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1 rom 0.136 (moderately hypointense) to 0.529 (encapsulation).
2 tion with starch to facilitate some types of encapsulation.
3 o obtain the desired properties for targeted encapsulation.
4 psules were altered depending on the mode of encapsulation.
5 ity and the melting temperature decreased on encapsulation.
6 Kdo transferase domain resulted in a loss of encapsulation.
7 dge-ingress of water or moisture through the encapsulation.
8  into amorphous alpha-CD powder prior to the encapsulation.
9 lite and provide final evidence of the metal encapsulation.
10  direct liver invasion, and absence of tumor encapsulation.
11    The DSC technique was used to confirm the encapsulation.
12 imensional binding cavities capable of guest encapsulation.
13 with lower GPE concentrations (P<0.05) after encapsulation.
14 nly provides suitable spaces for both iodine encapsulation and cation intercalation but also generate
15                        We measured liposomal encapsulation and cellular uptake of the monodisperse pa
16 for the reconstitution of membrane proteins, encapsulation and concentration of nanomaterials, and th
17 meworks (MOFs) as novel delivery systems for encapsulation and controlled release of volatile allyl i
18                 This resulted in the loss of encapsulation and intrinsic lipooligosaccharide sialylat
19 , a cryptic cell type, dedicated to pathogen encapsulation and killing.
20 Sox10(+) adult stem cells contribute to both encapsulation and microvessel formation.
21                      Here we demonstrate the encapsulation and noncovalent stabilization of organic r
22 led a systematic study of the impact of both encapsulation and proximal polyanionic surfaces on a set
23 tomated C. elegans analyzer based on droplet encapsulation and real-time image processing was develop
24 id deposits, resulting in ineffective plaque encapsulation and reduced plaque compaction, which is as
25 te the application of these microcapsules in encapsulation and release of proteins without impairing
26 er give rise to materials for the controlled encapsulation and release of therapeutics.
27 ynthesized and applied to reversible bromine encapsulation and release.
28 on-adhesive layer, enabling highly efficient encapsulation and retention of small molecules and activ
29 les combining copigmentation for anthocyanin encapsulation and stabilization were fabricated.
30 dation are cytocompatible and allow for cell encapsulation and subsequent release.
31 it a wide range of applications that require encapsulation and sustained release of molecules in aque
32 ies support the use of CC (PEG MG) for islet encapsulation and transplantation in clinically relevant
33 isture content, hygroscopicity, curcuminoids encapsulation and volatile release.
34 ssible monomers, which can be tuned for drug encapsulation and which retain good cellular compatibili
35 ethyl methacrylate, E) to enhance vancomycin encapsulation, and (iv) a chitosan derivative called ZWC
36 rolled drug delivery, protein delivery, cell encapsulation, and cell delivery applications.
37  a group of promising methods; complexation, encapsulation, and hot melting.
38 patibility as materials for cell culture and encapsulation applications.
39                                   Thus, this encapsulation approach may have the potential applicatio
40  The fabrication of a new type of solar cell encapsulation architecture comprising a periodic array o
41          Silicon solar cells comprising this encapsulation architecture show greater total external q
42 he squaraine fluorescence quantum yield upon encapsulation as a rotaxane.
43  alpha-cyclodextrin (alpha-CD) powder on CO2 encapsulation at 0.4-1.6 MPa pressure for 1-72 h through
44 ies decorated with biomolecules by insertion/encapsulation/attachment, serve for development of multi
45 iled mechanistic investigation of host-guest encapsulation behavior in a new enzyme-mimetic metal-lig
46 also minimized down to 20% by adopting a new encapsulation bilayer of octadecyltrichlorosilane/polyme
47 hought to be the major cell type involved in encapsulation, but it is unclear whether and how stem ce
48 s in catalysis, energy storage and molecular encapsulation, but large domain sizes (on the order of 5
49 induce foreign body reaction and end up with encapsulation by a dense avascular fibrous layer enriche
50                                          The encapsulation by spray drying method of coriander essent
51 act between the metal and metal oxide sites, encapsulation by the nanoporous oxide film provided a si
52 ion of CO2-alpha-CD complexed powders during encapsulation, by which amount of CO2 encapsulated by am
53    Overall, we demonstrate that nanoparticle encapsulation can improve targeting, provide low off-tar
54         The results showed that the alpha-CD encapsulation capacity was over 1 mol CO2/mol alpha-CD a
55                                          The encapsulation caused higher temperature stability compar
56                                              Encapsulation causes 35-55% suppression in kappa and app
57 aces were achieved using 1.0 mg mL(-1) swell encapsulation concentrations of 2 nm AuNPs.
58                                     The best encapsulation conditions were obtained at 2% v/v of thym
59 mic exposure such as would be experienced in encapsulation devices damages islet viability and beta c
60                                              Encapsulation devices have the potential to enable cell-
61                    However, reasonably sized encapsulation devices promote ischemia due to high beta
62 ol within niosomes was approximately 80% and encapsulation did not influence the radical scavenging a
63 ial applications in areas such as biomimetic encapsulation, drug delivery, catalysis and biosensing.F
64                                     Alginate encapsulation effectively controlled carbohydrate releas
65 ated uniform size distribution and high drug encapsulation efficacy of the electrosprayed nanoparticl
66 on with carrier lipidoids, promoting protein encapsulation efficacy, and facilitated cancer cell targ
67                       Loading capacities and encapsulation efficiencies of freeze-dried inclusion com
68 ontaining microgels by a factor of ten, with encapsulation efficiencies over 90%.
69                                          The encapsulation efficiency (82.8%), loading capacity (35.3
70  polydispersity index (PDI), zeta potential, encapsulation efficiency (EE) and morphology.
71                     Size, zeta potential and encapsulation efficiency (EE) of the produced spherical
72  The process was optimized to achieve higher encapsulation efficiency (EE=82.7%) and a smaller size (
73 lly high drug loading-up to five fold higher encapsulation efficiency and drug loading compared to na
74 n complex was prepared and characterized for encapsulation efficiency and loading capacity using UV-V
75  was to evaluate the odour masking property, encapsulation efficiency and physicochemical properties
76                            Nevertheless, the encapsulation efficiency and the deliver kinetics differ
77 lutein concentration inside the capsules and encapsulation efficiency are key parameters that must be
78  were ~100nm in size and exhibited high drug encapsulation efficiency as 94.7%.
79 extract (SOE) exhibited significantly higher encapsulation efficiency compared to encapsulates contai
80                 CYnLIP (132.00+/-6.23nm) had encapsulation efficiency of 49.04+/-2.54% for erlotinib.
81 as the optimized treatment with a reasonable encapsulation efficiency of 5.6% and a nanoparticle size
82 c acids (HA-NCs) have diameter of 224-253nm, encapsulation efficiency of 53-78%, and are stable over
83                    The S/O/W emulsion had an encapsulation efficiency of 75%, a hydrodynamic diameter
84                                              Encapsulation efficiency of alpha-tocopherol within nios
85 opigmentation can significantly increase the encapsulation efficiency of anthocyanin in CaCO3, wherea
86  a hydrodynamic diameter of 200-300nm and an encapsulation efficiency of approximately 90% were self-
87 , oil and surfactant content on the size and encapsulation efficiency of nanocarriers containing pepp
88                 The particle size and lutein encapsulation efficiency of nanoemulsions prepared by em
89                     The loading capacity and encapsulation efficiency of the proposed system was stud
90                   Results indicated that the encapsulation efficiency of the whole oleoresin in the p
91  the particles ranged from 78 to 1100mum and encapsulation efficiency ranged from 67.9 to 93.9%.
92  (29.9mum) when cashew gum was used, and the encapsulation efficiency reached 76%, similar to that of
93  The loading capacity of lycopene was 9% and encapsulation efficiency was 89%.
94                                          The encapsulation efficiency was 97%.
95                                              Encapsulation efficiency was greater than 95%, and the y
96                  Also, it was found that the encapsulation efficiency was inversely proportional to t
97 tent, bulk density, wettability, morphology, encapsulation efficiency were evaluated.
98 ing cashew gum were more hygroscopic however encapsulation efficiency were higher and surface oil oxi
99       The gelatin/pectin complex had highest encapsulation efficiency with 17.91%.
100 ver the particle size and shape, (ii) a high encapsulation efficiency, (iii) mild processing conditio
101 ed good reproducibility and over 89% protein encapsulation efficiency, and practically feasible to ad
102                                              Encapsulation efficiency, loading and loading efficiency
103 pheres were evaluated regarding size, shape, encapsulation efficiency, loading capacity and antimicro
104                               The viscosity, encapsulation efficiency, loading capacity, transmission
105 n, large oxygen loading capacity, high LLL12 encapsulation efficiency, well protection of bioactivity
106 s was strengthened, which therefore enhanced encapsulation efficiency.
107 wer carotenoids losses, and higher yield and encapsulation efficiency.
108 buted within the liposomes, even at the same encapsulation efficiency.
109 erties of the guests was also observed, with encapsulation either changing or switching-on luminescen
110 ing, chemical inactivation, incineration, or encapsulation) followed by burial or transportation to a
111 n for biological tissue and reversible focal encapsulation for sensitive components in flexible elect
112                                Surprisingly, encapsulation impaired DC maturation independent of its
113                        Most importantly, PFP encapsulation improved Dox penetration in the tumor peri
114 ned and produced a synthetic ecosystem by co-encapsulation in a silica gel matrix, which enabled prec
115 alyst as well as bridging two enzymes for co-encapsulation in a single capsid while maintaining their
116          FTIR demonstrated successful TE-HCL encapsulation in aligned fibers.
117                         Here we describe the encapsulation in alpha-cyclodextrins (alpha-CDs) of whea
118 ibilities of integrating vascularization and encapsulation in bioprinted tissues are expounded, and f
119                          Results showed that encapsulation in CDs significantly increased the solubil
120                               Effects of the encapsulation in cyclodextrins (CDs) on the solubility,
121 ity and stability; this could be resolved by encapsulation in cyclodextrins (CDs).
122                           Starting with cell encapsulation in digested lymphoid tissues, clusters of
123 e developed a technique based on single-cell encapsulation in droplets of a monodisperse microfluidic
124                                              Encapsulation in ethyl cellulose nanocarriers delayed De
125 urea-based outer cleft, followed by a second encapsulation in its urea-based inner cleft.
126 ese data define the genetic requirements for encapsulation in K. kingae and demonstrate an atypical o
127                                 In addition, encapsulation in liposomes enhanced in vitro bioaccessab
128  attempted to improve its bioavailability by encapsulation in mixed phosphatidylcholine micelles.
129 gested that conjugation with CPP followed by encapsulation in MNPs provides an effective strategy for
130       The obtained results indicated that FA encapsulation in MSPs significantly improved its stabili
131 ticancer drugs can be further potentiated by encapsulation in nanocarriers and/or affinity targeting
132 ic interactions, coordination chemistry, and encapsulation in porous materials.
133       Storage at 4 degrees C synergized with encapsulation in preventing degradation of bioactives.
134  beetroot molasses as substrate and used for encapsulation in proniosome powders after extraction, wi
135 fected the stability of CTX drastically, but encapsulation in proniosomes retarded its degradation.
136                                              Encapsulation in silica allows one to create robust arch
137 ing (lyophilisation), biomineralisation, and encapsulation in sugar glass and organic polymers.
138 Oxidation was significantly promoted by iron encapsulation in the aqueous phase, even at 25 degrees C
139 TIC phenotype delivered by multiplexed siRNA encapsulation in the lipopolymeric nanoparticle 7C1.
140                                       The PE encapsulation in the liposomes was responsible for chang
141 -term bioavailability and that citrus pectin encapsulation increased intestinal accessibility during
142 r with self-complementary hydrogen bonds, by encapsulation inside a pair of cyanostar macrocycles.
143                                              Encapsulation introduces a physical barrier that prevent
144 ells for hundreds of years and that nematode encapsulation is a pleisomorphic trait, prevalent in bot
145                                 The field of encapsulation is being explored widely and new informati
146                           Its selectivity of encapsulation is driven by the coordination of guest fun
147                                     Membrane encapsulation is frequently used by the cell to sequeste
148  visual system is one thing; the question of encapsulation is quite another.
149                      Kinetic analysis of the encapsulation-isomerization event revealed that increasi
150      Two probiotic strains were selected for encapsulation (Lactobacillus plantarum CECT 220 and Lact
151                                          The encapsulation layer is permeable to reactants, stable un
152 use of a micropatterned polydimethylsiloxane encapsulation layer to form narrow ( 20 mum) microchanne
153                                        Islet encapsulation may allow transplantation without immunosu
154                                         This encapsulation mechanism of lithiated/delithiated polysul
155 gen, nutrient, and hormonal passage over the encapsulation membrane is solely dependent on diffusion
156 e extension of the ammonium-sulfate gradient encapsulation method to nucleobase analogues, a liposoma
157 TO/g beta-CD), suggesting an effective solid encapsulation method.
158 th or without gelatin or by the self-healing encapsulation method.
159      We were able to show, that whey protein encapsulation modulated short-term bioavailability and t
160                                         Upon encapsulation, molecular ion peaks derived from the host
161 n and a ligand fragment was also isolated by encapsulation of a Cs(+) counterion with 2.2.2-cryptand.
162             The unprecedented double concave encapsulation of a metal ion by two bowl-shaped sumaneny
163                           Here we report the encapsulation of a Ni-containing polyoxometalate (POM) [
164 bodies, with or without co-administration or encapsulation of a Toll-Like Receptor 9 agonist.
165 ene in water allows for the light-controlled encapsulation of a variety of second guest compounds, in
166                                          The encapsulation of actinide ions in intermetalloid cluster
167                                              Encapsulation of allergens or DNA vaccines into nanostru
168 :Chol:DCP was the optimum formulation in the encapsulation of alpha-TOC applying niosome system.
169 t have revealed a role of these cells in the encapsulation of amyloid deposits ("microglia barrier").
170                                              Encapsulation of an anticancer therapeutic, alpha-cyano-
171  the coating material greatly influenced the encapsulation of antioxidant PC.
172 the presented study, we investigated how the encapsulation of bilberry extract (BE), a source of anth
173                Here, a novel concept for the encapsulation of bioactive proteins in DNA flowers (DNF)
174 arkably high-spin-stabilizing effect through encapsulation of C70 was observed.
175 hell wall, and these unique structures allow encapsulation of cargo that can be contained, virtually
176            Therefore, we hypothesize that co-encapsulation of CDDP and metformin will avoid the promi
177                                              Encapsulation of compound 2 in PLGA nanoparticles or cyc
178 theory (PST) seems to be very plausible, the encapsulation of content generation deserves further ela
179       The CNA-containing particles show high encapsulation of DNA complementary to the CNA sequence,
180 ing molecular and chemotherapy together with encapsulation of drugs in nanocarriers provides effectiv
181 eins by albumin fusion technology (AFT), and encapsulation of drugs into albumin nanoparticles.
182 , we report on a strategy enabling efficient encapsulation of drugs via remote loading into membrane
183 withdrawing transition metals, thus allowing encapsulation of electron-rich guests mainly driven by a
184  protein based nanocompartments for targeted encapsulation of enzyme pathways.
185 ployed in biotechnology, for example, in the encapsulation of enzymes and for fusion proteins in tiss
186 ategy to promote an efficient noncovalent co-encapsulation of enzymes within a single protein cage of
187                                DSC confirmed encapsulation of erlotinib within CYnLIP.
188                      Results showed that the encapsulation of flavor nanoemulsions in filled hydrogel
189  of unstable garlic active compounds and the encapsulation of garlic extract proves to be a promising
190 rged as a versatile hydrophilic platform for encapsulation of guest molecules with a capability to re
191 ns, functional hybridization of ZIFs via the encapsulation of guest species (such as metal and metal
192 lution data, showing for the first time that encapsulation of guests by a complex self-assembled fold
193                               Therefore, the encapsulation of H. pluvialis oleoresins is an alternati
194            Our results also suggest that the encapsulation of heterologous pathways in bacterial micr
195  water and soil by a mechanism involving the encapsulation of hydrophobes into the self-assembled agg
196                                 Overall, the encapsulation of labile compounds in more complex system
197             These findings may allow for the encapsulation of large amounts of water-soluble componen
198  shown to be crucial for achieving effective encapsulation of large hydrophobic guests, including ful
199 ity free transfer process and subsequent top encapsulation of large-area CVD-grown graphene.
200                                          The encapsulation of limonene in freeze-dried gellan systems
201                                              Encapsulation of lipophilic bioactive compounds using pl
202  two classes of assembly pathways leading to encapsulation of many-molecule cargoes.
203  critical review, the phase transitions upon encapsulation of more than 130 amphiphilic and soluble a
204 bility to tune the dynamic range, as well as encapsulation of multiple dyes to generate a ratiometric
205    Importantly, we demonstrate that 7C1 nano-encapsulation of multiplexed RNAi is a viable BTIC-targe
206                     This study evaluated the encapsulation of NO by CDs using phase solubility studie
207 olved elegantly in biological systems by the encapsulation of nucleic acids.
208                                          The encapsulation of oleoresins improved the stability of AX
209      Oven or microwave roasting and alginate encapsulation of pea flour and starch to produce novel p
210                                              Encapsulation of peptides can be used to enhance their s
211 d spray-drying techniques were evaluated for encapsulation of phenolic compounds (PC) extracted from
212                                We report the encapsulation of platinum species in highly siliceous ch
213               The present work describes the encapsulation of probiotics using a by-product as wall m
214 the obtained data strongly indicate that the encapsulation of pyrazolo[3,4-d]pyrimidines in liposomes
215 in the support and cause HCOx-functionalized encapsulation of Rh nanoparticles by the support.
216                                          The encapsulation of single cells in tunable hydrogels shoul
217                                              Encapsulation of specific enzymes in self-assembling pro
218 e the most extensively-used design strategy: encapsulation of sulfur cathodes in carbon host material
219 barrier materials for packaging, sealing, or encapsulation of the active substances, which prevent ox
220                                              Encapsulation of the Ahmed glaucoma valve (AGV) plate is
221 cert with quantum chemical calculations that encapsulation of the alkali metal cations in the cavity
222                               Interestingly, encapsulation of the compound within poly(lactic-co-glyc
223 supramolecular adduct based on the symmetric encapsulation of the Dawson-type [P2W18O62](6-) anion by
224  2 possesses an enclosed cavity suitable for encapsulation of the fullerene C60, whereas original cag
225                                      Polymer encapsulation of the magnetometer and fiber optical conn
226 roteins in C. elegans, which is based on the encapsulation of the proteins of interest within cationi
227 and nucleic acids without any formulation or encapsulation of the therapeutic.
228 ied by H-bonding to eight MeOH molecules and encapsulation of two benzene guests.
229 t liposomes constitute a suitable system for encapsulation of unstable garlic active compounds and th
230                                              Encapsulation of unstable guests is a powerful way to en
231 ulsion solvent evaporation method with 72.8% encapsulation of VD3.
232                                         Cell encapsulation, of up to 8 samples at a time, takes place
233                   To evaluate the effects of encapsulation on p40 production in vivo and prevention o
234 gy that enables measurement of the impact of encapsulation on the thermal conductivity (kappa) and th
235 of protein drugs as an alternative to either encapsulation or chemical modifications with polymers.
236 ithout immunosuppression or immunoprotective encapsulation or with only targeted protection from auto
237 ed with either glucose oxidase (via chitosan encapsulation) or a RNA aptamer (via covalent linking) f
238 ich can be prevented by surface passivation, encapsulation, or in-situ cleaving to recover the topolo
239 ke extracellular matrix (Matrigel; MG) islet encapsulation (PEG MG) to improve capsule immunoisolatio
240 ehydratase with a new type of intramolecular encapsulation peptide.
241 e unstable enzyme, including alumina sol-gel encapsulation, physisorption to PDMS channels with, and
242 ored as oral delivery systems with promising encapsulation potentials.
243  compared to free polyphenols regardless the encapsulation procedure and storage conditions.
244                                          The encapsulation process presented a 1:1 stoichiometry in a
245     The obtained results revealed an optimal encapsulation process was 5% of core loading mass with a
246 Firstly, the effect of the type of CD on the encapsulation process was studied.
247 ogy was applied to investigate the effect of encapsulation processing variables, including core loadi
248 , the similar spectral profile suggests that encapsulation protects cheese fat from interaction with
249 , during larval development for an efficient encapsulation response and for the formation of lamelloc
250                                Nano-liposome encapsulation resulted in a significant reduction in aci
251 r inflammatory response, fouling and fibrous encapsulation resulting from the host foreign body respo
252                                          The encapsulation results in stable 21-22 nm sized CCMV-like
253  layout optimization, assembly processes and encapsulation schemes to yield 3D configurations that sa
254                                          The encapsulation showed no negative effect on the antioxida
255 degradation have clear correlations with the encapsulation stability of guest molecules within these
256 ative silk micrococoons enable the effective encapsulation, storage and release of other aggregation-
257 ological possibilities and limitations of an encapsulation strategy to establish near-normoglycemia i
258                      Novel food-grade hybrid encapsulation structures based on the entrapment of phos
259 in novel properties, not present in previous encapsulation structures.
260 Various methods of crafting the starch-based encapsulation such as electrospinning, spray drying, ant
261                These data indicated that the encapsulation system developed in this study preserves v
262 (BSA) and tannic acid (TA) were tested as Lf encapsulation system for oral administration.
263                                    Suggested encapsulation system has a great potential for functiona
264      The aim of this study was to develop an encapsulation system to preserve viability of probiotics
265 ers, deployable space structures, reversible encapsulation systems and medical tools and robots.
266                                          The encapsulation systems can positively influence the contr
267 urally occurring membrane- and protein-based encapsulation systems in microbes and their recent appli
268  from this field aim at pharmaceutical agent encapsulation, targeted drug-delivery, and theranostics.
269 o covalent labeling techniques, we developed encapsulation techniques, where the cargo is loaded into
270                                        After encapsulation, the active principle was released slower
271 ed include the stabilization of catalysts by encapsulation, the introduction of molecular sieving or
272                                    Following encapsulation, the printed black phosphorus is stable ag
273 ment of new generation microspheres for cell encapsulation therapy.
274 icles in several applications including cell encapsulation, three-dimensional cell culture, and cell-
275                       Here we adapt liposome encapsulation to enable the modular, controlled compartm
276  in a pairwise model simulating high-density encapsulation to normoxic or ischemic culture for 12 hou
277  study, we evaluated the use of nanoparticle encapsulation to overcome this limitation.
278 yer (LbL) approach is reported for probiotic encapsulation to protect probiotics against GI tract ins
279 e pathogen as it liberates bacteria from GBP encapsulation to resume actin-mediated motility and cell
280                                        Guest encapsulation underpins the functional properties of sel
281 he entropic and enthalpic driving forces for encapsulation versus sequential exterior guest binding t
282                                          The encapsulation was performed by direct mixing, and direct
283                                     Betalain encapsulation was performed by ionic gelation as a stabi
284                                              Encapsulation was shown to promote oxidative stability,
285                              Biogenic silica encapsulation was used to stabilize the enzyme and enabl
286 ing the hybrid microcontainers for the siRNA encapsulation we demonstrate the reduction of viral nucl
287                                For monolayer encapsulations, we identify representative two-dimension
288 e most common complication was recurrence of encapsulation with elevated IOP (15.9%).
289 while gentle reaction conditions permit cell encapsulation with high viability.
290  beta-CD, since it enabled high curcuminoids encapsulation with low volatile release, moisture conten
291 lantarum displayed high survival (98%) after encapsulation with mixtures of maltodextrin (MD) combine
292                                              Encapsulation with the ternary blends reduced particle s
293                                          PFP encapsulation within ELTSLs and ENTSLs did not impact si
294                                One option is encapsulation within liposomes, which enables chemical r
295                 Based upon Indocyanine Green encapsulation within the nanoparticles, UPA ligand targe
296 rticles exhibited high CS/DNA NP loading and encapsulation within ZN microparticles.
297                                              Encapsulation yield (%) of resistant starch microspheres
298                                         High encapsulation yield values were obtained (91-97% and 77-
299                                          The encapsulation yield was over 80%.
300 ng optical and scanning electron microscopy, encapsulation yield, particle size, thermogravimetry, Fo

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