrial waste fluoroform.

129 s exhibited by thermally processed red-grape waste followed by thermally processed red-beet waste.

130 he impacts from production and supply of the wasted food.

131 om landfills, (v) waste being recycled, (vi) waste for energy recovery, (vii) total waste landfilled.

132 f of global energy and climate issues.Energy wasted for heating the empty space of the entire buildin

133 The energy wasted for heating the empty space of the entire buildin

134 for an oxidizing agent and hence without the waste formation that would result from its use.

135 Additionally, light is non-invasive and waste-free.

136 D operation reduced the active alkali of the waste from 0.66 to <0.01M and the moisture content of th

137 moval of water pollutants since sulfite is a waste from flue gas desulfurization process.

138 however, they cannot distinguish human fecal waste from other animal pollution sources.

139 cids for energy, and disposal of nitrogenous waste from protein degradation in the form of urea metab

140 The wastes from majority of the extraction processes may fur

141 akes up approximately 15% of municipal solid waste generated in the United States, and 95% of food wa

142 olten salt systems and is also promising for waste glass and coal ash recycling.

143 Every year many tons of waste glass end up in landfills without proper recycling

144 crobiology laboratory designed and validated waste-handling protocols with simulated patient trash to

145 TMEG can serve dual role of extracting the waste heat and converting it into useable electricity.

146 al material's properties), which can harvest waste heat at 400 K with efficiencies about 7% to 8%.

147 c materials to generate electricity from the waste heat can play a key role in achieving a global sus

148 in a sustainable energy future by converting waste heat from power plants and other industrial proces

149 areas such as cooling, power generation and waste heat recovery with unique advantages of quiet oper

150 wer consumption associated with managing the waste heat.

151 r ZT), which can directly converts low-grade wasted heat (400 to 500 K) into electricity, has been a

152 rome across vertebrate species that includes wasting, hepatosteatosis, and thymus atrophy.

153 waste input into the system, (ii) export of waste (iii) gaseous emissions from waste treatment plant

154 ismic activity and immobilization of nuclear waste in oxides.

155 We determined the cutoffs for MUAC to detect wasting in Bangladeshi children aged 6-60 mo.A secondary

156 In clinical settings, wasting in childhood has primarily been assessed with th

157 brogates tumor-induced muscle catabolism and wasting in cultured myotubes and in mice.

158 re associated with the progression of muscle wasting in DM1 patients.

159 arkers for monitoring the progress of muscle wasting in DM1 patients.

160 egeneration are major contributors to muscle wasting in Duchenne muscular dystrophy (DMD).

161 eresting opportunity to prevent increases in wasting in humanitarian aid settings.

162 70 and Hsp90 as key cachexins causing muscle wasting in mice.Cachexia affects many cancer patients ca

163 receptors (Ifnar1 or Ifngr1) does not rescue wasting in Pdgfrb(+/D849V) mice, indicating that interfe

164 Municipal Waste Incineration (MWI) is regulated through the Europe

165 emissions in relation to introduction of EU Waste Incineration Directive (EU-WID) (subsequently tran

166 eration and sedimentation in municipal solid waste incineration landfill leachates over time.

167 Analysis of some waste incinerator fly ashes revealed a significant diffe

168 lly, of which an estimated 30% is related to waste, inefficiencies, and excessive prices; health disp

169 criteria for evaluating their WM-system: (i) waste input into the system, (ii) export of waste (iii)

170 of treated wastewater, biosolids, and animal wastes introduces a multitude of contaminants of emergin

171 tion is increasing, safe management of fecal waste is a rapidly growing challenge in low- and middle-

172 ng new ways to inactivate pathogens in human waste is critical for the improvement of worldwide acces

173 Reducing food losses and waste is crucial to making our food system more efficien

174 iterature on value addition to fruit derived waste is diverse.

175 ing radioactive organic iodides from nuclear waste is important for safe nuclear energy usage, but re

176 acroautophagy, the process by which cellular waste is isolated inside specialized vesicles called aut

177 erated in the United States, and 95% of food waste is ultimately landfilled.

178 Skeletal muscle wasting is prevalent in many chronic diseases, necessita

179 of a new, alternative substrate - pineapple waste - is described.

180 er-induced cachexia, characterized by muscle wasting, is a lethal metabolic syndrome with undefined e

181 Cachexia, characterized by muscle wasting, is a major contributor to cancer-related mortal

182 (vi) waste for energy recovery, (vii) total waste landfilled.

183 bove 15 mug/L and several exceeded hazardous waste levels (>5000 mug/L).

184 of Kir4.1 in these mice led to moderate salt wasting, low BP, and profound potassium wasting.

185 Food waste makes up approximately 15% of municipal solid wast

186 Cirrhosis is characterized by muscle wasting, malnutrition, and functional decline that confe

187 The development of sustainable solid waste management (SWM) systems requires consideration of

188 f material flow analysis (MFA) for designing waste management (WM) systems and for supporting decisio

189 biodegradability especially under realistic waste management and environmental conditions, to avoid

190 eous city-scale actions, e.g., improved food-waste management and VFT.

191 Water shortages and brine waste management are increasing challenges for coastal a

192 Growing necessity for efficient nuclear waste management is a driving force for development of a

193 with 28 found suitable for harmonizing food waste management methods' climate and energy impacts.

194 ms to new procedures, and identifies gaps in waste management policies and strategies with regard to

195 validation process can inform the design of waste management protocols to ensure effective treatment

196 and validation structures, and implementing waste management strategies.

197 In particular, improved food-waste management within the city (7% system-wide GHG red

198 ne administration techniques, proper vaccine waste management, and availability of vaccine carriers a

199 stic inputs from rivers into oceans based on waste management, population density and hydrological in

200 also obtained blood samples from anonymised waste material of age-and-sex-matched individuals (aged

201 gy development encourages the use of a mixed waste material recovery facility with residues going to

202 vironmentally-friendly product, based upon a waste material such as OMW.

203 Each type of waste material was analyzed without (fresh) and with the

204 openings probably served to expel water and waste material.

205 is purpose, as well as tall oil, an abundant waste material.

206 onium plays an important role within nuclear waste materials because of its long half-life and high r

207 chanisms for disposal of vaccination-related waste materials, and a closer collaboration with drug re

208 tion of energy from biodegradable and reused waste materials.

209 Natural anti-swarming agents from food waste may have promising potential for controlling food

210 e porous carbon materials, and the generated waste metals solution herein could be reused for LDH syn

211 tabolism, such as insulin resistance, muscle wasting, mitochondrial dysfunction and hyperlactatemia.

212 positively related to the mismanaged plastic waste (MMPW) generated in the river catchments.

213 In this paper, food waste, namely eggshell (hydroxyapatite) utilization, was

214 ch correlated with the progression of muscle wasting observed in DM1 patients.

215 der of Australian academia is a considerable waste of government investment, productivity, and scient

216 However, although the waste of plastic in the environment is clearly undesirab

217 Harms included waste of precious life-giving organs and hospital resour

218 ystrophies are characterized by weakness and wasting of skeletal muscle tissues.

219 tes: the organic fraction of municipal solid waste (OFMSW) and supermarket food waste (SFW).

220 Goldenberry waste oil exhibited absorbance in the UV range at 100-40

221 rent when spreading either digestates or raw waste on cropland.

222 ng it and preventing further resources being wasted on an ineffective model.

223 to diagnose transient ischaemic attack is a wasted opportunity to prevent recurrent disabling stroke

224 -based mitigation, such as reduced household waste or lower consumption of animal-based products, dec

225 spending presents an opportunity to decrease waste or recoup excess spending.

226 50 21A2 variants associated with either salt-wasting or nonclassical forms of CAH were expressed, pur

227 t elevated PDGFRbeta signaling causes tissue wasting or overgrowth reminiscent of human genetic syndr

228 l waste and highlighted the critical role of waste packaging in successful sterilization.

229 diseases characterized by connective tissue wasting (Penttinen syndrome) or overgrowth (Kosaki overg

230 The large amounts of waste produced by sea food industries capitulate, recove

231 ata show that ammonia is not only a secreted waste product but also a fundamental nitrogen source tha

232 We found that ammonia is not merely a toxic waste product but is recycled into central amino acid me

233 ially available in what is now essentially a waste product.

234 lecule is often characterized as a metabolic waste product.

235 eate pores to allow passage of nutrients and waste products across the membrane.

236 ol for the extraction of valuable components waste products from fruits and vegetables juice industry

237 ATEMENT Effective disposal of brain cellular waste products via CSF has been demonstrated repeatedly

238 st rely on other mechanisms for clearance of waste products, including amyloid [Formula: see text] th

239 on, absorption of fats, and the excretion of waste products, while concurrently providing a critical

240 g all relevant inputs, stocks and outputs of wastes, products, residues, and emissions is established

241 monized climate impacts per kilogram of food waste range from -0.20 kg of carbon dioxide equivalents

242 ecules (including degradation and storage of waste) rather than in their amount present in the cells.

243 ing that metal ligation inhibits this energy wasting reaction is of direct relevance to solar energy

244 a proper initial product is crucial to make waste recycling simpler.

245 A new type of waste recycling strategy is described in which nitrogen

246 HG impact of preconsumer trans-boundary food waste reduction.

247 of radioactive organic iodides from nuclear waste remains a significant challenge due to the drawbac

248 blished listing guidelines, SLKT potentially wastes renal allografts in both high-acuity liver recipi

249 zone under conditions relevant for a nuclear waste repository in crystalline rock.

250 myostatin increased mass or prevented muscle wasting, respectively, highlighting the potential therap

251 exports in storm drainage networks and yard waste resulted in net P losses in some watersheds.

252 ments, or due to anthropogenic releases from waste rich in antimony, a component used in batteries, e

253 tion of antioxidant potential of AhJ33 fruit waste (rind and rachis) extracts from three different ex

254 ated in India but likely due to ruminant and waste sectors.India's methane emissions have been quanti

255 ve overgrowth, a distinct phenotype from the wasting seen in Stat1(+/-)Pdgfrb(+/D849V) mice.

256 We tested two approaches to decrease wasted sequencing in ATAC-seq libraries generated from l

257 pal solid waste (OFMSW) and supermarket food waste (SFW).

258 Thus, avoiding food waste should be a first-line priority, while optimizing

259 rocarbons from refinery pollution, petroleum waste sites, and mobile sources (automobile exhaust); pa

260 iating EPFRs from incineration and hazardous waste sites.

261 xchange cages permits the release of organic wastes, some of which ultimately reaches the underlying

262 if nitrogen is recovered from a concentrated waste source such as source-separated urine.

263 id and aqueous samples from both natural and waste sources.

264 traction efficiency from a commercial tomato waste stream (pH 12.5, solids approximately 5%) that was

265 e direct correlations between any individual waste stream characteristic or microbial community struc

266 herapeutics consistent with a local hospital waste stream.

267 s discharged to surface waters, and economic waste-stream values.

268 ion of (99)Tc present in reprocessed nuclear waste streams and contaminated subsurface environments.

269 ties resulting in releases of selenium-laden waste streams threaten freshwater ecosystems.

270 varying from the biorefining of chitin-rich waste streams to understanding how medically relevant fu

271 2S nanoparticles (NPs) through anthropogenic waste streams.

272 ally manifested by postweaning multisystemic wasting syndrome (PMWS), respiratory and enteric disease

273 a, IL-6, and CCL2 mRNAs), and attenuated the wasting syndrome and severity of colitis ( approximately

274 sporadic cases of postweaning multisystemic wasting syndrome in Canada in the early 1990s, an epidem

275 ete and inadequate reporting is an avoidable waste that reduces the usefulness of research.

276 With the proposal of using industrial waste, the objective of the present study was to isolate

277 of using fewer resources and generating less waste, thereby helping "green" our field.

278 ls) are of interest for harvesting low-grade waste thermal energy because of their potentially low co

279 aches without proper validation not only may waste time and resources but also may raise ethical ques

280 hange in some anaerobic digesters converting wastes to methane.

281 succinate mitigates infection-induced lipid wasting to extend survival of V. cholerae-infected flies

282 discharges of O&G wastewater by centralized waste treatment (CWT) plants pose risks to aquatic and h

283 d for biotechnological applications, such as waste treatment and bioenergy production, using engineer

284 The net environmental benefits from food waste treatment are only 5-10% of the impacts from produ

285 must be better controlled and more effective waste treatment is needed for hospital wastewaters.

286 export of waste (iii) gaseous emissions from waste treatment plants, (iv) long-term gaseous and liqui

287 Anaerobic digestion is a widely used organic waste treatment process.

288 of the environmental impact of conventional waste treatment processes.

289 od basket in Switzerland, and including food waste treatment.

290 and pulp) for the purpose of increasing the wastes' value.

291 f caproic acid production from mixed organic waste via chain elongation at this current, early stage

292 of producing 1 kg caproic acid from organic waste via chain elongation, in both a lab-scale and a pi

293 h energy demands, consumable throughput, and waste volumes.

294 In this work a lipid extract from shrimp waste was obtained and characterized.

295 s then dispersed in large amount of external waste water to form W/O/W microreactor system.

296 utcomes of interest were prevalence of being wasted (weight-for-height z-score [WHZ] < -2) and mean W

297 Two mixed organic waste were used as substrates: the organic fraction of m

298 r fresh vegetables, due to the large amounts wasted, while the specific impact per kg is largest for

299 es contribute more than 0.5billion tonnes of waste worldwide.

300 model indicated that MD of 10 different mine wastes yields product water containing no contaminants a