ライフサイエンスコーパス: cleaning

1 accumulation by ingestion of clean plastic ("cleaning").

2 ort, and other functions such as sensing and cleaning.

3 obic surface for applications involving self-cleaning.

4 dren and adolescents are widely used in data cleaning.

5 s can be easily removed from the reactor for cleaning.

6 ics for sportswear as well as cloth used for cleaning.

7 ted terminal cleaning, and enhanced terminal cleaning.

8 low-through cell, data acquisition, and cell cleaning.

9 ae) that were not significantly altered with cleaning.

10 hether environmental peanut persists despite cleaning.

11 emoval rates resulting from air exchange and cleaning.

12 fungal surface communities before and after cleaning.

13 automatic quantification of UA with in situ cleaning.

14 d and contaminated microplastics without any cleaning.

15 porary removal of the endoscope for external cleaning.

16 : brushing, interdental cleaning, and tongue cleaning.

17 ystems may find applications in space-debris cleaning.

18 drophobically coated glass through CO2 laser cleaning.

19 and activities such as smoking, cooking, and cleaning.

20 nti-fouling, anti-smudge, anti-fog, and self-cleaning.

21 erial to be applied to the field of flue gas cleaning.

22 After extensive data cleaning, 1465 cases, 5557 ancestry-matched controls and

23 ceeded threshold when sampled after terminal cleaning (391 RLU and 264 RLU, respectively), and levels

24 ction room surfaces were sampled (396 before cleaning, 396 after cleaning) using 3 cleaning methods.

25 After data cleaning, 4,378 cases and 50 attributes are stored and c

26 tion of injection clinic and before terminal cleaning (63 RLU; P = 0.27), and was significantly lower

27 ATP level was below threshold after terminal cleaning (71 RLU), was unchanged at the completion of in

28 of the injection clinic and before terminal cleaning (780 RLU and 626 RLU, respectively; P < 0.003).

29 ygiene for everyone (7/8); (6) environmental cleaning (8/8); (7) medical equipment disinfection (7/8)

30 soap at key events (after defecation, after cleaning a child's bottom, before food preparation, and

31 ue cuticle with antiwetting properties, self-cleaning abilities, antireflection, enhanced color, adhe

32 r when exposed to UV as a result of the self-cleaning ability of this schottky junction photocatalyst

33 of time spent in food preparation, post-meal cleaning activities (e.g., dish-washing), clothing maint

34 We examined the relation between household cleaning activities (washing dishes/clothes, mopping, to

35 er have not accounted for specific household cleaning activities that could enhance THM exposures.

36 ures during performance of routine household cleaning activities were shown for the first time to exe

37 During cleaning activities, SOA concentrations can reach 20 mug

38 en the door to the development of novel self-cleaning adhesives, smart surfaces, microelectromechanic

39 agent with a preselected low emitting floor cleaning agent in four offices located in four EU countr

40 d after the replacement of the regular floor cleaning agent with a preselected low emitting floor cle

41 After the replacement of the cleaning agent, substantially lower concentrations of li

42 ice in a fifth country did not use any floor cleaning agent.

43 relationship between exposure to one or more cleaning agents and WRA.

44 All the regular cleaning agents emitted terpenes, mainly limonene and li

45 Cleaning agents often emit terpenes that react rapidly w

46 alth and environmental risks associated with cleaning agents.

47 rt rinse with the feed solution and no added cleaning agents.

48 ropyl alcohol, dilute bleach, and mechanical cleaning all lack the ability to remove cellular debris

49 ry points for mice, trap placement, targeted cleaning, allergen-proof mattress and pillow encasements

50 ted with a no-rinse, quickly vaporizing skin cleaning and caring lotion.

51 In baseline terminal cleaning and directed terminal cleaning, the median ATP

52 inated surfaces must be targeted for routine cleaning and disinfection because there is a constant in

53 Assuring appropriate cleaning and disinfection or sterilization of medical eq

54 troduced each day, and challenges related to cleaning and disinfection, environmental accumulation of

55 ocessing procedures to ensure optimal manual cleaning and disinfection.

56 s, Gingival Bleeding Index, and, after tooth cleaning and drying, caries experience (noncavitated and

57 Several parameters were optimized: cleaning and elution sequences applied to the MSPD cartr

58 Simulated cleaning and extraction studies indicate that the level

59 issimus, suggest a trade-off between seeking cleaning and foraging; individuals decreased their forag

60 eatography have highlighted the challenge of cleaning and high-level disinfection of these instrument

61 xhibits better flux recovery up to 94% after cleaning and hydraulic pressure impulsion.

62 erials retain structural integrity following cleaning and ion-exchange steps in boiling solutions, si

63 Besides cleaning and mapping of input sequences to miRNAs, Chimi

64 C cathodic polarization results in efficient cleaning and regeneration of the adsorbent material, thi

65 substrates are also easy to fabricate, self-cleaning and reusable.

66 erum PBDEs were associated with turnout gear cleaning and storage practices after fires.

67 s have been proposed such as improved street cleaning and the use of dust suppressants.

68 Because their self-cleaning and water resistant properties prohibit bacteri

69 cs of treatment (mixing, spraying, equipment cleaning) and reentry tasks.

70 room/cohorting, hand hygiene, environmental cleaning, and antibiotic stewardship); advanced infectio

71 After data cleaning, and eliminating previously stented or cut papi

72 aseline terminal cleaning, directed terminal cleaning, and enhanced terminal cleaning.

73 reen-based media use than HM (i.e., cooking, cleaning, and laundry combined).

74 luded isolation, hand hygiene, environmental cleaning, and rapid diagnostic testing.

75 l outcome represented time since last dental cleaning, and the authors adjusted for individual-level

76 entified for analysis: brushing, interdental cleaning, and tongue cleaning.

77 ies (washing dishes/clothes, mopping, toilet cleaning, and washing windows/surfaces) and urinary THM

78 of applications including anti-fouling, self-cleaning, anti-smudge, and low-drag.

79 anti-fouling, anti-fogging, anti-icing, self-cleaning, anti-smudge, and oil-water separation applicat

80 faces are of interest for anti-fouling, self-cleaning, anti-smudge, low-drag, anti-fog, and oil-water

81 paper, glass, and steel for a myriad of self-cleaning applications.

82 and roughness could be of interest for self-cleaning applications.

83 Many cleaning approaches for microarray data exist, however t

84 ntroduced by experimental protocols and data-cleaning approaches.

85 lab-on-a-chip, sensor, microreactor and self-cleaning are presented.

86 results underline the importance of routine cleaning as a means of managing the microbial ecosystem

87 t planing, whereas CG received supragingival cleaning at baseline and scaling and root planing at 6 m

88 ation is not possible after such supervised "cleaning", because effects beyond those stipulated by th

89 % of brushing behavior, 22.7% of interdental cleaning behavior, and 9.5% of tongue cleaning behavior.

90 dental cleaning behavior, and 9.5% of tongue cleaning behavior.

91 vioral control with brushing and interdental cleaning behaviors when designing interventional efforts

92 Fishes that exhibit parasite cleaning behaviour experience a significantly lower risk

93 carryover and the requirement of instrument cleaning between samples, thereby effectively reducing o

94 Post-cleaning biofilm redevelopment is more rapid and more co

95 rite (NaClO) is commonly applied in membrane cleaning, but its potential use as a pretreatment for co

96 We demonstrate the utility of pipette cleaning by developing the first robot to perform sequen

97 bacteria in solution at high rates and with cleaning by simple sonication between exposures.

98 Our analyses indicate that data "cleaning" can be an important component of high-throughp

99 Along with their durability and self-cleaning capabilities, we have demonstrated drag reducti

100 gn, we prepared a material surface with self-cleaning capability when subjected to standardized food

101 icle dynamic response leads to a robust self-cleaning capability, allowing geckos to efficiently disl

102 ESTclean is a software package not only for cleaning cDNA sequences, but also for helping to develop

103 to the superficial region, including surface cleaning, changes in the oxidation state of the copper,

104 s who reported smelling oil, dispersants, or cleaning chemicals had an elevated prevalence of depress

105 airborne total hydrocarbons exposure, use of cleaning chemicals, and participant demographics.

106 ded by manufactures, vendors, and commercial cleaning companies, it is time for a multifaceted interv

107 opment of superhydrophobic surfaces for self-cleaning, condensation heat transfer enhancement and ant

108 staining response after exposure to wear and cleaning conditions indicate the potential for protein a

109 ity of those domains after in vitro wear and cleaning conditions.

110 ing strategy is presented that involves self-cleaning Cu catalyst electrodes with unprecedented catal

111 e package is divided into web-crawling, HTML-cleaning, de-identification and information extraction m

112 Recently, a novel cleaning device has been described using an ultrasonical

113 WOP-EP can be scaled up as an efficient air-cleaning device to control fine particle and nanoparticl

114 ts of Alconox remaining in the pipette after cleaning did not affect ion channel pharmacology.

115 ng methods were evaluated: baseline terminal cleaning, directed terminal cleaning, and enhanced termi

116 es the evidence examining current methods of cleaning, disinfecting, and monitoring cleanliness of pa

117 essential device reprocessing steps such as cleaning, disinfection/sterilization, and storage have b

118 ed laboratory bioassay systems, dilution and cleaning dominate, leading to decreased bioaccumulation.

119 are further purified by exploiting the "self-cleaning" effect which results from the "colloidal recry

120 Extraction efficiency as well as cleaning effectiveness, laboriousness and speed were tak

121 oscopy, and laser ablation ICPMS to evaluate cleaning efficacy.

122 The fouling resistance and cleaning efficiency of the functionalized membranes is p

123 -noise suppression, and programmed interface cleaning, enabling excellent reproducibility for continu

124 ial stewardship program (ASP), environmental cleaning (ENV), decolonization methods (DCL), or source

125 nd applications in catalysis, drug delivery, cleaning, etc.

126 ts as a short-term signal, leading to daily "cleaning" events around the algae.

127 Results from the physical cleaning experiments further showed that the water flux

128 nanogenerator with superhydrophobic and self-cleaning features is invented to harvest water drop ener

129 gnificantly lower risk of predation than non-cleaning fishes, and fishes that are nocturnally active

130 l was the strongest predictor of interdental cleaning, followed by increased age and attitude.

131 le sex was the strongest predictor of tongue cleaning, followed by subjective norms, decreased age, a

132 The self-cleaning function of superhydrophobic surfaces is conven

133 ped a simple, fast, and automated method for cleaning glass pipette electrodes that enables their reu

134 Google searches for buying and cleaning guns increased.

135 The effects of plasma cleaning have been investigated by atomic force microsco

136 harvesting solar energy to metabolonics for cleaning heavy and metal and organic molecule pollutions

137 The frequency of cleaning household surfaces was not associated with S au

138 osites with varying surface texture and self-cleaning hydrophobicity properties.

139 d implemented a new program for raw sequence cleaning in a graphical user interface and a batch scrip

140 o be used directly in final rinse samples of cleaning in place systems (CIP) of food manufacturers.

141 tigates organic fouling and osmotic backwash cleaning in PRO and the resulting impact on projected po

142 , and efficient device for endotracheal tube cleaning in the clinical setting.

143 Cleaning-in-place (CIP) procedures were developed to ext

144 sit rates, clientele composition, and use of cleaning incitation signals, clients did not retaliate a

145 al health care, food, and pharmaceutical and cleaning industries.

146 ory health and disease and are essential for cleaning inhaled pollutants and pathogens from airways.

147 We conducted in situ observations of cleaning interactions between bluestreak cleaner wrasses

148 tine surface hygiene monitoring for targeted cleaning interventions and as a tool to investigate rout

149 Professional and domestic cleaning is associated with work-related asthma (WRA).

150 rganic film from the nanoelectrode by plasma cleaning, is also discussed.

151 initially supplied to the torch, cooling and cleaning it and feeding most of the argon back to the ou

152 r areas of resources, materials, processing, cleaning, life cycle assessment, renewability, amongst o

153 roposed as benign immediately after terminal cleaning (<250 CFU/100 cm(2)).

154 ins most current examples of commercial self-cleaning materials, such as: glass, tiles, concrete, pai

155 s offer insights for the development of self-cleaning materials.

156 recautions and more aggressive environmental cleaning may decrease transmission.

157 as polyethylene, the dilution, carrier, and cleaning mechanism are more substantial.

158 Here we report a unique self-cleaning mechanism possessed by the nano-pads of gecko s

159 ine systems a decrease is predicted due to a cleaning mechanism that counteracts biomagnification.

160 Here, we demonstrate a unique self-cleaning mechanism whereby the contaminated superhydroph

161 Understanding gecko adhesion and self-cleaning mechanisms is essential for elucidating animal

162 bio-fouling by developing a killing and self-cleaning membrane surface incorporating antibacterial si

163 inated water was effectively removed using a cleaning method of 0.5%Triton X-100 sonication plus 1 N

164 This cleaning method was then used on hair samples from child

165 We developed a hair cleaning methodology to establish the utility of hair as

166 the baseline terminal and directed terminal cleaning methods (P < 0.003).

167 Surface ATP RLUs were used to compare cleaning methods and against an ATP benchmark of fewer t

168 The first example investigates how different cleaning methods influence the quality of SAM template f

169 e available for healthcare professionals and cleaning methods must be acceptable and safe for intermi

170 Differences between cleaning methods were compared by using paired t tests w

171 Three cleaning methods were evaluated: baseline terminal clean

172 Forty-nine studies examined cleaning methods, 14 evaluated monitoring strategies, an

173 universal gloving, greater use of sporicidal cleaning methods, enhancing antibiotic and possibly prot

174 before cleaning, 396 after cleaning) using 3 cleaning methods.

175 und the home and might be resistant to usual cleaning methods.

176 A model featuring independently evoked cleaning movements activated in parallel, but selected s

177 The current evidence does not support a cleaning mutualism between burying beetles and P. carabi

178 amine how motorboats affect an interspecific cleaning mutualism critical for coral reef fish health,

179 In this letter, we show the possibility of cleaning nanoelectrode surfaces nondestructively by usin

180 The effects of polishing and cleaning nanoelectrodes are investigated, and AFM result

181 The concept of continuous in situ cleaning not only reveals the tremendous sensing potenti

182 ments in the last decade, continuous in situ cleaning of carbon nanotubes with ultraviolet light duri

183 lectroanalysis, it avoids the time-consuming cleaning of electrochemical cells between measurements.

184 Muscular motion and dynamic self-cleaning of gecko toe pads are mimicked via this mechani

185 The cleaning of hard surfaces in hospital rooms is critical

186 re reduced but still present after detergent cleaning of laminate and wooden table surfaces, pillows,

187 Intensive cleaning of surfaces in contact with neonates decreased

188 via the reduction of water, and for in situ cleaning of the electrode, post oxidation of sulfide.

189 take-home exposures and indirectly frequent cleaning of the home to avoid buildup of pesticide resid

190 solar concentration infrastructure, and the cleaning of the mirrors.

191 the data to a centralized database, and the cleaning of the same also posed some challenges.

192 ical tools, textiles, water harvesting, self-cleaning, oil spill removal and microfluidic devices.

193 Cleaning one body part reduces the sensory drive to its

194 ratory distress and/or skin injury following cleaning operation of home aquaria containing Palythoa s

195 ratory distress and/or skin injury following cleaning operation of home aquaria containing Palythoa s

196 cal impact, from solar cell coatings to self-cleaning optical devices.

197 ment composition, treatment technology, seed cleaning or an interaction of these factors.

198 ays, without the need or use of any membrane cleaning or backwashing.

199 Online electrochemical surface cleaning permitted the improvement of the repeatability

200 cluding energy storage, surface wetting/self-cleaning, photocatalysis and sensors.

201 1000 Genomes Project, we outline an analysis/cleaning pipeline that utilizes our approach to formally

202 duty tarp, and nitrile) with and without pre-cleaning practices (prewiping, covering, or both) and so

203 could potentially help validate or optimise cleaning practices for a given food manufacturing proces

204 independently of chlorine type, surface, pre-cleaning practices, and organic matter, as an efficaciou

205 brushing frequency, days since professional cleaning, probing depth [PD], and plaque index) were als

206 A complex and time-consuming cleaning procedure is a common solution for this problem

207 ope cover glass following a straight-forward cleaning procedure.

208 fogging occlude the lens, requiring lengthy cleaning procedures that include irrigation, tissue rubb

209 ul tool for monitoring allergen levels after cleaning procedures, providing additional data that may

210 ing simulations we demonstrate that standard cleaning procedures, such as background correction and q

211 that were both subjected to various surface-cleaning procedures.

212 latform developed is reusable after a simple cleaning process and can be designed to exhibit differen

213 The cleaning process consists of several modules including b

214 se for several days and are reusable after a cleaning process in ultrapure water.

215 e useful for monitoring the effectiveness of cleaning processes and as consequence, can help to preve

216 We estimated dust removal rates from cleaning processes using an indoor-particle mass-balance

217 such as environmental monitoring, industrial cleaning processes, biomedical and bioprocessing and man

218 r reviews the literature linking exposure to cleaning products and the risk of asthma and focuses on

219 Cleaning products are associated with many health and en

220 Contamination of water resources by cleaning products is more likely to occur with septic ta

221 men's ideas about water sources and the risk cleaning products pose to health and sewage in Merida, a

222 Fabrics, a plush toy, and cleaning products were most likely to release silver.

223 ducts, breast milk storage bags, sippy cups, cleaning products, humidifiers, and humidifier accessory

224 ntly emitted, for instance from emissions of cleaning products.

225 An easily adopted enhanced terminal cleaning program reduced surface ATP bioburden in intrav

226 o known to exhibit some antifogging and self-cleaning properties.

227 nts were randomly assigned to control group (cleaning protocol by steaming) or test group (plasma of

228 An effective chemical cleaning protocol was developed for regeneration of foul

229 a procedure similar to the typical membrane cleaning protocol, in situ membrane regeneration is not

230 sk of acquiring MDROs compared with standard cleaning protocols.

231 Cleaning raw datasets of bad data points (incorrect pedi

232 It outperforms in cleaning read sequences from complicated sequencing prot

233 time taken to quantify UA concentration and cleaning remains below 0.5 s.

234 Chemical cleaning removed most of the SMP foulant and as a result

235 tforms that eliminate any steps of electrode cleaning, representing a powerful alternative for precis

236 mation, and detachment during separation and cleaning, respectively.

237 The main findings were that frequent vacuum cleaning resulted in lower FR concentrations in dust and

238 Five commercially available domestic cleaning robots were evaluated on their effectiveness fo

239 Although the presence of environmental cleaning services (41.3% reduction, P = .01) and a micro

240 ted the role of hygiene factors (e.g., house cleaning, shoe removal).

241 d that hand dishwashing, mopping, and toilet cleaning significantly (p < 0.001) increased urinary THM

242 Importantly though, water inputs for cleaning solar panels and dust suppression are similar t

243 , and locally sourcing consumables (eg, hand cleaning solution made of alcohol from the local distill

244 r filling and draining them with readout and cleaning solutions, thus making the readout process full

245 astic packaging, electricity, and industrial cleaning solutions.

246 Cleaning sprays, bleach, ammonia, disinfectants, mixing

247 res encompass the following: substitution of cleaning sprays, bleach, and ammonia; minimizing the use

248 ted bathrooms for sick persons and informing cleaning staff (professional or otherwise) about the nee

249 superomniphobic surfaces, which can be self-cleaning, stain-proof, anti-bio-fouling, drag-reducing,

250 lycan samples involves multiple reaction and cleaning steps at which sample loss occurs, glycan analy

251 on January 9, 2014 from coal processing and cleaning storage tanks of Freedom Industries in Charlest

252 nificantly lower after adding UV to standard cleaning strategies (n=76; 33.9 cases per 10 000 exposur

253 Traditional cleaning strategies do not remove all environmental MDRO

254 Various cleaning strategies were explored to regenerate the memb

255 l/solvent ratio, and establishment of column cleaning strategy and maximum number of injections were

256 Filtration and cleaning studies confirmed that the modification signifi

257 oth hard and soft materials to create a self-cleaning surface that functions even upon emersion in oi

258 ant in microfluidic liquid handling, on self-cleaning surfaces and in heat transfer.

259 Superhydrophobic self-cleaning surfaces are based on the surface micro/nanomor

260 sed on superhydrophobicity, such as the self-cleaning surfaces on plant leaves and trapped air on imm

261 ve films in light-driven locomotion and self-cleaning surfaces, and anticipate further applications i

262 ranging from photonic security tags to self-cleaning surfaces, gas separators, protective clothing,

263 as photonic inks, colorimetric sensors, self-cleaning surfaces, water purification systems, or batter

264 We found support for this hypothesis in the cleaning symbiosis between crayfish and ectosymbiotic br

265 nitored and they received professional tooth cleaning (T0).

266 ease of use, safety and effectiveness of the cleaning technique will need to be convincingly demonstr

267 cross-contamination was encountered despite cleaning techniques suitable for HIV-1.

268 coal combustion mostly because of efficient cleaning techniques used at the power plant.

269 year (p=0.18), owning a toothbrush (p=0.99), cleaning teeth twice a day (p=0.68), requiring urgent de

270 eproducibly cleaned by mechanical polishing, cleaning the nanoelectrode surface is challenging becaus

271 ependently of patient compliance; therefore, cleaning the patients' dentures should be part of nursin

272 lose to the original performance level after cleaning the surfaces for 10-20 cycles in H2SO4 on all m

273 line terminal cleaning and directed terminal cleaning, the median ATP level of all surfaces exceeded

274 In enhanced terminal cleaning, the median ATP level was below threshold after

275 icipants (N = 101) were video-recorded while cleaning their teeth.

276 phobic photocatalytic surfaces that are self-cleaning through light-induced photodegradation and the

277 here it finds applications ranging from self-cleaning to icephobicity and to condensation systems.

278 rface will provide the basis for a full data cleaning tool that will allow the user to remove isolate

279 " protocol, with and without plasma of argon cleaning treatment.

280 Here, different gold electrode cleaning treatments were compared with respect to adsorp

281 Synthesis of self-cleaning ultrafiltration membrane with long lasting prop

282 otential respiratory effects associated with cleaning up an oil spill.

283 hese new explosives, feasible strategies for cleaning up DNAN from soil and water have not been devel

284 nts, sample throughput and effectiveness for cleaning-up complex samples.

285 erms of the sorbents used for extracting and cleaning-up.

286 do-outbreak was resolved after environmental cleaning, use of high-efficiency particulate air filtrat

287 tion room surfaces before and after terminal cleaning using the 3M Clean-Trace ATP System.

288 were sampled (396 before cleaning, 396 after cleaning) using 3 cleaning methods.

289 eanliness, we found that upon systematically cleaning via a plasma or locally pushing the tip into th

290 re higher in dentate individuals at all post-cleaning visits (P <0.01).

291 The substantial performance recovery after cleaning was attributed to the partial restoration of th

292 ncluding microfluidics, drag reduction, self-cleaning, water harvesting, anti-corrosion, anti-fogging

293 Maintenance costs associated with cleaning were estimated to be 0.23 kWh or $0.029/batch o

294 roplets that are easily removed by crossflow cleaning, whereas a high flux (85 mum/s) leads to signif

295 In patients with exposed root surfaces, cleaning with bicarbonate powder cannot be recommended.

296 patients was not changed after adding UV to cleaning with bleach (n=38 vs 36; 30.4 cases vs 31.6 cas

297 completely removed from granite tables after cleaning with detergent, and levels were reduced but sti

298 A QuEChERS method and a subsequent d-SPE cleaning with MgSO4 and C18 were used for samples prepar

299 fertilizers (OR = 1.7; 95% CI: 1.1, 2.7) and cleaning with solvents (OR = 1.6; 95% CI: 1.1, 2.4), but

300 To investigate the impact of cleaning within a NICU, a high-throughput short-amplicon