ライフサイエンスコーパス: equipment

1 e positivity), and laboratory factors (novel equipment).

2 e, low cost, and little need for specialized equipment.

3 g printed circuit board material by benchtop equipment.

4 owing to the availability of commercial flow equipment.

5 escein) from DCFH2-DA using basic laboratory equipment.

6 fts can be crucial to ensure the use of lift equipment.

7 without need of any equipment.

8 e scan, were easily implemented on the built equipment.

9 a biological sample using standard benchtop equipment.

10 e class-related difference of sodium channel equipment.

11 ccomplished within 5min. without need of any equipment.

12 rdant widely used in electric and electronic equipment.

13 ust collected on and around surfaces of this equipment.

14 to clean room or commercial photolithography equipment.

15 d the simplicity of the required measurement equipment.

16 obviating the need to endanger personnel and equipment.

17 firefighters while using personal protective equipment.

18 abor-intensive, and require bulky and costly equipment.

19 ed antibody material and standard laboratory equipment.

20 requirement for sophisticated and expensive equipment.

21 tion using a smartphone as the sole piece of equipment.

22 e to commercial ELISA kits using specialized equipment.

23 ur when users mishandle semen using standard equipment.

24 any potential contamination from laboratory equipment.

25 d due to insufficient resolution of existing equipment.

26 mally invasive, portable clinical diagnostic equipment.

27 has been mishandled in standard and improved equipment.

28 e is no need for magnetic-based reagents and equipment.

29 ditional labels and sophisticated analytical equipment.

30 ng standard magnetic resonance imaging (MRI) equipment.

31 let pressure, as well as venting and leaking equipment.

32 rn being manpower, training, facilities, and equipment.

33 -based electrodes for use in large-scale CDI equipment.

34 ification and benchmark against a commercial equipment.

35 ire complicated procedures and sophisticated equipment.

36 uary 2013 with use of commercially available equipment.

37 y are time consuming and require specialized equipment.

38 f which are toxic to humans and corrosive to equipment.

39 complex and also required unusual laboratory equipment.

40 examination of internal components of dairy equipment.

41 ibility of multiplexed imaging with standard equipment.

42 operating conditions, such as malfunctioning equipment.

43 eal scientific challenges using modern LC/MS equipment.

44 pically slow and require expensive lab-based equipment.

45 es improvements in the usefulness of imagery equipment.

46 centrations without the need for specialized equipment.

47 igh-end laboratory-bound imaging and sensing equipment.

48 viously unattainable using standard research equipment.

49 ing it as fuel is challenging using standard equipment.

50 ne-1,6-diones without the use of specialized equipment.

51 and generating gradients without specialised equipment.

52 n 30s, using a global available and low cost equipment.

53 ming languages and electronic details of the equipment.

54 ted by the wearing down or malfunctioning of equipment.

55 these methods require specific and expensive equipments.

56 e to the ability to miniaturize the required equipment, a critical advantage over optical methods in

57 levels of quarantine and personal protective equipment according to the assumed infectivity of each p

58 Personal protective equipment after this time might be limited to standard b

59 This protocol requires no special equipment, allowing synthetic biologists and general use

60 to obtain sensitivities on-par with benchtop equipment and a shelf life exceeding 6 months.

61 liters of sample using only basic laboratory equipment and a standard TEM.

62 ents and related hazards; it requires simple equipment and achieved better recovery.

63 r, at the same site and with use of the same equipment and acquisition sequence, indicates that a tru

64 hods require trained personnel and expensive equipment and are not appropriate for point-of-care (POC

65 rious diagnostic devices including lab based equipment and biosensors.

66 methods, the choice of which depends on the equipment and budget of the lab, provide a rapid and eas

67 piles, protection (via coating) of clothing, equipment and buildings, and containment of agent spills

68 cted for potential differences in laboratory equipment and by using inverse sampling probability weig

69 ts generally requires specialized and costly equipment and can be labor and time intensive.

70 relatively inexpensive and widely available equipment and can be performed with minimal training.

71 mine a relationship between newly introduced equipment and changes in the concentrations and profiles

72 latform is compatible with existing read-out equipment and comprises a prompt method for more reliabl

73 d coal) and power plant manufacturing (e.g., equipment and construction).

74 communication and lone working, provision of equipment and consumables, and clinical tasks.

75 Equipment and DTI protocols varied across the centres.

76 plications have expanded via improvements in equipment and experimental techniques, enabling new capa

77 d ultrastructure by election microscopy, but equipment and expertise is not widely available internat

78 of such specialized centres with appropriate equipment and expertise should greatly improve the diagn

79 herwise have access to traditional (plastic) equipment and expertise.

80 out the use of expensive signal transduction equipment and facilitates the immobilization of single s

81 Despite the high equipment and facility costs to produce PET probes, many

82 tudy, alleviate the need for thermal cycling equipment and have the potential to broaden access to mo

83 methods including time-consuming, expensive equipment and high consumption of reagents, new strategi

84 n of labeled antigen, need for sophisticated equipment and highly trained individuals.

85 in resource-limited settings, from expensive equipment and infrastructure requirements to unacceptabl

86 only allowed by sophisticated and expensive equipment and laborious methods.

87 per milliliter) currently requires expensive equipment and lengthy processing times to isolate and co

88 vehicular activities, exercise protocols, or equipment and operationally driven schedule changes.

89 the nanoparticle and/or require specialized equipment and other fluorophore-containing reagents.

90 Personal protective equipment and patient environs do become positive for EB

91 , fuel used in each source, steam generation equipment and process details, and the extent of CO2 cap

92 as a function of the environment, processing equipment and product containers.

93 complex or expensive MR-compatible exercise equipment and protocols not easily tolerated by frail pa

94 ealthcare- associated outbreaks from medical equipment and provide infection prevention recommendatio

95 This protocol provides a list of the equipment and reagents required alongside a detailed des

96 However, the need for specialized equipment and refrigeration for production and distribut

97 ing health care professionals with essential equipment and resources.

98 abricate with low cost materials and minimal equipment and reusable.

99 The cost of equipment and skilled personnel to provide the service c

100 plicity of the protocol, availability of the equipment and substrate and cost-effective nature of the

101 ity and reliance on electricity, specialized equipment and supplies associated with conventional diag

102 ean all contact surfaces, such as processing equipment and tanks.

103 Ocular fundoscopy requires expensive equipment and technical expertise not often available in

104 lth policy, physical and social), artefacts (equipment and technology), tasks (procedures and work sc

105 h an authentic standard analyzed on the same equipment and using the same method as the experimental

106 nal methods without the use of sophisticated equipments and its application as a potent nano-antibiot

107 number of wells and ancillary NG production equipment) and the significantly higher production rate

108 suction apparatus, circuits, and monitoring equipment) and timely ability to match access to ventila

109 the environment, the human body, industrial equipment, and beyond.

110 m temperature, require no instrumentation or equipment, and can be carried out by untrained personnel

111 nsates for the use of different data logging equipment, and can confirm the accuracy of the timing sy

112 due to low sensitivity, need of specialised equipment, and expensive reagents for serological and mo

113 eam estimated the direct costs of personnel, equipment, and facilities used in patient care based on

114 ternal measurements and with higher fidelity equipment, and find no loss in statistical accuracy when

115 However, it requires expensive equipment, and hepatogastroenterologists are generally u

116 The method uses inexpensive equipment, and its consumables are primarily ammonium ac

117 d Health Organization-recommended amenities, equipment, and medications in each service.

118 e, PCI procedure complexity, change of x-ray equipment, and other patient- and procedure-related cova

119 Site laboratories received uniform training, equipment, and reagents for core testing methods.

120 p sequence telescoping, reaction engineering equipment, and real-time formulation.

121 immunization and cold-chain staff, assessed equipment, and recorded temperatures during vaccine stor

122 and require highly specialized expertise and equipment, and thus are not well suited for screening of

123 eas where fabrication facilities, analytical equipment, and trained personnel are limited, but the ne

124 he development of a simple, low-cost, rapid, equipment- and electricity-free paper-based test capable

125 bonates from waste electrical and electronic equipment are consigned to landfills at an increasing ra

126 mpacts of electrifying vehicles and off-road equipment are estimated for 2030 using 3-D photochemical

127 such as graphical user interfaces (GUIs) of equipment, are handled by means of image recognition too

128 vg = 0.21), suggesting noncombustion-related equipment as potential CH4 sources.

129 m fire events via boots, clothing, and other equipment as well as specialized equipment treated with

130 It requires sophisticated equipment as well as well-trained and highly skilled per

131 kforce and infrastructure (including medical equipment) as the main cost drivers.

132 is and water purification membranes, medical equipment, as well as high temperature applications.

133 nly been validated with rack-mounted support equipment, assembled with fibre lasers to marginally imp

134 upils using a standard protocol and the same equipment at both study visits, were graded centrally fo

135 esign and development of retinal stimulation equipment at the Duke Eye Center in the late 1980s; the

136 % slaughterers reported no use of protective equipment at work.

137 er match the performance of high-end optical equipment, at a tiny fraction of the price.

138 th high speed and high throughput, utilizing equipment available in most protein analysis facilities.

139 Personal protective equipment became positive during patient care, but chlor

140 rporated into toner formulations of printing equipment become airborne during consumer use.

141 access networks enables the use of low-cost equipment but diminishes the bandwidth available to end-

142 n air sampling and culture of operating room equipment but does not present evidence regarding effect

143 ngineered safeguards and personal protective equipment can reduce risks associated with working with

144 arts to deliver a simple yet powerful EC-SPM equipment capable of performing simple space-resolved el

145 fast, reliable, low-cost method with little equipment complexity.

146 that fully captures both plasma quality and equipment constraints.

147 mption of materials in constructing oilfield equipment consumes approximately 0.014 MJ of primary ene

148 hnique featuring no material waste and a low equipment cost.

149 The reported methods features low equipment-cost, convenient operation and large field of

150 High equipment costs are likely to be partially responsible.

151 (extravehicular activity suits and exercise equipment) could reduce the need for a sizable fraction

152 dy used a school-level database of cafeteria equipment deliveries between the 2008-2009 and 2012-2013

153 This low-equipment-dependent and cost-effective method can be wid

154 g, analytical science, process modeling, and equipment design.

155 isible") inflow of electrical and electronic equipment (EEE) into the domestic market.

156 metals (CMs) is in electrical and electronic equipment (EEE), which is increasingly embedded in other

157 We model aircraft and ground support equipment emissions at major U.S. airports and estimate

158 tandard capillary electrophoresis (CE) based equipment employing fluorescence detection.

159 is process is expensive and requires special equipment, experienced personnel, and time for the plast

160 ning samples, as it does not require special equipment, experimentally derived case-dependent mathema

161 de, and induce corrosion leading to downhole equipment failure.

162 d or there are significant infrastructure or equipment failures.

163 s from these studies using portable low-cost equipment, focusing on the robustness of using ISC for s

164 o includes information about custom-designed equipment for controlling crystal rotation and software

165 vides an ergonomic alternative to commercial equipment for developers of paper-based devices.

166 eagues will require development of dedicated equipment for hybrid interventions aimed at minimizing t

167 Standardized equipment for monitoring, emergency preparedness, and ai

168 sensors based on conventional spectroscopic equipment for oil spill monitoring and fingerprinting in

169 zen science data collection device, research equipment for professional scientists, or a sound art in

170 ave contributed to large-scale investment in equipment for robotic surgery without evidence of superi

171 eatability of our state-of-the-art D-DNP NMR equipment for samples of metabolomic relevance (20 mg dr

172 le method and requires only basic laboratory equipment for the large-scale global typing of Mycobacte

173 r modifications to the process or processing equipment, for bio-fortifying food products containing p

174 , Specific, User-friendly, Rapid and Robust, Equipment free, Deliverable to all end-users) status for

175 These equipment-free quantitative methods proposed thus hold g

176 , Specific, User-friendly, Rapid and Robust, Equipment-free, Delivered to those who need it).

177 nt that allows to obtain, simultaneously, an equipment-free, user-friendly, cheap electrical biosenso

178 r studies with larger datasets acquired with equipment from multiple vendors are needed to replicate

179 aminants during the installation of building equipment, furniture, electronics, and first year of bui

180 g, wellbore cement, drilling mud, processing equipment, gas compression, and transport infrastructure

181 Three types of equipment have been used to physically separate the bact

182 nmental impacts embodied in oilfield capital equipment have not been thoroughly studied.

183 healthcare-associated outbreaks via medical equipment highlight the need for infectious disease prof

184 oral data collection, provision of injection equipment, HIV testing, linkage to opioid substitution t

185 When techniques and/or equipment hyphenation are the key to obtaining higher-or

186 successfully implemented on the full process equipment in a robust manner.

187 in developing countries and requires modern equipment in advanced laboratories that may be unavailab

188 tion in earlier studies that used high-grade equipment in laboratory settings.

189 ollected during several periods of intensive equipment installation to determine a relationship betwe

190 o systematic change in concentrations during equipment installation, indicating that no sources of ta

191 CU operation costs included the telemedicine equipment-installation (start-up) costs with 5-year depr

192 the water prior to entering the hemodialysis equipment is essential.

193 nthesizer to produce each probe, even if the equipment is idle much of the time, to avoid the challen

194 and disinfection or sterilization of medical equipment is necessary to prevent future fomite-associat

195 y allows gaining selectivity, no specialized equipment is required and, ideally, recyclable systems c

196 As sophisticated exercise equipment is unnecessary for this measurement, our extre

197 unctions upstream of the point of emissions; equipment issues) cause additional emissions that explai

198 oculation of organisms because of safety and equipment issues.

199 11.3 USD, on average, including consumables, equipment, labor, and logistics, which is higher than pr

200 Equipment layout on wards and patient vein prominence we

201 s are followed when performing venepuncture, equipment layouts are standardised across locations and

202 on valves, reciprocating engine exhaust, and equipment leaks were major sources, and substantial emis

203 trum is observed that extends beyond 30 GHz (equipment limited) and illustrates the complex super-cur

204 ever, they rely on expensive thermal cycling equipment, limiting their availability to centralized re

205 ocess operating conditions (e.g., unresolved equipment maintenance issues).

206 Its high-resolution and small size imaging equipment make CLI a promising technology for intraopera

207 ytes rapidly without requiring sophisticated equipment, making it relevant for many applications, suc

208 Improper setup can result in equipment malfunction or may cause serious damage to ins

209 Equipment malfunction or operation error was reported in

210 Medical oversight, equipment management, and community resources vary widel

211 sed PNEFs of vehicles equipped with original equipment manufacturer (OEM) diesel particulate filters

212 e formats and their underlying principles by equipment manufacturers and pulmonary function laborator

213 ort of 1,002 volunteers from 4 machinery and equipment manufacturing companies in Taichung, Taiwan, w

214 Limited training, high cost, and low equipment mobility leads to inaccuracies in decision mak

215 The equipment, monitor alarms, and acuity of patients in ICU

216 These often require dedicated precursors and equipment; moreover, although the degradation of such el

217 The method is compatible with laboratory equipment, namely a commercial detector and a rotating a

218 at point-of-care (POC) due to sophisticated equipments, need of high expertize, complicated operatio

219 ch transitions occur and the high-resolution equipment needed to capture the intermediate states of t

220 iant environment of the research laboratory, equipment needs to be modular to accommodate high and lo

221 not in use because of lack of reagents, the equipment not being installed or deployed, maintenance,

222 rrent interfacing strategies rely on complex equipment or active cell internalization through prolong

223 taBDE), casings of electrical and electronic equipment or EEE (80% of octaBDE), and EEE and automotiv

224 the lowest detection limits require uncommon equipment or expertise, and thus, they are not frequentl

225 rationally simple requiring no high pressure equipment or handling of pure oxygen.

226 ing HMF are cumbersome and require expensive equipment or hazardous reagents.

227 are time-consuming and require sophisticated equipment or highly-trained personnel.

228 orce generation either necessitate dedicated equipment or limit themselves to coarse-grained force me

229 ew minutes without the need of any expensive equipment or trained personnel.

230 uate stock of vaccines, essential cold-chain equipment, or proper documentation of vaccination activi

231 l that can carry pathogens on their clothes, equipment, or vehicles.

232 of radiation dose according to protocol and equipment over time.

233 a analysis requires sophisticated laboratory equipment, personnel, space, and stringent storage condi

234 The costs of the reagents, equipment, phlebotomist, and technologist time were dete

235 mal strain while wearing personal protective equipment (PPE) during care activities for Ebola virus d

236 The personal protective equipment (PPE) ensemble was standardized, HCP were trai

237 us did not report taking personal protective equipment (PPE) home from the IHO.

238 Personal protective equipment (PPE) is an important part of worker protectio

239 Flow equipment provides chemists with unique control over rea

240 ic planning and support for training and key equipment purchases as well as hospital-specific mentori

241 Also, making lift equipment readily available and improving positive perce

242 Equipment-related distractions correlated with higher st

243 The proposed equipment relies on the use of modern prototyping tools

244 A multi-pipette is the only additional equipment required for high-throughput patterning of cel

245 tronic devices, their rigorous operation and equipment requirements seriously limit their further app

246 children with access to playground or sport equipment (RR = 0.88, for both) tended to comply less, w

247 We also evaluate the impact of variation in equipment setup on the accuracy of acquired data.

248 Higher rates of syringe and equipment sharing and lower prevalence of opioid agonist

249 silica levels and use of personal protective equipment should be emphasized in practice.

250 complicated nanostructures or sophisticated equipment, so it has potential applications for channel-

251 Equipment source-type changed between surveys and altera

252 ng facilities and three flares, and emitting equipment source-types were identified via helicopter-ba

253 f the HOR, newly built restricted corridors, equipment storage areas, and altered staff and patient f

254 they provide low-cost access to fabrication equipment such as laser cutters, plotter cutters, and 3D

255 ology for detection is mainly based on large equipment such as readers and imaging systems, which req

256 axis systems require specialized engineering equipment such as syringe pumps and long time frames (ho

257 m and included additional costs of MALDI-TOF equipment, supplies and personnel, and dedicated pharmac

258 e, and inadequacies in basic infrastructure, equipment, supplies, and access to banked blood.

259 al investments in laboratory infrastructure, equipment, supplies, reagents, quality assurance, staffi

260 During fire-fighter training, equipment testing, and emergency responses with aqueous

261 esult of fire-fighter training exercises and equipment testing.

262 zed both plastics from electrical/electronic equipment that contained RDP and indoor dust collected o

263 ith standard laboratory and clinical imaging equipment that enables quantitative analysis of normal c

264 for assessing plasma pharmacokinetics using equipment that has a highly sensitive readout.

265 mergence of miniaturized handheld ultrasound equipment that is compact and battery operated, and hand

266 Without using any specialized equipment, the limits of detection of 1.6 ng/mL for IgG

267 es second harmonics caused by the ultrasonic equipment, thus demonstrating its wide range of potentia

268 Although cropping system, management equipment/timing/history, soil type, location, weather,

269 The capacity of the hemodialysis equipment to clear chloramine can vary as a function of

270 or semi-automated cell isolation and culture equipment to permit complete benchtop generation of gene

271 often have limited expertise, personnel, and equipment to rapidly identify rare and emerging infectio

272 tter mitigation policies, including improved equipment to reduce direct skin absorption and standardi

273 J plugin that requires no highly specialized equipment to utilize, AxonJ represents a powerful new co

274 , making the devices and/or their supporting equipment too complex to meet the necessary cost targets

275 , and other equipment as well as specialized equipment treated with BDE-209, including turnout gear a

276 Process factors include equipment type and process parameters.

277 eled and from 17% to 79% of various off-road equipment types considered good candidates for electrifi

278 Exposures included safety practices, safety equipment use, and home hazards.

279 Sharing of equipment used for injecting drug use (IDU) is a substan

280 We detail how to assemble and calibrate the equipment using experimental and theoretical procedures.

281 was extracted with solid-liquid percolation equipment using non-toxic and eco-friendly extraction so

282 d with a three-way catalytic converter, lawn equipment, utility vehicles, urban buses, semitrucks, re

283 ed, the infection spread due to contaminated equipment, vehicles, or personnel proved to be important

284 The equipment was able to perform space-resolved electrochem

285 The performance of the proposed equipment was found to be adequate for simple SECM measu

286 s prevention method to used drug preparation equipment, we could further show that HCV as well as HIV

287 By comparing with the results of commercial equipment, we have found that the measuring range and th

288 Waste electrical and electronic equipment (WEEE) constitutes one of the most problematic

289 Waste electrical and electronic equipment (WEEE) such as mobile phones contains a pletho

290 vehicle fluff, waste electric and electronic equipment (WEEE), plastics, fly ash, bottom ash, and dig

291 doctors, health-care workers, resources, and equipment were also very inequitably distributed between

292 lex measurements and treatments and portable equipment were scarce after standard working hours, and

293 t analyte collection, at least in modern SFE equipment where pressure is regulated by a backpressure

294 thesis can now be performed using accessible equipment where the reactants and reagents are delivered

295 n facilities, but also with commercial x-ray equipment, which makes the method available to any resea

296 abled by the development of advanced imaging equipment with extreme spatial-resolution and sensitivit

297 meras and single-shot rare-phenomena capture equipment with record performance have been empowered by

298 ctor, together with single-use bioprocessing equipment, with complete control of nutrient provision w

299 lications and is prepared using conventional equipment without the use of HF.

300 Electrifying off-road equipment yields more benefits than electrifying on-road