1 discuss current challenges, and present our
outlook.
2 catalyzed by ArMs and a concluding critical
outlook.
3 olerant to hydroxycarbamide (HC) have a poor
outlook.
4 cancer is important in forecasting clinical
outlook.
5 ctivity, activity, efficiency, and synthetic
outlook.
6 ive of this original study as well as future
outlook.
7 The review is complemented with a short
outlook.
8 Finally, we ended with an
outlook.
9 ing the bromodomains of KATs, and present an
outlook.
10 ghlighting current directions and the future
outlook.
11 directions and hence create an instrumental
outlook.
12 1alpha-positive tumors has a better clinical
outlook.
13 cture of gliomas and a potential therapeutic
outlook.
14 and communicate uncertainty in future energy
outlooks.
15 Conclusion and
outlook 59 Acknowledgements 60 References 60 To meet the
16 Outlook 66 Acknowledgements 66 References 66 Plasmodesma
17 Outlook 699 Acknowledgements 699 References 699 SUMMARY:
18 The power consumption of the cloud based
Outlook (
8%) and Excel (17%) was lower than their tradit
19 been either too regional or global in their
outlook [
8-11].
20 Conclusions and
outlook 911 Acknowledgements 912 References 912 Subtilas
21 asonable skill to provide the climate-health
outlook about possible disease incidence at least 2 week
22 Finally, we provide an
outlook about the future development of synthetic 2D CCF
23 However, the group with a positive
outlook about the future of radioimmunotherapy predicted
24 rmation Administration (EIA)'s Annual Energy
Outlook (
AEO), for investment and policy decisions.
25 The quantitative
outlook also brings up the issue of precision, and the u
26 of the 1930s left a lasting impression on my
outlook and career aspirations.
27 per species group with OECD/FAO Agricultural
Outlook and FAO FishStat production volumes.
28 Furthermore,
outlook and future directions of modelling and simulatio
29 less organelles are key examples of this new
outlook and may represent a critical foundation of life,
30 Lastly,
outlook and the future development of biosensors for the
31 ific research and discuss possible problems,
outlooks and future needs in the use of optical rulers f
32 is important in life, maintaining a positive
outlook,
and embracing a philosophy that stresses work/l
33 n the community's motivations, philosophical
outlook,
and methods.
34 senide, remaining challenges, and the future
outlook are addressed in this minireview.
35 A summary and
outlook are also presented, discussing the remaining cha
36 learning framework as well as its potential
outlook are discussed.
37 Finally, a summary and
outlook are offered.
38 Finally, conclusions and future
outlook are presented and discussed.
39 Finally, the challenges and
outlook are provided for guiding the rational engineerin
40 To close, a conclusion and
outlook are provided, pointing out future designs and de
41 otential characterization methods as well as
outlook are provided.
42 plications, technical challenges, and future
outlooks are provided for this promising sensing modalit
43 discussed, and corresponding strategies and
outlooks are suggested.
44 s who participated in the meeting provide an
outlook at some of those key issues and concepts.
45 articipated at the meeting provide a concise
outlook at the most pressing unmet research and clinical
46 We argue that an optimistic
outlook by the nuclear medicine community is crucial to
47 Presented herein is a unique personal
outlook conceptualizing the powerful proximity-enhanced
48 Finally, closing remarks and an
outlook conclude the review.
49 Collectively, our biophysical
outlook delineates activation and highlights the challen
50 The future
outlook encompasses rational and sustainable use of effe
51 vailable preclinical and clinical tools, the
outlook for academic-community-industry partnerships in
52 sources, and a more systematic translational
outlook for accumulation of evidence may augment the pub
53 We describe the
outlook for an integration between Kurzban et al.'s prof
54 The
outlook for AR includes a better understanding of novel
55 ward pluripotency has completely altered the
outlook for biomedical research.
56 to the brain could dramatically improve the
outlook for cancer survivors and enable more effective u
57 We also discuss the
outlook for CAR T-cell therapies, including managing tox
58 f special importance given the current bleak
outlook for chronic progressive fibrotic diseases, such
59 e radiopharmaceuticals present an optimistic
outlook for clinical translation into receptor-targeting
60 Scenario analyses explore the
outlook for CO2, which under best-case conditions could
61 At last, the Review offers an
outlook for commercialization viability of memristive te
62 research directions for each compound and an
outlook for constructing more efficient oxide-based PECs
63 vantages and shortcomings, commenting on the
outlook for development of novel voltage imaging methods
64 The challenges and
outlook for drugging the PI3 kinome are discussed in the
65 ly, we offer some perspectives on the future
outlook for electrochemical CO(2)R.
66 climate may thus interact to give a positive
outlook for exploited high-latitude marine resources.
67 The final section consists of an
outlook for future developments and challenges for stret
68 erties and current challenges, we provide an
outlook for future directions in this rapidly evolving f
69 n hybrid solar cells, and finally provide an
outlook for future directions of this extraordinarily ri
70 ugh this line of research offers an exciting
outlook for future epigenetic research in PTSD, importan
71 led to progress in the field and provide an
outlook for future innovations in electron acceptors for
72 tive trials should be pursued to improve the
outlook for future interventional trials in sepsis.
73 ighlight seminal experiments, and present an
outlook for future progress.
74 A detailed
outlook for future research on MXenes is also presented.
75 iviral functions, current limitations and an
outlook for future research.
76 ve of our analysis was to quantify the water
outlook for future shale oil development using the Eagle
77 of the plant phyllosphere microbiome and the
outlook for future studies based on human microbiome GWA
78 ir current use and future directions, and an
outlook for future technological development.
79 cuses on the legacy of these studies and the
outlook for future treatment of cardiac diseases with st
80 In conclusion, it offers an
outlook for future trends and developments in PFM.
81 of these next-generation approaches, and the
outlook for gene-modified or gene-edited cell therapies.
82 ppresses HIV-1 replication, transforming the
outlook for infected patients.
83 per concludes with a brief discussion on the
outlook for integrating biosensors with emerging technol
84 The
outlook for myeloma patients has greatly improved over t
85 What is the
outlook for neuroscientists who seek to characterize com
86 Finally, we discuss the
outlook for novel technologies that are changing the sta
87 ogenous insulin has dramatically changed the
outlook for patients with diabetes.
88 Purpose The general
outlook for patients with diffuse large B-cell lymphoma
89 s with effective therapies should change the
outlook for patients with lysosomal disorders with neuro
90 and bortezomib has dramatically improved the
outlook for patients with MM, but their relative benefit
91 The
outlook for patients with neurogenic bladder has been tr
92 The
outlook for patients with refractory and relapsed acute
93 Although the
outlook for patients with SLE has greatly improved, many
94 The
outlook for patients with thin invasive melanoma is posi
95 ted with existing biosensors, and provide an
outlook for PC-based biosensors and their promise at the
96 nvestigation that may ultimately improve the
outlook for people living with diabetes and at risk for
97 lications have resulted in a more optimistic
outlook for people with diabetes.
98 ne-targeted drug deployment to transform the
outlook for several lethal cancers.
99 ditions on the mountain, and signify a bleak
outlook for silverswords if these trends continue.
100 The current challenges and a future
outlook for Sn-based perovskites are discussed.
101 Lastly, we provide an
outlook for super-resolution microscopy and single-molec
102 Finally, we present the future
outlook for targeting the iCP in a variety of disease ty
103 We conclude the review with an
outlook for the clinical use of this highly promising, b
104 s from local to global scales, improving the
outlook for the environment and people into the future.
105 America suggest a mixed (positive/negative)
outlook for the environmental mercury problem.
106 The study indicates a promising new
outlook for the examination of prostanoid receptor-G-pro
107 ion, we consider the medium- and longer-term
outlook for the field.
108 Finally, an
outlook for the future development of catalysts as well
109 ials currently on the market and provides an
outlook for the future developments needed to improve re
110 cannot be studied with this technique and an
outlook for the future is provided.
111 hen performing VR experiments and provide an
outlook for the future of this exciting experimental too
112 revent further coral decline and improve the
outlook for the Great Barrier Reef.
113 iscuss remaining challenges, and provide our
outlook for the near future.
114 ds, setting it in context and discussing the
outlook for the next few years.
115 This provides a positive
outlook for the potential of gene therapy to cure adult
116 ore than satisfactory suggesting interesting
outlook for the proposed device.
117 We also provide an
outlook for the sector, highlighting key technical chall
118 C) bonds for these purposes, and provides an
outlook for their expansion, including the development o
119 immunotherapy, and we critically analyse the
outlook for these emerging areas.
120 Our findings paint a positive demographic
outlook for these indigenous populations, though long-te
121 ricular lesions has drastically improved the
outlook for these patients.
122 a perspective into the future challenges and
outlook for this burgeoning field.
123 ic option for CIN2/3, changing the treatment
outlook for this common disease.
124 used within MLPDS member companies, and the
outlook for this field.
125 argeted nuclease technology and the clinical
outlook for treatment of hereditary mitochondrial diseas
126 polymethacrylate matrix, which also has the
outlook for use with samples without pre-treatment and i
127 Finally, a concise
outlook for utilizing POPs for carbon capture is discuss
128 P research since its beginnings and offer an
outlook for where these materials might be headed in the
129 We conclude our review with some
outlooks for future research.
130 The presented water
outlooks for HF and FP water volumes can be used to asse
131 lp explain the discrepancy between promising
outlooks for many NP formulations in preclinical studies
132 sful in solving engineering tasks ranging in
outlook from the molecular to the astronomical.
133 The
outlook has improved dramatically in recent years with t
134 Their
outlook has not appreciably improved in decades.
135 Finally, we give an
outlook how a diagnostic and therapeutic workflow might
136 ssons learned, challenges, achievements, and
outlook in building a chemistry research center in Vietn
137 (1)
outlook in PD is heterogeneous, with most dying or devel
138 Their future
outlook in regenerative medicine including the current c
139 ective presents current state of the art and
outlook in synthesis of light olefins, dimethyl ether, l
140 The
outlook in Takayasu arteritis has improved over the last
141 tion, which provides a potentially rewarding
outlook in that centrosome declustering agents hold prom
142 The
outlook in the search for a prebiotically plausible vers
143 generally, this study offers an interesting
outlook in the understanding of the necessity of epitope
144 le deposits has significantly changed energy
outlooks in both the US and world.
145 Future
outlooks in this area are also discussed.
146 The future
outlook includes developing conjugated patterned hydroge
147 aspects of BTK inhibitors, and we provide an
outlook into clinical development and open questions reg
148 s clinically relevant aspects and provide an
outlook into future biologically oriented therapeutic st
149 I conclude with a short
outlook into how combined biophysical and cell biologica
150 fforded by the lubricant before providing an
outlook into where research centred on understanding the
151 Our results open
outlooks into potentially undiscovered Haemosporidian di
152 A detailed
outlook is finally given regarding important future appl
153 The poor clinical
outlook is further exacerbated by a lack of effective ta
154 Finally, an
outlook is given of how future biomaterial-based mucosal
155 An
outlook is given on how especially comparative oncology
156 Finally, in the context of CCU, an
outlook is given on recent developments in LCA that aim
157 The
outlook is particularly favorable for patients who reach
158 Finally, an
outlook is presented with suggestions and recommendation
159 frontline applications are envisaged and an
outlook is presented.
160 Finally, a possible
outlook is projected for the design and syntheses of nex
161 uivalents) are also overviewed as well as an
outlook is provided to highlight challenges and opportun
162 pristine as the Antarctic, the biodiversity
outlook is similar to that for the rest of the planet.
163 In contrast to this early
outlook,
it is now clear that both reactive oxygen speci
164 We developed a water
outlook model that projects water use for hydraulic frac
165 The
outlook of challenges and opportunities for 2D nanomater
166 We end with an
outlook of existing challenges and near-term application
167 By altering the physical capacity and
outlook of fishers, human illness shifted their effort,
168 al and long-term environmental stability; an
outlook of flexible perovskite solar cells in portable e
169 search for better plasmonic materials and an
outlook of further research directions.
170 ntion this broader context, together with an
outlook of future research and applications of antiferro
171 y challenges facing perovskites, and give an
outlook of future research avenues that might bring pero
172 An
outlook of future scientific and technological developme
173 temperature systems and evaluate the future
outlook of high temperature batteries with well-controll
174 Finally, we assess the applicability and
outlook of microfluidic-SANS for high-throughput and flo
175 tronic structure calculations and provide an
outlook of possible new directions.
176 Finally, we provide an
outlook of potential areas where GO, its derivatives, an
177 nversion of rangeland into cropland; yet the
outlook of rangeland biodiversity has not been considere
178 This consideration gives a general
outlook of reaction routes, mechanisms, and driving forc
179 ing (CapMix) and provide perspectives on the
outlook of salinity gradient power generation.
180 A future
outlook of the advances that are likely to emerge in thi
181 logical applications, and we provide a brief
outlook of the directions in which we believe SR-SIM is
182 The future
outlook of the field includes refinement and development
183 n, transport), technical hurdles, and future
outlook of the field is presented.
184 Current challenges and a future
outlook of the field of ASCs are also discussed.
185 Furthermore, we give an
outlook of the future development of MSNs-based anti-can
186 he-art group IV-based devices and provide an
outlook of the future directions the field is taking tow
187 udy for the first time provides a structural
outlook of the FXIIIA2B2 heterotetramer assembly, its as
188 s of beta-cell miR signaling, and provide an
outlook of the opportunities and challenges ahead.
189 nform clinicians to provide a more realistic
outlook of the outcome and emphasize the importance of a
190 s and also to the importance and comparative
outlook of the properties of Sec and its role in GPxs.
191 We conclude with an
outlook of the status of the field and assess the viabil
192 le use of these examples is presented in the
outlook of this review.
193 We conclude by providing an
outlook of this technology platform and identifying prom
194 Outlooks of ENSO and its impacts often follow a two-tier
195 his MLR model also provides skilful seasonal
outlooks of winter surface temperature and precipitation
196 ) that are based on a conceptually different
outlook on acid-base equilibria.
197 We offer our
outlook on challenges and opportunities facing the field
198 s of patient samples likely provide a biased
outlook on CLL biology.
199 Finally, we present an
outlook on current trends in biophotonic materials desig
200 We conclude with prospects and future
outlook on embedding, and our view on the use of univers
201 eses using distinct examples and provides an
outlook on emerging enzyme classes.
202 We also present an
outlook on emerging opportunities, new applications, and
203 Overall, this study offers a novel
outlook on evoked activity through the framework of crit
204 We finally conclude by providing an
outlook on experiments to come and the possibility of co
205 ver-specific immune responses and provide an
outlook on future approaches.
206 We finally give a brief
outlook on future challenges and possibilities in this r
207 We conclude with an
outlook on future challenges for dynamic cell research a
208 discuss QD toxicity issues and give a short
outlook on future directions of QD-based bioimaging.
209 We finally conclude by giving some
outlook on future directions of this fascinating field.
210 trochemical pH sensing and (ii) providing an
outlook on future research along with insights, in which
211 h respect to proto-Earth and present a brief
outlook on future research directions.
212 odels for how BAM/SAM function, and offer an
outlook on future studies within the field.
213 We attempt to provide an
outlook on how CDK2-selective inhibitors may open new av
214 hlight some of these examples and provide an
outlook on how the functional mechanisms of a lncRNA gen
215 summarize these applications and provide an
outlook on how the principles of compressed sensing are
216 This review also presents the
outlook on how these technologies have been successfully
217 It will also provide an
outlook on how this field might evolve in the future.
218 in ischemic cardiomyopathy, and provides an
outlook on how this field might evolve in the future.
219 events after IACS injections, and provide an
outlook on how this may affect clinical practice.
220 We end with an
outlook on how to further exploit the unique advantages
221 prostate-specific antigen (PSA) concern, and
outlook on life.
222 lasmonic nanocrystals and finally we give an
outlook on nanocrystals of materials that could potentia
223 This tutorial review provides an
outlook on nanomaterials that are currently being used f
224 Instead, a broad
outlook on neural-circuit-damaging processes may yield i
225 We conclude the review with an
outlook on outstanding questions in the field and biomed
226 esents the reader with the current state and
outlook on photopharmacology.
227 Finally, we attempt an
outlook on possible further developments in g-C3N4 based
228 elected recent studies, and conclude with an
outlook on possible future directions for this field.
229 ng of nanomaterials and biostructures and an
outlook on possible future directions in space-time, 4D
230 Additionally, we provide an
outlook on possible future therapeutic uses of BAT in th
231 A concluding section gives an
outlook on potential future trends and perspectives.
232 With the
outlook on prediction of antigens in immune-mediated pro
233 ta using this technique offer an encouraging
outlook on robotic retroperitoneal surgery.
234 different scales, the prevailing theoretical
outlook on spatial self-organization in ecology must exp
235 RNAs in cardiovascular biology we present an
outlook on specialized functions such as chromatin remod
236 To conclude, a proactive role and an
outlook on technologically advanced biosensor platforms
237 An
outlook on the advantages and future of waveguide-based
238 At the end, a summary and future
outlook on the applications of water stable MOFs are sug
239 In the end, a summary and
outlook on the challenges and future directions in the r
240 Finally, we provide an
outlook on the challenges and opportunities associated w
241 We conclude with an
outlook on the challenges and opportunities for this eme
242 and tissue engineering, and conclude with an
outlook on the challenges facing the evolution of biomat
243 nanostructures, the review concludes with an
outlook on the challenges in solar fuel generation with
244 racterizing their properties, ending with an
outlook on the challenges that still lie ahead.
245 We finish with an
outlook on the current challenges in the field and futur
246 jective of this review is to provide a broad
outlook on the current status of nucleoside transport re
247 To conclude, an
outlook on the development of next-generation TE materia
248 Moreover, we provide an
outlook on the exceptional future developments of small
249 We conclude by providing an
outlook on the feasibility of targeting RTK networks to
250 uss the current challenges and a prospective
outlook on the field, together with the recommended solu
251 hnology have broken even and have a positive
outlook on the financial return of implementing the ReLA
252 and gene drives, are discussed, and a short
outlook on the future follows.
253 We conclude with a brief
outlook on the future of DNA nanotechnology in biosensin
254 A brief
outlook on the future of injectable and biodegradable hy
255 of plasmonics and photovoltaics and offer an
outlook on the future of solar cells based on these prin
256 Finally, an
outlook on the future research and investigation of PA-i
257 We present an
outlook on the future use of Earth observation technolog
258 r successes and failings, and finish with an
outlook on the future.
259 Finally, a brief
outlook on the impact of topology in other areas of chem
260 The final section provides an
outlook on the mechanical aspects of OSCs, activation an
261 ing platforms, the pervasive challenges, and
outlook on the pathway to translation.
262 detection of ovarian cancer and provides an
outlook on the potential improvements in these noninvasi
263 We conclude the review with an
outlook on the realization of tailored TMD-based field-e
264 We thus provide a decision-theoretic
outlook on the role of the human hippocampus, amygdala a
265 Finally, a brief
outlook on the trajectory of these systems and how they
266 state of single-cell genomics methods and an
outlook on the use of single-cell techniques to decipher
267 ize recent LCP-related assays and provide an
outlook on their applications in structure and function
268 An
outlook on this developing field, including directions t
269 tions that have been solved and providing an
outlook on unsolved avenues.
270 eview provides an interdisciplinary critical
outlook on various emerging and changing concepts in the
271 s in hematologic malignancies, and share our
outlook on where this modality is likely to head in the
272 e electronic health record enables long-term
outlooks on human health and disease, in conjunction wit
273 aser, review recent progress and provide our
outlooks on potential applications and directions for de
274 strengthen each other through their distinct
outlooks on some of the most important questions being a
275 ory (DFT) calculations to provide insightful
outlooks on the charge carrier dynamics.
276 In conclusion,
outlooks on the possible ways to implement microcavity-b
277 Finally, the review concludes with a brief
outlook over future developments in the field of chemica
278 ion) and will furthermore provide a detailed
outlook over future efforts and promising new avenues in
279 The conclusions and
outlook provide future research possibilities in the fie
280 ent a summary of our progress to date and an
outlook regarding future directions.
281 ication, application, and challenges, and an
outlook,
related to FHE are presented.
282 We conclude the review with the future
outlook,
remaining challenges, and emerging opportunitie
283 fying primary brain tumors for which patient
outlook remains bleak.
284 Finally, we conclude with an
outlook section to offer some insight on the future dire
285 Our discussion- and
outlook-
sections will cover lentiviral targeting strateg
286 Finally, this review concludes with future
outlook signifying some challenges of these nanoengineer
287 eterogeneous catalysts, and conclude with an
outlook that also envisions future needs in the field.
288 ld be incorporated into monthly and seasonal
outlooks that are of broad importance to agriculture, in
289 An
outlook to the future of research in this area is highli
290 The perspective ends up with an
outlook to the future.
291 In addition we will provide an
outlook toward the future of this promising subfield of
292 logy, and immune receptor signaling, with an
outlook toward unique mechanistic insight that may be ga
293 point out the controversies, challenges, and
outlooks toward the future development of thermoelectric
294 ng between catalytic pathways and provide an
outlook towards applications in which tailored copolymer
295 Our structural membrane-centric
outlook underscores the spatiotemporal principles of mem
296 psy is active, the poorer is the longer term
outlook; (
vi) that delaying treatment, even for many yea
297 As an
outlook we further demonstrate the polarization based as
298 uting is more energy efficient for Excel and
Outlook which consumed less energy and emitted less GHG
299 An
outlook will address the current progress and remaining
300 current scientific challenges and provide an
outlook with regard to future prospectus.