ライフサイエンスコーパス: waste

1 de-streams, and are shelf-stable to minimise waste.

2 , while generating no chemical byproducts or waste.

3 roving resource efficiency and reducing food waste.

4 unprecedented amounts of the world's plastic waste.

5 le to humans in the form of crustacean shell waste.

6 sometime viewed as a strategy to avoid water waste.

7 foodborne pathogens and reduce environmental waste.

8 t of the hospital and a major contributor of waste.

9 Pd catalysts, producing only CO and H(2)O as waste.

10 gen and nutrient supply and remove metabolic waste.

11 ically complex designs with minimal material waste.

12 ities to heavy metals and particulate matter waste.

13 red carbon derived from pyrolysis of biomass waste.

14 lorization of this resource towards the zero-waste.

15 dentials of the process through reduction in waste.

16 s the largest contributor to municipal solid waste.

17 oxidant assays were conducted on the avocado wastes.

18 sessment of radioactive and other long-lived wastes.

19 ring the case of UH(3) persistence in legacy wastes.

20 reverted airway fibrosis and systemic muscle wasting.

21 pproximately 7.5% of children suffering from wasting.

22 toplasmic CELF1 functions in skeletal muscle wasting.

23 wly progressive skeletal muscle weakness and wasting.

24 is necessary and sufficient to cause muscle wasting.

25 wn as the driver of cancer-associated muscle wasting.

26 therapeutic target of cancer-induced muscle wasting.

27 ile mice lacking Myoc showed enhanced muscle wasting.

28 p-Mef2c, which causes Hspb7-dependent muscle wasting.

29 of individual actions including halving food waste (-4.7%), one-day weekly plant-based diet (-3.3%),

30 use of great concerns about the environment, waste accumulation and destruction, and the inevitable d

31 nce, electrolyte abnormalities and metabolic waste accumulation- manifesting as acute kidney injury (

32 protein isolate (API) from locally abundant waste acorn fruit and investigate its emulsification beh

33 nce of open burning of waste (particularly e-waste) across Africa.

34 at column capacity is usually underutilized, wasting adsorbent and reducing productivity.

35 Rotten food, maggots, bodily waste-all elicit disgust in humans.

36 <=112 mm performed well in detecting severe wasting among infants aged 1-6 mo.

37 es a pretreatment of chitin-containing shell waste and an enzymatic/fermentative bioprocess using met

38 he art in oligonucleotide production poses a waste and cost burden to manufacturers.

39 ented with an immiscible oil reducing sample waste and demonstrate droplet injection at the EuXFEL co

40 ter reuse would reduce the need to transport waste and fresh water over long distances.

41 s an industrially relevant means to valorize waste and improve sustainability in polymer manufacturin

42 umption, along with sharp reductions in food waste and postharvest losses, agricultural production mu

43 brane separations leads to enormous resource waste and production costs.

44 desirable to minimize the volume of nuclear waste and to facilitate its containment or disposal.

45 ms to solve the issues of both environmental waste and to reduce the spoilage of food products.

46 the food produced around the globe still is wasted and never consumed.

47 Heavy metal sequestration from industrial wastes and agricultural soils is a long-standing challen

48 ep disturbances, build-up of brain metabolic wastes and amyloid-beta (Abeta) plaques, perivascular re

49 The present work investigates biomass wastes and their ashes for re-use in combination with mi

50 fferent valorization practices of citrus bio-wastes and utilization of their bioactives as therapeuti

51 Muscle wasting and atrophy are regulated by multiple molecular

52 significantly deterred cancer-induced muscle wasting and dysfunction in a preclinical model of pancre

53 e exhibited a phenotype that included muscle wasting and metabolic endotoxemia.

54 hondrial dysfunction is implicated in muscle wasting and perturbed lipid metabolism, speculating that

55 h provide essential metabolites, phagocytose waste, and control the composition of the surrounding mi

56 , iron and vitamin A deficiencies, stunting, wasting, and underweight.

57 on in childhood is associated with stunting, wasting, and underweight.

58 ng fuels (coal, wood, charcoal, agricultural wastes, animal dung, or kerosene) for household cooking

59 ting: aOR 0.83, 95% CI 0.77-0.88, p < 0.001; wasting: aOR 0.90, 95% CI 0.83-0.99, p = 0.03; underweig

60 isease prevention and contribution to a zero waste approach in food industry.

61 sources, recycled materials, and industrial waste are inefficient, relying upon harsh conditions, re

62 plant parts, and agricultural and processing wastes are underutilized.

63 h energy density and use of greenhouse CO(2) waste as the energy source.

64 that would dramatically reduce the cost and waste associated with performing desirable reactions tha

65 ty may have relevance to disorders of muscle wasting associated with sustained proinflammatory signal

66 9)TcO(4)(-) from legacy defense nuclear tank waste at Savannah River Site is highly desirable for the

67 ary outcomes were stunting, underweight, and wasting at a 12 month follow-up.

68 aluate the performance of MUAC for detecting wasting at community level and for predicting mortality

69 Waste beverage bottle PET or a PET + polypropylene (PP)

70 We analyzed waste blood samples from a community clinic from 15,551

71 Plastic wastes burdening Earth's water and accumulating on land,

72 ns, easy product isolation, and zero reagent waste by applying electrochemical methods offer a promis

73 Artichoke floral stems (AFS) food waste by-products were examined for their phytochemical

74 ucing antimicrobial/antioxidant peptide from wastes by EDUF fits perfectly with the concept of circul

75 ould see a 37% increase in the prevalence of wasting by 2100, and central and eastern Africa 25%.

76 und that p300 mediates cancer-induced muscle wasting by activating C/EBPbeta, which then upregulates

77 and what percentage of the diverted organic waste can be used to supplement local farmland.

78 (GHG) emissions associated with landfilling waste can occur over decades to centuries, the standard

79 ARGs) from the land application of livestock wastes can be a potential public health threat.

80 ty, dietary change and reduced food loss and waste, can reduce demand for land conversion, thereby po

81 scarded food, rubber tyres and mixed plastic waste-can afford gram-scale quantities of graphene in le

82 ion was found among underweight, stunted, or wasted children.

83 LIBs) is a critical aspect of the electronic-waste circular economy.

84 g meningeal lymphatic drainage and enhancing waste clearance improves HE.

85 rization is an efficient way to add value to waste CO(2) and to reduce pollution in polymer manufactu

86 lastic consumption; increase rates of reuse, waste collection, and recycling; expand safe disposal sy

87 industries contributes to tons of shellfish waste composed of up to 58% chitin.

88 , and untreated wood), and one food and yard waste compost were studied.

89 nd its genetic deficiency exacerbates muscle wasting; conversely, sestrin overexpression suffices to

90 ress the increasing number of tailings (mine waste) dam collapses worldwide.

91 r, the direct conversion of crustacean shell waste-derived chitin into a wide spectrum of nitrogen-co

92 egrated biorefinery process to upgrade shell waste-derived chitin into two aromatic NCCs that current

93 Chronic wasting disease (CWD) is a fatal, progressive disease th

94 Chronic wasting disease (CWD) is a prionopathy affecting wild an

95 Chronic wasting disease (CWD) is a rapidly spreading prion disea

96 Chronic wasting disease (CWD) is a relentless epidemic disorder

97 Chronic wasting disease (CWD) is caused by an unknown spectrum o

98 and with prions causing deer and elk chronic wasting disease and transmissible mink encephalopathy un

99 Cachexia is a progressive muscle wasting disease that contributes to death in a wide rang

100 re consistent with observed data on sea star wasting disease, which suggests that environmental stres

101 Its dysregulation is implicated in muscle wasting diseases.

102 nd its dysfunction is associated with a salt-wasting disorder known as Bartter syndrome.

103 ion improves the phenotype in several muscle wasting disorders.

104 lfidic environments pertinent to radioactive waste disposal and contaminated land scenarios.

105 isk-driving radionuclide in both radioactive waste disposal and contaminated land scenarios.

106 across the extraction, processing, use, and waste disposal continuum.

107 of plastics production and the accompanying waste disposal problems represent a largely untapped opp

108 n Achromobacter xylosoxidans from the shrimp waste disposal site using chitin minimal medium.

109 material in laboratory day-to-day business, waste disposal, as well as regulatory confinements.

110 ost savings of 21% were realized in terms of waste disposal, in addition to creating a value-added pr

111 California's landmark waste diversion law, SB 1383, mandates the diversion of

112 by composting of the residual digestate is a waste diversion strategy that generates biogas and soil

113 The e-waste dust contained significantly greater total concent

114 mples collected in Chicago, in 21 Canadian e-waste dust samples, in 32 Canadian and United States' re

115 Electronic waste dust was analyzed using GC and quadrupole time-of-

116 that it may, in fact, exert a relative salt-wasting effect.

117 ng should be the highest priority; (5) "zero waste" efforts that eliminate single-use plastics minimi

118 y saline, and slow-flowing fluids around the waste emplacement zone, and to quantify these parameters

119 ated to efficiently produce proteins without wasting energy or substrate.

120 amounts and toxicity of reagents, generated waste, energy requirements, the number of procedural ste

121 83, mandates the diversion of 75% of organic waste entering landfills by 2025.

122 ENG) can effectively transform the otherwise wasted environmental, mechanical energy into electrical

123 ata herein details the muscular weakness and wasting exhibited by D2.mdx skeletal muscle, as well as

124 the organism must take in nutrients, secrete wastes, export proteins into the host cell, and eventual

125 single cell anal depressor muscle, used for waste expulsion, contains bilateral dorsal-ventral sarco

126 le since a smaller fraction of the sample is wasted for analysis of the expensive analytes, without c

127 of competitive immobilization when assessing waste form performance and environmental risk of contami

128 e path towards leveraging HEAs as functional waste forms for a variety of radioisotopes.

129 chanism for contaminants within cementitious waste forms intended for nuclear waste storage, this wor

130 99 immobilization in low-temperature nuclear waste forms often relies on additives that reduce enviro

131 O)], a common mineral formed in cementitious waste forms, may be used to directly immobilize TcO(4)(-

132 tigated the effects of the addition of onion waste fractions into gluten-free (GF) bread to promote i

133 The developed methodology provided a waste-free method for the synthesis of hydroxylated prop

134 id space rapidly transport solutes and clear waste from brain.

135 Though the diversion of organic waste from landfills in California has the potential to

136 ting the organic fraction of municipal solid waste from landfills to biological treatment processes t

137 play an important role in diverting organic waste from landfills.

138 thetic molecules is increasingly considering wastes from plant food supply chains.

139 Sweet orange waste functions as a fat replacer and preservative to in

140 ares of deforestation and US$ 7.6 billion in wasted funding for development projects.

141 priority (fresh water, demineralized water, waste gas, and electricity).

142 o 23 million metric tons, or 11%, of plastic waste generated globally in 2016 entered aquatic ecosyst

143 ost a geological repository in every nuclear waste-generating country, but carbonate rocks may serve

144 of e-commerce on consumer shopping and food waste habits, and of e-commerce services in rural region

145 Such waste has been severely underutilized, resulting in both

146 accharides, which can be obtained from fruit wastes, have proven their potential as plant immune-syst

147 ith an incorrect CIDP diagnosis led to total wasted healthcare expenditures of between pound 808 550

148 (100 degrees to 400 degrees C) that radiate waste heat are often the by-product of mechanical work,

149 rogel can quickly evaporate to dissipate the waste heat generated by the nugatory carrier transport i

150 Scalable, efficient conversion of radiated waste heat into electrical power can be used to reduce e

151 pe the global energy landscape by converting waste heat into electricity, yet their commercial implem

152 junction thermoelectric generator device for waste heat recovery and cooling applications.

153 sing by directly generating electricity from waste heat.

154 sation system in the recycling processes for waste Hg-containing devices.

155 ovide meaningful assistance to reducing food waste in a relatively low-impact and environmentally-sou

156 isms for the volumetric reduction of organic waste in AD.

157 ssess the evidence on the extent of research waste in dental research.

158 accompanying each use creates insurmountable waste in landfills.

159 Waste in research is a multifaceted problem without a si

160 s to curb spending on health care and reduce waste in the United States, perhaps now is an important

161 as an independent diagnostic tool to detect wasting in children aged 6-59 mo.

162 stic performance of MUAC in detecting severe wasting in infants aged 1-6 mo.

163 fined, it is unknown if persistent phosphate wasting in nephropathic cystinosis is associated with a

164 has been focus on rising rates of childhood wasting in the short term, maternal and child undernutri

165 ent alternatives for organic municipal solid waste including landfilling, composting, dry anaerobic d

166 enario (coverage reductions of 9.8-18.5% and wasting increase of 10%) over 6 months would result in 2

167 nario (coverage reductions of 39.3-51.9% and wasting increase of 50%) over 6 months would result in 1

168 However, heterogeneity in organic waste induces community shifts in conventional anaerobic

169 We propose that water and waste infrastructure improvements tailored to these sett

170 complex environmental challenges of plastic waste into better context, integrating a holistic, life

171 Upcycling chitin-containing waste into value-added products is an attractive solutio

172 The fate of plastic waste is a pressing issue since it forms a visible and l

173 Organic waste is a rapidly increasing problem due to the growth

174 This poses a risk to public health as waste is a vector for SARS-CoV-2 virus, which survives u

175 non-TcO(4)(-) Tc present in the AN-102 tank waste is composed of several low-valent Tc species, incl

176 Research waste is highly prevalent across biomedical investigatio

177 Like conventional material products, waste is the last stage of the life cycle of engineered

178 Reducing food waste is widely recognized as critical for improving res

179 Skeletal muscle wasting is also common in COPD, but less is known about

180 The association for wasting is not robust.

181 ived from wood or even dirty feedstocks like waste, is reviewed.

182 associated cachexia, characterized by muscle wasting, is a lethal metabolic syndrome without defined

183 minated wastewaters, such as municipal solid waste landfill leachates, pose a challenge for PFAS trea

184 global warming impacts from municipal solid waste landfills.

185 promoting the circular economy by valorising waste lignocellulosic biomass to widely sought-after hig

186 cherries processing produces big amounts of wastes mainly constituted by cherry pomace that can be a

187 in both top-down and bottom-up estimates and waste management (0.1 MtCH(4)) emissions are small.

188 worse in hand hygiene (0.27 [0.17-0.43]) and waste management (0.25 [0.14-0.44] than the reference ca

189 of reusable equipment (n=841), and 43.3% for waste management (n=4299).

190 However, real-world waste management can differ from idealized practices, an

191 In a waste management context, predicting the mobility of con

192 If waste management fee savings are to be incorporated, the

193 naf by-products can be a significant part of waste management from an economic and environmental poin

194 ns and harmonize nutrients, soil, water, and waste management in different urban environments.

195 erstanding of fluid homeostasis and cellular waste management in the brain, but visualization and exp

196 These results suggest that tailings pond waste management practices should be targeted to reduce

197 y assessment and their impact on the plastic waste management system, are discussed.

198 agement strategies, plastic waste reduction, waste management, and environmental recovery, at differe

199 n materials and component recovery and smart waste management.

200 antly associated with compliance, except for waste management.

201 use, disinfection of reusable equipment, and waste management.

202 Transforming this otherwise waste material into a useful product where its material

203 ic digestion (AD) of organic municipal solid waste (MSW) followed by composting of the residual diges

204 grees C) pretreatment with different mineral wastes (MW) was investigated.

205 d to inefficient and overlapping management, waste of administrative resources, and serious obstacles

206 ent variability, the need for normalization, waste of materials, and significant consumption of time.

207 tead, indirect effects of hybridization like waste of reproductive effort in small isolated populatio

208 ystems that reduce the complexity, cost, and waste of rigorous post-marketing research efforts.

209 ife cycle, most of the focus is on packaging waste or feedstock substitution.

210 ssions from composting nitrogen-rich organic waste or post-AD solids.

211 such oxo precursors produce tons of reagent waste or, in the case of carbothermal treatment of miner

212 Muscle wasting, or muscle atrophy, can occur with age, injury,

213 Recycling of organic waste (OW) as fertilizer on farmland is a widespread pra

214 ements to better comprehend the recycling of waste oyster shells.

215 thermore, there was no evidence of potassium wasting (P=0.20) or renal dysfunction (P>0.11 for all bi

216 ributed to the prevalence of open burning of waste (particularly e-waste) across Africa.

217 Muscle wasting pathway proteins were upregulated while those th

218 amples were collected by farm personnel from waste pits at two sites on a swine farm in North Carolin

219 constant plastic consumption, (ii) managing waste plastic exports in the EU, (iii) design-for-recycl

220 Notably, AAS efficiently converts a range of waste plastics to hydrocarbons at significantly lower te

221 e capacity due to aging, frailty, and muscle wasting poses major unmet clinical needs.

222 The boiler ash and cement-based waste pretreatments also produced high methane productio

223 The increase in wasting prevalence would account for 18-23% of additiona

224 Impact, eolian, and mass wasting processes have dominantly modified the surface.

225 moval, with the added benefit of re-use of a waste product.

226 Acidic metabolic waste products accumulate in the tumor microenvironment

227 tion, energy requirements, and production of waste products are reduced to a minimum while maintainin

228 s for the exploitation of Food and Agro-Food waste products in Health-related areas.

229 s for CNS drug delivery and clearance of CNS waste products, including Abeta, and for understanding h

230 ic system, which clears the brain of protein waste products, is mostly active during sleep.

231 depletion of nutrients, and accumulation of waste products.

232 Autophagy, an integral part of the waste recycling process, plays an important role in cell

233 f three broad management strategies, plastic waste reduction, waste management, and environmental rec

234 This leads naturally to time, cost, and waste reductions.

235 ation mechanism and quantity from product to waste remain unclear.

236 ral component in nuclear fuel processing and waste remediation efforts.

237 system facilitates brain fluid clearance and waste removal during sleep via glia-supported perivascul

238 tration by health care workers and biohazard waste removal.

239 However, off-target electrolyte wasting, renal dysfunction, and neurohormonal activation

240 ct conclusions, resulting in poor decisions, wasted resources, and an ethically questionable use of a

241 meaningful effect, potentially resulting in wasted resources.

242 cs of this species-focused approach argue it wastes resources and often does not benefit broader biod

243 PLC analysis of chitinase degraded shellfish waste reveals a major amino acid profile composition-arg

244 verify the robustness of the method, a mine waste rock was also tested in the microchip with natural

245 espite this discrepancy, we confirm that the waste sector is the largest methane emitter in the GTA.

246 the impact of SGLT2 to prevent renal glucose wasting, SGLT2 inhibitors have been developed to treat d

247 ld require closing yield gaps, reducing food waste, shifting toward diversified farming, and consumin

248 furcating systems in nature prevented energy-wasting short-circuiting reactions that have large drivi

249 Values in waste sludge were highly variable.

250 over the hazardous life cycle of radioactive wastes (some ~10,000 years).

251 depolymerization of chitin from shrimp shell waste (SSW), thereby offering water-soluble chitin hydro

252 develop strategies for mine remediation and waste stabilization by accelerating the biogeochemical c

253 phages-MS2 and phiX174-in surface waters and waste stabilization ponds by integrating solar irradianc

254 ementitious waste forms intended for nuclear waste storage, this work explores how mixed oxyanion con

255 46 days, proving composting to be a feasible waste stream option and a sustainable marketing edge whi

256 parable packaging parts present in a certain waste stream, nor on their quantitative levels of (eleme

257 radiation exposure at doses found in nuclear waste streams and highlights the need for a systematic a

258 Our results show that certain waste streams consist of mixtures of up to nine differen

259 ens, of commonly generated plastic packaging waste streams in European sorting facilities.

260 aber-Bosch process or reclaimed ammonia from waste streams is typically considered as the nitrogen so

261 ilize a variety of carbon sources, including waste streams that pose challenges to traditional chemic

262 that useful phosphate can be recovered from waste streams, and how it can be recycled and used as a

263 difficult to realise conventionally without waste, such as the hollow geometries of nickel-based sup

264 terization of the actual Hanford AN-102 tank waste supernatant, which was processed to adjust Na conc

265 DV, has been their association with sea star wasting syndrome (SSWS), a disease that has decimated se

266 Cachexia, a devastating wasting syndrome characterized by severe weight loss wit

267 astatic cancer develop a debilitating muscle-wasting syndrome, known as cachexia, that is associated

268 , a debilitating age-related skeletal muscle wasting syndrome.

269 ull polymer composition of plastic packaging waste taking into account the separable packaging parts

270 the molecular-scale understanding of nuclear waste temporal evolution and the reductive remediation o

271 he properties of the material also result in waste that is readily generated, dispersed, and fragment

272 novel mechanism of cancer-associated muscle wasting that is similarly disrupted in muscle of patient

273 tional fresh aliquots of fuel and removal of waste, the hydrogels can be re-programmed time after tim

274 ant radionuclide by mass in many radioactive wastes, the control of uranium mobility in contaminated

275 ed to the disposal and recycling of cellular waste to a highly dynamic structure that mediates the ad

276 The use of fruit peel waste to recover valuable metals from spent LIBs is an e

277 nomical strategy, avoiding generation of any waste, to produce allylic functionalized structures.

278 Waste-to-energy systems can play an important role in di

279 implications for plasma-supported industrial waste transformations, as well as for plasma-mediated ap

280 Quantifying the risk that failing onsite waste treatment systems (OWTS), such as septic systems,

281 -), known contaminants of concern to nuclear waste treatment, over pre-determined precipitation perio

282 urce intensity (e.g., energy consumption) of waste treatment.

283 minimize the environmental footprint of both waste types.

284 The final samples for wasting, underweight and stunting include 668.463, 693.3

285 ute respiratory infections (ARIs), stunting, wasting, underweight, or anaemia in children aged 0-5 ye

286 grees C) anaerobic digestion (AD) of organic waste using a low-temperature (37 degrees C) pretreatmen

287 of using the black soldier fly as a tool for waste valorization and feed production has primarily bee

288 per understanding of these pathways, we risk wasting valuable resources on mitigating behavioural eff

289 ackaging amounted to only 0.04% of the total waste volume associated with contact lens use.

290 h leads to a notable decrease in the nuclear waste volume.

291 C curve accuracy level in identifying severe wasting was 0.86 (95% CI: 0.82, 0.89).

292 Severe wasting was defined as having a weight for length z scor

293 The prevalence of severe and moderate wasting was n = 101 (21.6%) and n = 61 (13.0%), respecti

294 While achieving ~60% reduction in sample waste, we determine the structure of the enzyme 3-deoxy-

295 Much of this organic waste will likely be composted and applied to farms.

296 pp, we find that over 19 months, 90t of food waste with an equivalent retail value of pound 0.7 milli

297 semicrystalline polyethylene (PE) packaging waste with the aim of understanding the physical mechani

298 ous form of undernutrition, characterized by wasting with or without edema.

299 rate coordinate induction of systemic muscle wasting with tumour-autonomous Yorkie-mediated SLC36-fam

300 y work environment and greater movement of e-waste workers.