ライフサイエンスコーパス: manufacture

1 sign and the sintering process used in their manufacture.

2 ough for customized medicine formulation and manufacture.

3 and could be a prospective additive in feed manufacture.

4 emained unchanged as did ACa(++), throughout manufacture.

5 % of total calcium solubilised by the end of manufacture.

6 of a candidate antibody to be developed and manufactured.

7 m (Pt) or glassy carbon (GC) electrodes were manufactured.

8 due to the sample constraints of small scale manufacturing.

9 sed in chemical, pharmaceutical, and polymer manufacturing.

10 from a sample collection based on worldwide manufacturing.

11 compaction procedure is adaptive to additive manufacturing.

12 s of these damages originating from chemical manufacturing.

13 that control solidification during additive manufacturing.

14 ngineered biomaterials to control human cell manufacturing.

15 leness, and low-cost production for scalable manufacturing.

16 ion during their discovery, development, and manufacturing.

17 e route for rationally designed, sustainable manufacturing.

18 limited by the high cost of development and manufacturing.

19 etching process easily compatible with batch manufacturing.

20 tive, user-friendly, rapid, and scalable for manufacturing.

21 per batch, with the potential for continuous manufacturing.

22 dow into fiber technology through low-energy manufacturing.

23 nt roles in chemical synthesis and molecular manufacturing.

24 owed substantial simplifying the transistors manufacturing.

25 tates both rapid development and small-scale manufacturing.

26 refractive X-ray lens using ptychography to manufacture a corrective phase plate.

27 ucing complicated tissues is demonstrated by manufacturing a complex hard/soft tissue interface and d

28 These data demonstrate that manufacturing a defined-composition CD19 CAR T cell iden

29 alization of the unit of mass is possible by manufacturing a perfect one-kilogram sphere from a (28)S

30 s for developing improved methods for tissue manufacture, accessing probe compounds, and generating n

31 al strategy to reduce the energy required to manufacture advanced energy conversion and harvesting ma

32 ose a new precision additive freeform optics manufacturing (AFOM) method using an pulsed infrared (IR

33 Digital manufacturing, all-ceramics, and adhesive dentistry are

34 Although manufacturing alterations (n = 834 of 2813; 30%) were th

35 Additive manufacturing (AM) alias 3D printing translates computer

36 recent growth in interest for metal additive manufacturing (AM) in the biomedical and aerospace indus

37 roplet motion associated with metal additive manufacturing (AM) processes are presented.

38 Computer-controlled additive manufacturing (AM) processes, also known as three-dimens

39 The additive-manufacturing (AM) technique, known as three-dimensional

40 number and types of chemicals authorized for manufacture and b) developing novel approaches for asses

41 ay for proposed good manufacturing practices manufacture and clinical trials intended to test the cli

42 solar steam generation is to develop easy-to-manufacture and scalable methods which can convert solar

43 is fully compatible with existing industrial manufacturing and can lead to cost-effective production

44 e and omelettete, was determined after their manufacturing and during in vitro digestion.

45 ptimal performance, which adds extra cost to manufacturing and limits long-term device stability.

46 ger DNA origami structures are possible, but manufacturing and manipulating an increasingly long scaf

47 ising candidate for future roll-to-roll mass manufacturing and practical application of highly effici

48 To address this deficiency, a variety of manufacturing and processing techniques are being adapte

49 ughput yields, thereby offering simultaneous manufacturing and purification of nanoparticles with tai

50 a massively parallel approach for designing, manufacturing and screening mini-protein binders, integr

51 Additive manufacturing and self-assembly techniques enable lattic

52 ive environmental impact of their continuous manufacturing and trashing.

53 auxiliary power source, location of chemical manufacturing, and binding air emissions limits in nonco

54 ated approach combining simulation, additive manufacturing, and drop tower testing, the function of h

55 d of refrigerated storage (immediately after manufacturing, and during ripening and storage).

56 lished methodology in research, development, manufacturing, and production for screening, optimizatio

57 overing novel quality attributes, optimizing manufacturing, and screening drugs/biomaterials.

58 Here, a low-cost manufacturing approach for bioresorbable conductors on b

59 using a scalable, single-step, weaving-based manufacturing approach.

60 While many aspects of electronics manufacturing are controlled with great precision, the n

61 timal T cells, genetic engineering, and cell manufacturing are poised to broaden T-cell-based therapi

62 use during component, particularly battery, manufacturing are the largest contributors to overall PV

63 roundwater plumes associated with industrial manufacturing areas.

64 We manufactured artificial flowers with nanoscale structure

65 cations throughout synthetic biology and bio-manufacturing as they are able to sense a wide range of

66 500 alloys in use today cannot be additively manufactured because the melting and solidification dyna

67 k carbon between 1880 and 2015 within the US Manufacturing Belt, a region historically reliant on coa

68 assessed, vis-a-vis those of conventionally manufactured beverages, and their impact on local consum

69 ntial breakthrough applications in advancing manufacturing, biology, and chemistry research at the mi

70 s method has the potential to be utilized to manufacture BsAbs with high efficiency at industrial sca

71 con nitride film, suitable for semiconductor manufacturing but previously thought to result in wavegu

72 rocesses, such as laser welding and additive manufacturing, but also on other applications such as ph

73 th spatially varying dielectric permittivity manufactured by 3D printing.

74 Beads were manufactured by extruding gel forming solutions containi

75 The computer-aided design and manufacture (CAD/CAM) technique was used to guide bony m

76 m computer-aided design (CAD)/computer-aided manufacturing (CAM)-fabricated high-strength ceramics-na

77 due to its revolutionary and near limitless manufacturing capabilities.

78 fety data and WHO-standardized international manufacturing capability available in both high and low

79 Manufactured carbon nanotubes (CNTs) are similar to asbe

80 mpounds, and generating new leads that yield manufactured cells with improved properties.

81 could help overcome unresolved cell therapy manufacturing challenges and complement frameworks to de

82 a more detailed evaluation of the effects of manufacturing changes on the subset contribution to in v

83 lly relevant differences in IIRMIs following manufacturing changes or between products with the same

84 atural environments as well as in artificial manufactures, combined with the importance of some speci

85 Manufacturing companies routinely use copper fibers for

86 This study opens perspectives for manufacturing complex fiber network materials.

87 off between fine structural manipulation and manufacturing complex shapes in practical sizes and time

88 MSC lines derived from different donors and manufacturing conditions.

89 Full-fat cheeses were manufactured containing free catechin or free green tea

90 oping materials and technologies that can be manufactured conveniently, sterilized to minimize contam

91 The manufacturing cost of the prototype was kept below 300 U

92 Critical issues like manufacturing costs have to be addressed before mass pro

93 product-based development candidate has been manufactured de novo, rather than semisynthetically.

94 onomic challenges associated with energy and manufacturing demands.

95 rinted phantoms of different geometries were manufactured, different partial-volume correction (PVC)

96 his study, we introduce a simple protocol to manufacture disposable, 3D-printed microfluidic systems

97 immobilized on a printed circuit board (PCB) manufactured electrode array and exposed to single-stran

98 uticals due to their complexity, which makes manufacturing errors more likely, and fragility, which m

99 CO2 for utilization purposes (e.g., polymer manufacturing, etc.).

100 lergen dosing when switching from one lot of manufactured extract to another, and by providing an obj

101 Despite improved manufacturing facilities and implementation of effective

102 faster and to reduce the investment to build manufacturing facilities, in addition to allowing for th

103 ked increase in concentrations downstream of manufacturing facilities, with the most abundant compoun

104 1,1-difluoroethene, which is registered to a manufacturing facility in the area.

105 layer by layer increases design freedom and manufacturing flexibility, thereby enabling complex geom

106 ns fats, and compulsory reduction of salt in manufactured food products.

107 who were enrolled, axi-cel was successfully manufactured for 110 (99%) and administered to 101 (91%)

108 d electrochemical biosensor was designed and manufactured for pathogen detection.

109 inkjet printing method with the potential to manufacture formulations in complex and adaptable geomet

110 However, only a limited number of DCs can be manufactured from adult precursors.

111 Food contact articles (FCAs) are manufactured from food contact materials (FCMs) that inc

112 Recombinant monoclonal antibodies (mAbs) manufactured from immortalized mammalian cell lines are

113 Finally, vascular stents manufactured from the JDBM-2 were implanted into rabbits

114 racts of PAH-contaminated soil from a former manufactured-gas plant site before and after treatment i

115 ch as burial goods or exotic or expensive-to-manufacture goods in household assemblages, have been pr

116 Unemployed Japanese men and those in manufacturing had an 8-11-fold increased risk of lung, g

117 iques in computational modeling and additive manufacturing have matured concurrently, and results fro

118 as micro- and nanotechnologies and additive manufacturing, have been integral for advancing the fiel

119 tant chemical building block that is used in manufacturing high-value products, such as latex and sup

120 Without post-manufacture HIPing the fatigue life of electron beam mel

121 Crows manufacture hooked stick tools in a multi-stage process,

122 s a key process in semiconductor high volume manufacturing (HVM), high resolution lithography is cruc

123 view how exploiting biological processes for manufacturing (i.e., industrial biomanufacturing) addres

124 cydoniifolia fruit, which is widely used to manufacture ice cream and jellies.

125 n compete in performance with conventionally manufactured IMS instruments that also operate in the op

126 These polymer nanoparticles are easy to manufacture in a stable form, which simplifies storage a

127 Object manufacture in insects is typically inherited, and belie

128 pid screening of 100000 chemicals reportedly manufactured in Europe and reduce the need for higher-ti

129 s used in simulations and can only rarely be manufactured in sufficiently high yields to be routinely

130 nal quality assurance approach, derived from manufacturing in the mid-1900s.

131 ction of coal generation or a large chemical manufacturing industry.

132 just-in-time production strategies from the manufacturing industry.

133 he results here show the first step toward a manufacturing infrastructure for traditional crystalline

134 orporation is of great scientific and device manufacturing interest.

135 Our approach to metal-based additive manufacturing is applicable to a wide range of alloys an

136 Metallic powder bed additive manufacturing is capable of producing complex, functiona

137 tures, and their scale up to industrial-size manufacturing is emphasized here.

138 he field of therapeutic viral vector/vaccine manufacturing is maximizing production.

139 n of Triticum aestivum (common wheat) during manufacturing is not allowed and, without adequate label

140 Perhaps most notably, the device manufacturing is significantly less expensive, time-cons

141 and process compatibility with semiconductor manufacturing.Kerr frequency comb generation from micror

142 Both presently manufactured leadless pacemakers show similar complicati

143 savings could be seen from changing battery manufacturing location and ensuring end of life recyclin

144 We found that bird age, manufacture method, and raw-material properties influenc

145 ing technology has emerged as an alternative manufacturing method for low-cost production of electrod

146 rationalized design guidelines and scalable manufacturing methods has hindered their applications.

147 es, and in designing simple and large-scaled manufacturing methods that can be widely utilized are co

148 s, but little is known about the spectrum of manufacturing methods used and their effects on BMSC cha

149 g material, but no two centers used the same manufacturing methods.

150 logical assessment of novel and economically manufactured microparticle adjuvants, namely strontium-d

151 chanical work, we have developed a method of manufacturing modular skeletal muscle actuators that can

152 ary data show that this approach could allow manufacturing multifunctional multimodal LSPR chips for

153 carbon, nutrients, pollutants, pathogens and manufactured nanoparticles from catchment to coast.

154 These are then copied as RNA and exported to manufacture new proteins.

155 ction and transport systems that lead to the manufacture of a particular brand of 800 g loaf.

156 cifications for GMP production, required for manufacture of advanced therapy medicinal products (ATMP

157 in required to allow matrix formation during manufacture of casein-based food structures e.g. process

158 inexpensive home cutter printer enabled the manufacture of dozens of microFEDs in less than 2h, at a

159 ial processes including incineration and the manufacture of herbicides.

160 lytical technology (PAT) is critical for the manufacture of high-quality biologics as it enables cont

161 on to homogeneity without chromatography and manufacture of low-cost synthetic lung surfactant that w

162 inting is a potentially new approach for the manufacture of microfluidic devices with multiple integr

163 irect ink writing enables the layer-by-layer manufacture of ordered, porous structures whose mechanic

164 Bisphenol A (BPA) is widely used in the manufacture of plastics and epoxy resins and is prevalen

165 enerally not justifiable for the large-scale manufacture of polyfolefins.

166 ocuses on monomers and additives used in the manufacture of products, but it does not cover all subst

167 Nature and during the large-scale industrial manufacture of proteins.

168 We demonstrate a feasible approach to the manufacture of red cells for clinical use from in vitro

169 nd protein solubilisation during small-scale manufacture of semi-solid casein-based food matrices was

170 The manufacture of the integrated, sealed device was realize

171 cium-ion activity (ACa(++)) decreased during manufacture of the matrices containing calcium chelating

172 istry plays a central role in the industrial manufacture of various important chemicals, pharmaceutic

173 MHPs ideal for cost-efficient, large-volume manufacturing of a plethora of optoelectronic devices th

174 low-cost, high-throughput, and reproducible manufacturing of advanced nano-optical devices.

175 ll many problems to solve, on the way to the manufacturing of biomedical devices, including the lack

176 on on a roll-to-roll platform for economical manufacturing of bioresorbable electronics.

177 thrombocytopenia before lymphodepletion, and manufacturing of CAR T cells without selection of CD8(+)

178 ch, it opens the possibility for large-scale manufacturing of crack-based or crack-derived assemblies

179 cells, so our methods will likely facilitate manufacturing of cytoreagents.Current widely used viral

180 s for early-stage drug discovery, continuous manufacturing of drug delivery vehicles, and ultra-preci

181 the selection of polymeric materials for the manufacturing of dynamic nanodevices using protein molec

182 However, manufacturing of nanoparticle-coated membranes requires

183 s can be an effective means for the scalable manufacturing of patterned-functional nanostructures.

184 tive patterns, potentially applicable to the manufacturing of simple electronic circuits.

185 trolyte is a cost-effective approach for the manufacturing of solar cells.

186 tein folding and is potentially relevant for manufacturing of synthetic peptides and recombinant prot

187 During manufacturing of the dry fermented sausages, actin was h

188 Additive manufacturing of the industrially relevant alloy Ti-6Al-

189 ted high-throughput, economical roll-to-roll manufacturing of the metamaterial, which is vital for pr

190 he mining of the rare earth oxide ceria, the manufacturing of the solar concentration infrastructure,

191 here is no process for 3D printing (additive manufacturing) of nt-metals.

192 The design, and manufacturing, of T cell therapies is not standardized a

193 The flexible photocurrent sensing system was manufactured on a 30-microm-thick crystalline silicon ch

194 bioMerieux manufactures one of the most commonly used first-tier EI

195 ) are used as lubricants and coolants in the manufacturing operations.

196 Metal-based additive manufacturing, or three-dimensional (3D) printing, is a

197 he vascular system and organs of a plant, we manufactured organic electronic devices and circuits in

198 n Pennsylvania, which shows steel and cement manufacturing paired to suitable sinks as having the low

199 fe of electron beam melting (EBM) additively manufactured parts is currently dominated by the presenc

200 stribution of applied stresses in additively manufactured parts to maximise the fatigue life for a gi

201 tural variability in selective laser melting manufactured parts; thereby providing a means to evaluat

202 nabling real-time release testing (RTRt) for manufactured pharmaceutical products.

203 ABSTARCT: With the advent of intelligent manufacturing, phase measuring deflectometry (PMD) has b

204 y tool for dialog on clinical development or manufacturing plans.

205 cture that captures complexity on a scalable manufacturing platform.

206 Using these markers, we developed a good manufacturing practice (GMP) differentiation protocol fo

207 Single-step production from a Good Manufacturing Practice cold kit may enable rapid adoptio

208 lications such as cell therapies, where good manufacturing practice compatibility is of paramount imp

209 ith (18)F-FDS synthesized using current good manufacturing practice, could rapidly differentiate true

210 linical trial evaluating the effects of good manufacturing practice-artesunate in patients with traum

211 PIV3-specific T cells produced with our Good Manufacturing Practice-compliant manufacturing process,

212 challenged by the high cost of current Good Manufacturing Practices (cGMP) production.

213 even centers using, and one developing, Good Manufacturing Practices (GMP) processes were surveyed as

214 This paves the way for proposed good manufacturing practices manufacture and clinical trials

215 multistep continuous-flow CGMP (current good manufacturing practices) process that produced 24 kilogr

216 on set samples were tested with current good manufacturing practices-manufactured reagents after assa

217 ty level never achieved with silicon used to manufacture previous one-kilogram spheres.

218 f TMUPS, its adoption has been challenged by manufacturing problems, such as compromised integrity of

219 a could be very interesting to know the best manufacturing procedure to prepare blueberry-derived pro

220 is present in most samples due to imperfect manufacturing procedures.

221 ultimate goal of developing a cost-effective manufacturing process for Si solar cells based on electr

222 s collected from the continuous drug product manufacturing process not only demonstrated the accuracy

223 However, the high cost and complex manufacturing process of tear glucose analyzers combined

224 he different stages of a lab-scale chocolate manufacturing process on the content of oligomeric proan

225 eloped USP 4 method was capable of detecting manufacturing process related performance changes, and m

226 A fully automated additive manufacturing process that produces all-printed flexible

227 Photolithography is an important manufacturing process that relies on using photoresists,

228 acids are likely products or byproducts of a manufacturing process that uses 1,1-difluoroethene, whic

229 th our Good Manufacturing Practice-compliant manufacturing process, in immunocompromised patients wit

230 perovskite-based devices are fabricated by a manufacturing process, which is demonstrated.

231 optimise cleaning practices for a given food manufacturing process.

232 nted sausages salchichon type throughout the manufacturing process.

233 d can be integrated into existing electronic manufacturing processes and technology.

234 Manufacturing processes for biological molecules in the

235 onent of the control strategy for continuous manufacturing processes for drug products, including det

236 The fabrication and manufacturing processes of industrial commodities such a

237 d the effects of microenvironmental cues and manufacturing processes on cell behavior often inadequat

238 c devices, however, require energy intensive manufacturing processes such as alloying and spark plasm

239 d biomaterials has the potential to generate manufacturing processes that produce standardized cells

240 Emerging manufacturing processes to generate regenerative advance

241 pacts on existing melting and solidification manufacturing processes, such as laser welding and addit

242 pressed proteins is critical when developing manufacturing processes.

243 ors, produced exclusively using standard PCB manufacturing processes.

244 haracteristics were prepared using different manufacturing processes.

245 th the same active ingredients but different manufacturing processes.

246 harmaceutical drug products can occur during manufacturing, processing, packaging, shipment and stora

247 ies from which the authors received payments manufactured products related to the guidelines, and exa

248 g transition from rapid prototyping to rapid manufacturing prompts new challenges for mechanical engi

249 congruently; the latter is advantageous for manufacturing pure materials in large amounts.

250 ed with current good manufacturing practices-manufactured reagents after assay standardization and re

251 evelopment of new routes for purification of manufactured red blood cells.

252 exploring quantum fluids, since they can be manufactured reproducibly, cover the frequency range fro

253 owever, the use of FDM 3D printing in tablet manufacturing requires a large portion of polymer, which

254 These results show that differences in manufacturing resulted in variable BMSC characteristics

255 tecture is a critical variable in additively manufactured scaffold design for functional tissue engin

256 able structures with desired performance and manufacturing scalability.

257 l monitoring and maintenance activities in a manufacturing setting.

258 Manufactured silver nanoparticles (Ag NPs) have long bee

259 During manufacturing, some ingredients are added in amounts exc

260 sed electronics, with particular emphasis on manufacturing, stability, and health and environmental c

261 eum substances from four petroleum substance manufacturing streams and evaluated their chemical compo

262 Our finding may provide a new route to manufacturing super-strong steels in a simple and econom

263 y, using the plant's natural architecture we manufacture supercapacitors along the stem.

264 plications; however, the development of cell manufacturing systems to enable this promise faces many

265 des (whole leaf, broken, fannings, dust) and manufacturing techniques (orthodox, "crush, tear, curl")

266 ys beyond the surface, and utilizes additive manufacturing techniques as a tool to create materials w

267 n the other hand, have demonstrated, through manufacturing techniques discovered during the past deca

268 Emerging additive manufacturing techniques enable investigation of the eff

269 The use of extremely affordable manufacturing techniques provides a rapid, sensitive, re

270 results open a new platform for the additive manufacturing techniques, for example, three-dimensional

271 via standardized printed circuit board (PCB) manufacturing techniques.

272 gy push from better simulation tools and new manufacturing technologies, and on the other hand by a m

273 strongly required for low-cost and scalable manufacturing technology.

274 But even while the vaccine is being manufactured the circulating strains can evolve.

275 synthetic gene cluster (BGC) responsible for manufacturing the antibiotic.

276 sferred into a numerical control machine for manufacturing the personalized titanium plates by 3D pri

277 However, during feed manufacture, the high pelleting temperatures challenge w

278 However, due to increased manufacturing, there is concern that human and environme

279 Manufacturing these devices will critically depend on th

280 The quanta here are small, pre-manufactured three-dimensional units-which we call metam

281 s an environmental contaminant that has been manufactured to be used as surfactants and repellents in

282 ical flow microreactor has been designed and manufactured to improve the efficiency of electrochemica

283 work demonstrates the potential of additive manufacturing to create alloys with unique microstructur

284 ed therapeutics are promoting pharmaceutical manufacturing to transition from a traditional batch par

285 Older crows manufactured tools of distinctive shape, with pronounced

286 , estimates the annual releases of ENMs from manufacturing, use, and disposal of a product explicitly

287 lung, gastric, and colorectal cancers, with manufacturing used as the referent occupation or industr

288 e marrow-derived mesenchymal stem cells) are manufactured using many different methods, but little is

289 Our relatively simple design can be manufactured using origami-like sheet folding and bondin

290 The IMS was manufactured using three-dimensional (3D) printing techn

291 ructured ceria, facilitating its large-scale manufacturing using green, economic, non-toxic solvents.

292 austenitic 316L stainless steels additively manufactured via a laser powder-bed-fusion technique exh

293 hilus ACA DC 0022, used in Greek Feta cheese manufacturing, was purified.

294 ups have ongoing or completed GMP-level cell manufacturing, we highlight key clinical translation con

295 s study is fully compatible with large-scale manufacturing where the patterning areas are only limite

296 esidue is a high volume byproduct of alumina manufacture which is commonly disposed of in purpose-bui

297 elerate drug screening and enable continuous manufacturing, while enhancing dosage accuracy.Tradition

298 n boundaries, and dislocations formed during manufacturing, while high uniform elongation correlates

299 res and complex forms are often difficult to manufacture with current technologies, especially at the

300 Mixed ion perovskite solar cells (PSC) are manufactured with a metal-free hole contact based on pre