ライフサイエンスコーパス: cleaning

1 roduct use and audit of frequent touch point cleaning.

2 ling, even when experienced only during cage cleaning.

3 r phase with increased walking and posterior cleaning.

4 ity values when testing membranes after NaOH cleaning.

5 ict infection control measures and equipment cleaning.

6 d and contaminated microplastics without any cleaning.

7 porary removal of the endoscope for external cleaning.

8 : brushing, interdental cleaning, and tongue cleaning.

9 ystems may find applications in space-debris cleaning.

10 drophobically coated glass through CO2 laser cleaning.

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

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

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

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

15 obic surface for applications involving self-cleaning.

16 dren and adolescents are widely used in data cleaning.

17 nd gas (functionalized activated carbon) air-cleaning.

18 oduct use, and audit of frequent touch-point cleaning.

19 en colonized by pathogens despite daily sink cleaning.

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

21 (70%), hand hygiene (50%), and environmental cleaning (40%); nearly all studies with these interventi

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

23 teria, while debridement involves physically cleaning a wound (e.g. with a cloth); removing free bact

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

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

26 HOCl and Cl(2) can reach high levels during cleaning activities (100s of ppb or higher).

27 unch, and dinner preparation interspersed by cleaning activities) and rose to 149 mug during a simula

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

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

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

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

32 Traditional methods of data cleaning and data quality control are just not sufficien

33 If vaccination was combined with cleaning and disinfection of transport vehicles twice a

34 Assuring appropriate cleaning and disinfection or sterilization of medical eq

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

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

37 ing for such experiments, especially surface cleaning and functionalization, remains labor-intensive

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

39 Meticulous excavation, cleaning and high-resolution micro-CT scanning of the St

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

41 to examine associations between interdental cleaning and oral health in a large, generalizable prosp

42 ail with tunnel handling during routine cage cleaning and procedures provides a major refinement with

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

44 Our particle picking method, based on image cleaning and shape detection with a modified Circular Ho

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

46 ompound (VOC) levels increased rapidly after cleaning and then decreased with removal rate constants

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

48 igated by increasing ventilation, damp cloth cleaning, and minimizing the use of phthalate-containing

49 cements of ammonia occurring during cooking, cleaning, and occupancy activities, reaching maximum con

50 cribed everyday activities, such as cooking, cleaning, and opening doors and windows.

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

52 ng everyday activities, including desk work, cleaning, and resting.

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

54 rs, alcohol hand rub, enhanced environmental cleaning, and weekly bathing of babies >=1.5 kg with 2%

55 materials that need to retain effective self-cleaning, anti-fouling or heat-transfer abilities in har

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

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

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

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

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

61 Many cleaning approaches for microarray data exist, however t

62 ntroduced by experimental protocols and data-cleaning approaches.

63 Therefore, chemical contamination and cleaning are likely to occur simultaneously due to the i

64 Cleaning art, in particular modern/contemporary painting

65 eport several WSOGs emitted from cooking and cleaning as well as transported in from outdoors.

66 tive mixing); applications in detergency and cleaning, as well as for oil recovery in porous media.

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

68 Professional tooth cleaning before the SRP does not improve the clinical re

69 ea, Stenopodidea) is famous for its specific cleaning behavior in association with client fish and an

70 % of brushing behavior, 22.7% of interdental cleaning behavior, and 9.5% of tongue cleaning behavior.

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

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

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

74 Implementing the cleaning bundle cost $349 000 Australian dollars (AUD) a

75 Implementing the cleaning bundle cost AUD$349,000 and generated $147,500

76 the cost-effectiveness of the environmental cleaning bundle for reducing the incidence of HAIs.

77 tio and net monetary benefit of adopting the cleaning bundle over existing hospital cleaning practice

78 Infections prevented under the cleaning bundle returned a net monetary benefit of AUD$1

79 Infections prevented under the cleaning bundle returned a net monetary benefit of AUD$1

80 s (REACH) trial implemented an environmental cleaning bundle targeting communication, staff training,

81 s (REACH) study implemented an environmental cleaning bundle targeting communication, staff training,

82 trol) two appointments of professional tooth cleaning but with motivation and instruction were monito

83 n, often lead to extending the validation of cleaning by days.

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

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

86 e the SO(2) separation but only a matrix pre-cleaning by solid phase extraction.

87 fouling property is introduced for quick oil-cleaning by water even with the surface fouled by oil be

88 Activities such as household cleaning can greatly alter the composition of air in ind

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

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

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

92 features grant residue-free, time efficient cleaning capacity and effective dirt capture, defeating

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

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

95 Cleaning, communication, and safety were ranked lower (a

96 ion, is likely to occur rapidly under common cleaning conditions, potentially leading to the irritati

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

98 otype for analyzing trace samples of API and cleaning detergents with various substrates.

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

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

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

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

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

104 ry discusses the importance of environmental cleaning during the pandemic and the essential role of e

105 The cleaning effect of ELT is due to the ability to inactiva

106 ensory input to a given body part to measure cleaning effectiveness.

107 d design tools are needed towards optimising cleaning efficacy.

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

109 d to swelling of the active layer after each cleaning, especially for poly(piperazineamide) membranes

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

111 nt cyclic voltammetric signals in Au surface cleaning experiments and detecting benchmark redox speci

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

113 ost-bronchodilator lung function, atopy, and cleaning exposures were assessed in 425 cleaners and 281

114 ting, water purification membranes, and self-cleaning films.

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

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

117 ve pore radii for these membranes after NaOH cleaning for 18 h led to 25, 36, 53 and 62% decrease in

118 sociations between wave 3 weekly interdental cleaning frequency and 6 measures of self-reported oral

119 Interdental cleaning frequency improved only in the intervention gro

120 faction is associated with factors including cleaning frequency, sharing, and type of toilets, and we

121 DCTPP1 also exhibits an additional "house cleaning" function as it has been shown to be highly act

122 this transparent, mechanically robust, self-cleaning glass could help to negate the dust-contaminati

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

124 ed with no interdental cleaning, interdental cleaning >=7 times/wk was prospectively associated with

125 Google searches for buying and cleaning guns increased.

126 Model results suggest that, following cleaning, H(2)O(2) photolysis increased OH concentration

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

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

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

130 (H(2)O(2)) from household non-bleach surface cleaning in a chamber designed to simulate a residential

131 017, the Researching Effective Approaches to Cleaning in Hospitals (REACH) study implemented an envir

132 17, the Researching Effective Approaches to Cleaning in Hospitals (REACH) trial implemented an envir

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

134 branches), which are separated during olives cleaning in the mill, have received little attention.

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

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

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

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

139 , we use video observations to analyze >1000 cleaning interactions and record >850 incidents of cheat

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

141 Marine cleaning interactions have been useful model systems for

142 -Pacific, our study highlights that although cleaning interactions in both ocean basins are ecologica

143 As compared with no interdental cleaning, interdental cleaning >=7 times/wk was prospect

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

145 We assessed implant cleaning interventions on (1) bacterial removal from Ti-

146 vidence-based approach to improving hospital cleaning is a cost-effective intervention for reducing t

147 Cleaning is associated with an increased risk of asthma

148 Interdental cleaning is associated with better perceived oral health

149 Interdental cleaning is routinely recommended, despite limited evide

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 Floor bleach cleaning led to prolonged, substantial decreases of up t

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

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

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

156 to 2.3 x 10(7) molec cm(-3) depending on the cleaning method and lighting conditions.

157 This cleaning method can also remove Br(-) ions from Rh nanoc

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

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

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

161 growth surface treatments, often employed as cleaning methods, were investigated.

162 esults relative to problem formulation, data cleaning, modeling decisions, and interpretations.

163 sory inputs change as a result of successful cleaning movements.

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

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

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

167 experimentally demonstrate the spatial self-cleaning of a highly multimode optical beam, in the proc

168 Cleaning of cafes/restaurants/kitchens and using upholst

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

170 The cleaning of hard surfaces in hospital rooms is critical

171 possibility of using a probe for validating cleaning of hard to reach areas using DUV laser-induced

172 g glove use; isolation precautions; enhanced cleaning of lenses and ophthalmoscopes between all exami

173 reme outliers but an absence of tools limits cleaning of longitudinal anthropometric measurements.

174 ally brief, and appropriate use of gowns and cleaning of personal stethoscopes varied among observed

175 chemistry at heterogeneous interfaces, self-cleaning of surfaces, and safe and effective disinfectio

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

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

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

179 We investigate impacts of air-cleaning on indoor TRAP levels and indoor chemistry in a

180 accurate, and portable instruments to verify cleaning onsite has to be filled.

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

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

183 aOR of 1.65;95%CI 1.07-2.62), and working in cleaning or security (aOR of 10.1;95%CI 3.40-26.9).

184 pbv gaseous H(2)O(2) were observed following cleaning, orders of magnitude higher than background lev

185 laque and bleeding and increased interdental cleaning over 12 weeks.

186 We developed and optimised a protocol for cleaning paediatric height and weight data that incorpor

187 oplastic was capable of rapidly extracting ("cleaning") PCBs from food inside the gut, thus demonstra

188 Online electrochemical surface cleaning permitted the improvement of the repeatability

189 consists of two phases: (1) a semantic data-cleaning phase and (2) a domain-specific data-cleaning p

190 leaning phase and (2) a domain-specific data-cleaning phase.

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

192 1000 Genomes Project, we outline an analysis/cleaning pipeline that utilizes our approach to formally

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

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

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

196 st-effective compared with existing hospital cleaning practices.

197 g the cleaning bundle over existing hospital cleaning practices.

198 ng precursors, scaling calculations show air-cleaning prevented ~3.4 mg/h of indoor SOA formation due

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

200 n of devices (2-3 d), transfer of MoS(2) and cleaning procedure (24 h), the creation of nanopores wit

201 dure which involves (1) a modified substrate cleaning procedure and (2) prebake at 700 degrees C in 2

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

203 The modified cleaning procedure is environmentally friendly and elimi

204 The cleaning procedure was validated by using bayou water wi

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

206 ed from 17.8 to 15.9 L/m(2)s after the laser cleaning procedure.

207 arge nanoemulsions (LCNEs) required rigorous cleaning procedures and proper solvent storage condition

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

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

215 t with housing materials, antimicrobials and cleaning products, and increased exposure to chemical di

216 s derive from a variety of sources including cleaning products, cooking practices, fragrances and fre

217 organic compounds (VOCs) arising from use of cleaning products, fragrance, and air fresheners, with H

218 Indoor ammonia is strongly emitted from cleaning products, tobacco smoke, building materials, an

219 ith indoor lighting during the use of common cleaning products.

220 uch as nutraceuticals, additives for food or cleaning products.

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

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

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

224 ge; how mice were selected into a cage; cage cleaning protocols; and transfer of nesting material.

225 Air-cleaning reduced indoor TRAP to below or near urban back

226 occult constipation" were then given a bowel cleaning regimen with Polyethylene glycol 3350, re-evalu

227 hloride (NCl(3)) mixing ratios during bleach cleaning reported herein are likely detrimental to human

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

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

230 iated with improvements in the prevalence of cleaning rotas (relative risk 1.16, 95% CI 1.05-1.30; p=

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

232 llion by volume levels indoors during bleach cleaning-several orders of magnitude higher than typical

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

234 nging, as several parameters affecting teeth cleaning should be considered: the food's complex mechan

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

236 be useful for formulating into contact lense cleaning solutions and reducing AK incidence.

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

238 astic packaging, electricity, and industrial cleaning solutions.

239 C18 was used as sorbent and an extra cleaning step with n-hexane was added.

240 n the plasma and introducing a preferential "cleaning" step.

241 improving quality and reducing the number of cleaning steps.

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

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

244 Various cleaning strategies were explored to regenerate the memb

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

246 rogen chloride, components commonly found in cleaning supplies, fertilizer, and the production of mat

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

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

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

250 nd droplet measures (such as handwashing and cleaning surfaces) and attend to masking and ventilation

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

252 roll-to-roll nano-imprint fabrication, self-cleaning surfaces, and micro-reactors.

253 is important to applications including self-cleaning surfaces, microfluidics, and phase change energ

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

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

256 setup with an automated pipette pressure and cleaning system facilitating recordings of up to 10 neur

257 ur primary outcomes were having a rotational cleaning system in place (to improve hygiene); having a

258 When the air cleaning system was inactive, our data show that indoor

259 Loss rates of NO(2) and O(3) through the air-cleaning system were ~1.5-2.4 h(-1) and ~2.3 h(-1), resp

260 Time-resolved measurements show air-cleaning systems are effective, with in situ particle re

261 Air-cleaning systems suppressed indoor chemistry by reducing

262 We report on advanced cleaning systems, based on twin-chain polymer networks m

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

264 ting communication, staff training, improved cleaning technique, product use and audit of frequent to

265 ting communication, staff training, improved cleaning technique, product use, and audit of frequent t

266 The effects of different household cleaning techniques to reduce the concentration of pesti

267 address this problem via non-invasive teeth cleaning techniques, such as through friction between te

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

269 absorbing moisture; (b) uptaking water; (c) cleaning the body surface; and (d) fastening the body on

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

274 ly from an early phase dominated by anterior cleaning to a later phase with increased walking and pos

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

276 ations support preserving used nests at cage cleaning to maintain familiar odors in the new cage.

277 ns to preserve used nesting material at cage cleaning to maintain odor familiarity.

278 workflows (which include all steps from data cleaning to summaries) are included with the installatio

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

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

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

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

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

284 ulture, biotechnology/chemical industry, and cleaning utensils.

285 Cleaning verification and validation is a requirement in

286 evices that do effective and accurate onsite cleaning verification, it is mostly done via lab-based q

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

288 Air-cleaning was 83% and 69% efficient, respectively, in rem

289 We showed that cleaning was consistently more frequent when the presenc

290 The thermal cleaning was effective for at least four filtrations wit

291 The increase in permeability after chemical cleaning was in agreement with the decrease in rejection

292 Additional specific equipment cleaning was initiated.

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

294 d nitrogenated compounds in indoor air while cleaning with a commercial bleach solution during the Ho

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

296 On the other hand, cleaning with HCl had a negligible impact on the zeta po

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

298 The impact of membrane cleaning with NaOH and HCl on the characteristics and as

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 cluding human occupancy, ozone addition, and cleaning with terpene, natural product, and vinegar clea