ライフサイエンスコーパス: equipment

1 under modified conditions (i.e. reagents and equipment).

2 WC while using otherwise standard endoscopic equipment.

3 y materials without the need for specialized equipment.

4 e study utilizing counter current extraction equipment.

5 MP-BART droplets are generated with low cost equipment.

6 hrough putatively contaminated neurosurgical equipment.

7 o capillary electrophoresis-based sequencing equipment.

8 pecialised training required and cost of the equipment.

9 nge pumps, centrifuges, and other laboratory equipment.

10 AH absorption when using personal protective equipment.

11 ies, and availability of personal protective equipment.

12 spite no known breach of personal protective equipment.

13 the dependence on expensive and specialized equipment.

14 ts that are prepared without any specialized equipment.

15 s signal measurements taken by the pieces of equipment.

16 alse events occurs, the less truthful is the equipment.

17 modynamic collapse, no-reflow, and entrapped equipment.

18 of air purification and personal protective equipment.

19 PB) reaction without the need for additional equipment.

20 iological frequencies or involve specialized equipment.

21 laborious sample preparation, and expensive equipment.

22 good reproducibility and maintenance of the equipment.

23 iography on a wide detector single-source CT equipment.

24 nsumption of reagents and need for expensive equipment.

25 , bladder catheterization or costly surgical equipment.

26 e (CyBA) and LED-based photoacoustic imaging equipment.

27 determination without the need of elaborate equipment.

28 ss than 30 min, requiring minimal laboratory equipment.

29 er splicing and laser pulse characterization equipment.

30 designed for use in commonly accessible flow equipment.

31 ut need for expensive fluorescence detection equipment.

32 the need of labels or bulky readout optical equipment.

33 sult from use of contaminated ophthalmologic equipment.

34 l samples and in laboratories with basic PCR equipment.

35 adenoviral spread from contaminated handheld equipment.

36 were made using a standardized protocol and equipment.

37 afety, nursing staff do not consistently use equipment.

38 ab-on-a-chip platforms with minimal external equipment.

39 ired bulky, as well as expensive, laboratory equipment.

40 lizable across different study sites and EEG equipment.

41 using different experimental animal handling equipment.

42 ensive and lengthy tests using sophisticated equipment.

43 usly without any external fluid manipulation equipment.

44 artefacts or involve specialised and costly equipment.

45 ifications and requires no special skills or equipment.

46 AAV vector without the need for specialized equipment.

47 ider exposure and use of personal protective equipment.

48 ility of hospital beds and key medical-grade equipment.

49 s associated with both the technique and the equipment.

50 municate with our surrounding environment or equipment.

51 y subspecialist or specialized and expensive equipment.

52 nd specific, but slow, and require expensive equipment.

53 ations, and without the need for specialized equipment.

54 and require less use of personal protective equipment.

55 easily fabricated using available laboratory equipment.

56 nd does not require sophisticated laboratory equipment.

57 taff assisting with lift did not want to use equipment 0.34 ([0.17, 0.68]), patient condition (0.48 [

58 xposures: (1) risk-based personal protective equipment, (2) staff fever and sickness surveillance, an

59 Infrastructure = 15.36, Procedures = 37.47, Equipment = 21.63, Supplies = 24.78).

60 6.64 [4.36, 10.12]), staff preference to use equipment (3.46 [2.48, 4.83]), equipment required for pa

61 nsportation, child care, personal protective equipment); 3) the importance of specialized training fo

62 32, 14.63]), staff availability to help with equipment (6.64 [4.36, 10.12]), staff preference to use

63 Using consumer-level computing equipment, a large search space of 2000 Da was construct

64 PWID attending services providing injecting equipment across GGC between 2011 and 2018 were analysed

65 lth care workers wearing personal protective equipment after intubating patient manikins under emerge

66 t the need of any cleanup step or electrical equipment, allowing its portability for the extraction o

67 ns in the GI tract using standard endoscopic equipment and a novel AWC device.

68 Easily accessible and low-cost equipment and a palladium catalyst were successfully use

69 post-abortion care (the availability of key equipment and ability to perform services) to assess the

70 and securing sufficient personal protective equipment and antivirals during the height of influenza

71 e/heart rate variability) require specialist equipment and are not instantly available.

72 can require highly specialized materials or equipment and cannot be generally applied to the wide ra

73 dapt this pipeline, which uses only standard equipment and commercial components, to quickly study an

74 rform digital LAMP using standard laboratory equipment and commercially available materials.

75 luidic devices without requiring specialized equipment and could enable new capabilities and applicat

76 rchers also assessed how personal protective equipment and COVID-19 testing protected health care wor

77 ness but is complicated by the complexity of equipment and environment surfaces.

78 are enabling automated communication between equipment and execution of the entire system.

79 They typically require sophisticated equipment and expensive fluorescent probes, rendering th

80 ion during surgery, provided the appropriate equipment and expertise are present.

81 th liquid handling platforms and make use of equipment and expertise standard to any core sequencing

82 thin 5 d, requiring only standard laboratory equipment and expertise.

83 ut DNA material via LCM requires specialized equipment and expertise.

84 The assay format requires no specialist equipment and has the potential to be extended for analy

85 ter from humid air without reliance on bulky equipment and high energy has been a substantial challen

86 ic optical tweezers, which rely on expensive equipment and high-powered lasers that can degrade light

87 However, it requires specialized skills and equipment and is labor-intensive.

88 stent disinfection of bedside ophthalmologic equipment and limited glove use.

89 and Intensive Care Units were augmented with equipment and manpower.

90 tions are labor-intensive, requiring special equipment and manual counting by professionals leading t

91 exposures without using personal protective equipment and mild illness with subjective fever, runny

92 is simple to use, requires minimal external equipment and no specialized training to operate, and ca

93 With advancements in surgical equipment and procedures, human-system interactions in o

94 s, limited options for the transportation of equipment and process chemicals, and the ongoing effects

95 including opportunity to use smaller caliber equipment and radial access.

96 Additionally, the costs are based on current equipment and reagent costs, which are subject to change

97 ussion of the aims and concepts, we describe equipment and representative examples of automated flow

98 designed to be used with standard laboratory equipment and requires limited experience to encourage a

99 their caregivers receive education on oxygen equipment and safety (best-practice statement).Conclusio

100 Moreover, this study utilised mobile EEG equipment and short presentation times that would be sui

101 within the hour time scale, using basic AFM equipment and skills and only needing freely available s

102 e extensive use of inefficient bioprocessing equipment and specialized reagents that can drive up the

103 methods paper describing the setup of modern equipment and step-by-step procedure to measure mouse an

104 kills training for healthcare professionals, equipment and technical support for local healthcare fac

105 hat can be analyzed with standard laboratory equipment and that leads to reliable results, unbiased b

106 cation is limited by the lack of specialized equipment and trained personnel in laboratories performi

107 requires sustained investment in the latest equipment and training for the researchers who are going

108 l expertise, and the high cost of diagnostic equipment and treatment modalities.

109 n of infectious pathogens requires expensive equipment and well-trained personnel, thus limiting its

110 e 2D images without sophisticated 3D-imaging equipment and with better than specialist performance, h

111 on for ten different proteins using standard equipment and workflows.

112 sexual experience, 21.2% who shared shaving equipment, and 28.3% who had multiple sex partners were

113 atories lacking sophisticated microinjection equipment, and can be implemented by researchers skilled

114 limited by multiplexing capabilities, bulky equipment, and cost.

115 nment, limited supply of personal protective equipment, and even pressure to help and work during a p

116 gest that COVID-19 will stress bed capacity, equipment, and health care personnel in U.S. hospitals i

117 es, low cost, no requirement for specialized equipment, and highly clear modification effects.

118 e.g. dialysis, due to human error or faulty equipment, and it can cause significant harm to the pati

119 e requires a significant investment of time, equipment, and labor.

120 es an integrated system of people, training, equipment, and organizations working together to achieve

121 ype of lift/transfer, equipment use, type of equipment, and presence of 20 factors at the time of the

122 reproducible, require specialized analytical equipment, and provide only "snapshots" of drug dissolut

123 Patient, worker, equipment, and situational factors influence whether nur

124 omain Personnel, Infrastructure, Procedures, Equipment, and Supplies (PIPES) tool was administered in

125 hat reduce user steps, reliance on expensive equipment, and the system's time-to-result.

126 als such as drugs or commodities, functional equipment, and trained personnel, poor quality of care o

127 syringe sharing, sharing of other injection equipment, and unmet needs for medical care and substanc

128 hygiene, glove use, disinfection of reusable equipment, and waste management.

129 rkflow is straightforward and also much less equipment- and technique-demanding than other advanced s

130 1.37 [95% CI, 1.21-1.56]), sharing injection equipment (aPR, 1.16 [95% CI, 1.01-1.35]), arrest histor

131 effective treatment where the expertise and equipment are available.

132 custom components operated with SPME/DART/MS equipment are included.

133 wo types of plastic obtained from electronic equipment as positive controls.

134 althcare workers doffing personal protective equipment at 4 hospital-based biocontainment units.

135 vals, with CRADLE devices replacing existing equipment at the randomly allocated timepoint.

136 either DBSs or PSCs to increase VL access on equipment available in-country.

137 fective way of making expensive experimental equipment available to a large number of researchers, an

138 aining and having advanced airway management equipment available.

139 potential of current refrigerants in cooling equipment based on the vapor-compression cycle has trigg

140 o interpret ultrasound images and handle the equipment before starting the workshop, but their confid

141 e can be fully assembled without specialized equipment beyond a 3D printer and a laser cutter, starti

142 n into the bladder wall, specialized imaging equipment, bladder catheterization or costly surgical eq

143 This protocol includes equipment calibration specifications, methods for the me

144 ent sources among different charge/discharge equipment can be effectively avoided.

145 Additional specific equipment cleaning was initiated.

146 neurons across large fields of view at a low equipment complexity and cost.

147 information on optimal detection techniques, equipment configuration and datasets for comparison to a

148 placed >1 km from decommissioned natural gas equipment configured with intentional leaks of controlla

149 que, to obtain an embedding of positions and equipment coordinates in a space that enables coordinate

150 uce sample volumes, separation times, and/or equipment cost and space requirements, in applications r

151 atient age, weight, clinical indication), CT equipment (CT make and model, year of installation, numb

152 Commercially available 23-gauge vitrectomy equipment, custom surgical forceps, and operating micros

153 ically time-consuming, need relatively large equipment, demand sample preparation, require a skilled

154 We illustrate custom equipment design that supports reliable electrophysiolog

155 implement, depending on the availability of equipment, diamond substrates, and user experience.

156 fferent internal calibrations used by ED-XRF equipment did not provide accurate results when comparin

157 d Prevention-recommended personal protective equipment during interactions.

158 sion include appropriate personal protective equipment, evacuation and filtration of surgical plume,

159 channels were fabricated with no specialized equipment except a commercial 3D printer.

160 Use of personal protection equipment (face masks) and compliance to hygienic measur

161 clinical protocols, educational gaps, and/or equipment factors.

162 enrolled subjects, 5 were not studied due to equipment failure or abnormal pulmonary arterial anatomy

163 upply chain difficulties of refrigerant gas; equipment failure; and treatment duration >10 min), a ba

164 e that they can provide results in a minimal-equipment fashion, serving as the basis for a field-depl

165 opportunities through the use of laboratory equipment for chemical speciation.

166 ator, does not require additional electronic equipment for detection or verification; and the entire

167 ften are designed to operate with peripheral equipment for liquid handling that increases the cost an

168 This digital PCR method requires no special equipment for partitioning, unlike other methods that re

169 per-microchip and a self-made smart analysis equipment for the concentration detection of SBA in comm

170 , specific, user-friendly, rapid and robust, equipment free, and deliverable to users) guidelines tha

171 , Specific, User-friendly, Rapid and robust, Equipment-free and Deliverable to end-users) fashion for

172 al life, yet there currently are no low-cost equipment-free laboratory techniques to reproduce the in

173 Therefore, developing affordable, equipment-free, and reliable methods for F(-) detection

174 ce life, production, and end-of-life of such equipment had only a minor contribution to the total imp

175 owever, the lack of clinically viable NIR-II equipment has hindered the clinical translation of NIR-I

176 group that can be performed at home without equipment (Home-HIT).

177 odies cost-effectively without sophisticated equipment; however, they are less sensitive than reverse

178 10 (p <0.01), and confidence in handling the equipment improved from 3.73/10 to 6.51/10 (p <0.01).

179 Despite wide availability of patient lift equipment in hospitals to promote worker and patient saf

180 ith being seen at a facility with diagnostic equipment in stock (adjusted OR 3.67; 95% CI: 2.72-4.95)

181 However, the variability of US equipment in terms of sensitivity to microbubble signal,

182 pendent, the possible use of density sorting equipment in winery for this aim may be less effective.

183 Factors associated with non-use of equipment included: patient/family preference (0.31 [0.1

184 used in conjunction with personal protective equipment including masks, goggles, and gloves and handw

185 Dual modalities imaging equipment, including color fundus photography, fluoresce

186 d 5 drug-related outcomes (sharing injection equipment, injection frequency, opioid use, general drug

187 s and had the best overall value in terms of equipment, installation, colony disturbance and informat

188 lume clinics, close proximity with patients, equipment-intense clinics, and direct contact with patie

189 The confidence of medical equipment is intimately related to false alarms.

190 th gas inhalation techniques; however, extra equipment is needed to perform gas inhalation techniques

191 perform gas inhalation techniques, and this equipment is not available at all institutions.

192 e for PM monitoring where reference-standard equipment is not available or feasible, and that they ma

193 where access to state-of-the-art diagnostic equipment is scarce.

194 ning the necessary reagents and illumination equipment, is ~3 weeks.

195 imination without the need for sophisticated equipment, large volumes, or elaborate sample processing

196 urrent level of technology, purchase prices, equipment lifespans, and operational flying ranges, UAS

197 help with lift/transfer (2.38 [1.71, 3.31]), equipment located in/by patient room (1.82 [1.08, 3.06])

198 our model, we included costs for personnel, equipment, maintenance, and training, and did univariate

199 high-resolution microscope and other complex equipment, making it potentially usable in resource-limi

200 by researchers, funding agencies, journals, equipment manufacturers and staff at shared imaging faci

201 les, such as intricate designs and expensive equipment/materials, in the fabrication of wearable swea

202 uding using a checklist, acquiring necessary equipment, maximizing preoxygenation, and hemodynamic op

203 protocols for high-level personal protective equipment may fail to protect healthcare workers.

204 -sight imaging using inexpensive, ubiquitous equipment may have considerable value in monitoring haza

205 conditions and diseases but requires complex equipment, multiple chemical reagents, laborious system

206 ion, injection drugs use, sharing of shaving equipment, multiple sexual partners should be discourage

207 (n=4915), 4.8% for disinfection of reusable equipment (n=841), and 43.3% for waste management (n=429

208 Moreover, as the equipment needed is simple, common, and inexpensive, our

209 Despite recent advancements in analytical equipment, obtaining accurate measurement of gas compone

210 Importantly, equipment of the DeltaB7-H6-based NK cell engagers with

211 d column-based protocols require specialised equipment, often use toxic reagents, and are not economi

212 ed on-demand, without the need for expensive equipment or cleanroom facilities.

213 uire fluorescence signals, expensive imaging equipment or custom-written algorithms.

214 involve both bulky and expensive laboratory equipment or long and tedious protocols.

215 as other geriatric evaluations that require equipment or memorization.

216 ilable ligands, operates without specialized equipment or pressurization, and tolerates a broad range

217 e laborious sample preparation and expensive equipment or reagents.

218 cal traps, requiring little or no additional equipment or setup beyond what is ordinarily used in a m

219 ible and does not require special laboratory equipment or techniques, or multiple cloning steps.

220 ere designed for intuitive operation without equipment or training.

221 orms usually rely on optical labels, optical equipment, or complex microfabricated channel geometries

222 m uses small reagent volumes and inexpensive equipment, paving the way to cost-effective single-molec

223 They face limitations in local equipment, personnel expertise, infrastructure, data-rig

224 Investments in imaging equipment, personnel, and quality of care efforts will a

225 e imaging without the use of expensive large equipment (PET or MRI) is most desirable.

226 ry Metals, Fabricated Metals, Transportation Equipment, Petroleum and Coal Products, and Plastics and

227 cus on the importance of personal protective equipment (PPE) and other interventions to decrease spre

228 The safe removal of personal protective equipment (PPE) can limit transmission of serious commun

229 rdware (FOSH) as well as personal protective equipment (PPE) currently being developed and deployed t

230 wipe vs spray methods of personal protective equipment (PPE) decontamination.

231 Mismanagement of personal protective equipment (PPE) during the COVID-19 pandemic, with a mon

232 ntations; 2) appropriate personal protection equipment (PPE) for health care workers; 3) role of the

233 Personal protective equipment (PPE) helps protect healthcare workers (HCWs)

234 The use of personal protective equipment (PPE) is an important strategy to protect heal

235 healthcare, the goal of personal protective equipment (PPE) is to protect healthcare personnel (HCP)

236 tamination while doffing personal protective equipment (PPE) to prevent pathogen transmission.

237 act isolation/quarantine/personal protective equipment (PPE) usage decisions, dictate eligibility for

238 on control practices and personal protective equipment (PPE) use.

239 ere is a long history of personal protective equipment (PPE) used by the surgeon to minimize the tran

240 3 programs reported that personal protective equipment (PPE) was suboptimal.

241 lyses, using any form of personal protective equipment (PPE) when interacting with a confirmed, proba

242 d precautions, including personal protective equipment (PPE), to prevent the spread of infectious org

243 (HCWs) during doffing of personal protective equipment (PPE).

244 y to attenuate shock waves for personnel and equipment protection by engineering multifunctionality i

245 this technology is the time, expertise, and equipment required for device fabrication.

246 erence to use equipment (3.46 [2.48, 4.83]), equipment required for patient condition (2.38 [1.74, 3.

247 conditions because of the complexity of the equipment required for the determination of time-depende

248 empt with relatively low costs and a minimal equipment setup.

249 tterns of drug and alcohol use and injection equipment sharing among people with recent injecting dru

250 lood transfusion, sexual experience, shaving equipment sharing and multiple sexual partners were not

251 subtransmissions and likely precipitated by equipment sharing between adults and infants.

252 ast-month injecting 16% past-month injection equipment sharing, and 61% current OAT.

253 estimates of agencies that retained similar equipment show negligible or undetectable impacts on vio

254 bust design, flexible adaptation to existing equipment, small volume, multiple-angle capabilities, br

255 ons and some other types of surplus military equipment (SME) that had been prohibited by the Obama Ad

256 CU needs identified were personal protective equipment, specifically N95 respirator availability, and

257 with common and readily available laboratory equipment such as a heater and simple fluorescent micros

258 with equipment use included: availability of equipment supplies (RR = 9.61 [95%CI: 6.32, 14.63]), sta

259 inued concerns regarding personal protective equipment supplies with the chief issue being N95 respir

260 ods fail due to high cost and lack of proper equipment, supplies and trained personnel.

261 erent contamination dynamics and risks among equipment surfaces in terms of the presence, level and p

262 vironmental surfaces and personal protective equipment surrounding 3 COVID-19 patients in isolation r

263 ds are usually time-consuming, require bulky equipment, tedious sample preparation, a trained operato

264 orms were also collected in situ from a fire-equipment testing site at a major Canadian airport.

265 Even equipment that does not directly contact patients can fa

266 lved to inhibit the electron avalanche in RF equipment that limit their maximum working power.

267 y changes to evaluate the effect of military equipment: the Obama Administration recalled property un

268 t uses the standard protocols, reagents, and equipment, this pooling method can be applied immediatel

269 ries were free to use their own reagents and equipment, this study demonstrated that the diagnostic p

270 cular imaging platform may offer a potential equipment to enhance classification of microvasculature

271 ture without a specialized reaction setup or equipment to exclude air or moisture.

272 eration that can preferably utilize existing equipment to facilitate broad, large-scale screening eff

273 adily adopted with standard biology benchtop equipment to generate geometrically optimized DNA nanost

274 factors influence whether nursing staff used equipment to lift/transfer a patient.

275 aims about the effects of providing military equipment to local law enforcement, but this interventio

276 ndomized trial to assess personal protective equipment to prevent respiratory infections and illness

277 However, qPCR requires expensive equipment, trained personnel, and significant time.

278 rstanding these factors associated with lift equipment use and non-use provides specific information

279 Factors associated with equipment use included: availability of equipment suppli

280 ns, time with patients, care activities, and equipment use varied across HCP, leading to a diverse se

281 nfidence intervals (CI)) between factors and equipment use was examined using multivariate Poisson re

282 nth for three months: type of lift/transfer, equipment use, type of equipment, and presence of 20 fac

283 [1.40, 2.86]) were also associated with lift equipment use.

284 mentation spectra depend considerably on the equipment used and are not the same for different LC-MS

285 ed with contaminated handheld ophthalmologic equipment used during retinopathy of prematurity (ROP) s

286 Measurement techniques and anthropometric equipment used in panel site clinics should be assessed,

287 forming the experiments and the experimental equipment used in the experiment were compared.

288 ompactness, high degree of automation of the equipment used, energy efficiency, high productivity, an

289 people to operate the surrounding motorised equipment using their active organs.

290 d approach and a state-of-the-art microscopy equipment was achieved.

291 Equipment was used for 21% of lifts/transfers including

292 all welders use proper personal -protective equipment (welding helmets), and also receive regular ey

293 ysical environment, tasks, organization, and equipment were prevalent and observed in equal measure,

294 ith large electrochemical luminescence (ECL) equipment, which would offer a new platform for early ca

295 onavirus 2 and depleting personal protective equipment while maintaining scientific rigor.

296 m (WLMP) the challenge is to match pieces of equipment with a set of candidate locations based on wir

297 PLE was performed in customized equipment with environmentally friendly solvents, at 40/

298 only conventional semiconductor fabrication equipment, with 100% yield (M = 16 chips) compared to 30

299 isiting restrictions and personal protective equipment, with attendant practical and psychological co

300 without the need for any additional medical equipment, with which could make it suitable for massive