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1 ocus on oncology (76% of research and 88% of clinical applications).
2 ort half-life of (11)C limits its widespread clinical application.
3 screpancy between research knowledge and its clinical application.
4 O-peptide-based SPR chip detection method in clinical application.
5 ntly, in a model mimicking conditions of its clinical application.
6 ium, none of these have been successful in a clinical application.
7 s, but low oral bioavailability limits their clinical application.
8 Further study is warranted to validate its clinical application.
9 g platform for CTCs detection with potential clinical application.
10 to remove components potentially harmful for clinical application.
11 trol the immune system to enable large-scale clinical application.
12 regnancy is a promising technique for future clinical application.
13 man samples, providing a clear candidate for clinical application.
14 evelopment of in vitro-derived platelets for clinical application.
15 sitates efficacy and safety testing prior to clinical application.
16 adventitial drug delivery system has reached clinical application.
17 wever, prognostic genes have not yet entered clinical application.
18 and chronic graft rejection, limit its wide clinical application.
19 novel biomarker for the diagnosis of TPE for clinical application.
20 side toxicity will likely prevent widespread clinical application.
21 for precision medicine and the obstacles to clinical application.
22 ng their biologic effects has hampered their clinical application.
23 se findings may be readily translated into a clinical application.
24 icardium (BP) extracellular matrix (ECM) for clinical application.
25 s-based nucleases) raise prospects for their clinical application.
26 streamline test interpretation and increase clinical application.
27 gical role of Cif and have the potential for clinical application.
28 SC and provide additional assurance to their clinical application.
29 cell therapies that can be customized to any clinical application.
30 nts affords a framework for potential future clinical application.
31 basophil activation testing being closest to clinical application.
32 ty for basic research, disease modeling, and clinical application.
33 0 and suitable for immunological studies and clinical application.
34 an PSCs remain the bottleneck for successful clinical application.
35 patient cohorts and hence are not useful for clinical application.
36 utic approach with p38 inhibitors for future clinical application.
37 cines have been successfully translated into clinical application.
38 in nephrology from non-targeted discovery to clinical application.
39 ci in hypo-vascularized lesions has hampered clinical application.
40 nclear which strategy is most attractive for clinical application.
41 oth the prognosis and diagnosis of cancer in clinical application.
42 ive from the perspective of potential future clinical application.
43 ular therapy approach and thus adaptable for clinical application.
44 onths, important features for commercial and clinical application.
45 medical stainless steel and polymer for the clinical application.
46 stemic administration of IL-12 precludes its clinical application.
47 he early diagnosis of adverse drug events in clinical application.
48 ffects, bringing this editing tool closer to clinical application.
49 and we suggest has the potential for broader clinical application.
50 ding to potential serious adverse effects in clinical application.
51 ntation of GTD, which will further widen its clinical application.
52 to validate genome editing strategies before clinical application.
53 agents have been successfully translated to clinical applications.
54 ns in nucleic acid sequences is important in clinical applications.
55 ial to transform the role of neuroimaging in clinical applications.
56 delivery systems, which have limitations for clinical applications.
57 allowing for the discovery of more specific clinical applications.
58 nes and nanoprobes and translating them into clinical applications.
59 fate with the degree of precision needed for clinical applications.
60 mpact in fundamental biomedical research and clinical applications.
61 e vision intended for both basic science and clinical applications.
62 d be targeted to harness neuroplasticity for clinical applications.
63 fundamental to optogenetics for research and clinical applications.
64 rapeutic lead for potential translation into clinical applications.
65 es only a small fraction can be explored for clinical applications.
66 c displays of variation, a critical view for clinical applications.
67 n preclinical studies with the potential for clinical applications.
68 slation of new biological understanding into clinical applications.
69 vaccines and has excellent safety record in clinical applications.
70 udies examining CTC clusters in research and clinical applications.
71 of origin, which constitutes an obstacle to clinical applications.
72 ich makes the sensor usable for nonintrusive clinical applications.
73 ore increase their therapeutic potential for clinical applications.
74 le)ruthenate(III)]), which is on the edge to clinical applications.
75 anscription, but is considered too toxic for clinical applications.
76 enging experimentally and even impossible in clinical applications.
77 FGS has great potential for a broad range of clinical applications.
78 fect of integrin antibodies and their use in clinical applications.
79 al to become a powerful tool in terms of its clinical applications.
80 conceptual approaches, scientific tools, and clinical applications.
81 elet forces are desired in both research and clinical applications.
82 ity and limited costs have both research and clinical applications.
83 spensable tool for many biotechnological and clinical applications.
84 ophages are implicated and has potential for clinical applications.
85 of speech imagery neural representations for clinical applications.
86 transient mobilization agents with promising clinical applications.
87 s and how to best take advantage of them for clinical applications.
88 hological neovascularization with a range of clinical applications.
89 ch pathway and has attracting potentials for clinical applications.
90 le and cell isolations for both research and clinical applications.
91 microbial photodynamic inactivation (PDI) in clinical applications.
92 as therefore gained significant interest for clinical applications.
93 ormulations turned out to be inapplicable to clinical applications.
94 e the metabolic status of iPSCs destined for clinical applications.
95 mpact in translating stem cell research into clinical applications.
96 highlights a way to select optimal iPSCs for clinical applications.
97 for decades, and provide guidance for their clinical applications.
98 ing lung inflammation, and discuss potential clinical applications.
99 enic differentiation available for potential clinical applications.
100 ules, and hold great promise for medical and clinical applications.
101 ing fundamental biology as well as potential clinical applications.
102 ak to be sutured or conveniently handled for clinical applications.
103 clusters resulting in 6 clusters for future clinical applications.
104 population is desired in many biomedical and clinical applications.
105 uences for use in translational research and clinical applications.
106 biomedical research and holds potential for clinical applications.
107 brain and provide essential information for clinical applications.
108 retinal prosthetics, paving the way to novel clinical applications.
109 piate respiratory depression, which may have clinical applications.
110 lustrate how modeling can be translatable to clinical applications.
111 ces, including paper and polymers, and their clinical applications.
112 heir potential impact on future research and clinical applications.
113 vital for progressing such a system towards clinical applications.
114 inflammatory disease, and a novel target for clinical applications.
115 ncer in both pre-clinical animal studies and clinical applications.
116 ct-ratio, providing a promising solution for clinical applications.
117 research, drug development, and potentially clinical applications.
118 etative accuracy and understanding potential clinical applications.
119 and its potential as a new target in MM for clinical applications.
120 se undesirable side effects that limit their clinical applications.
121 to manipulate primitive features in HSC for clinical applications.
122 studying its function and may have potential clinical applications.
123 It is suitable for both basic and clinical applications.
124 ctive for differential diagnosis in concrete clinical applications.
125 have led to new discoveries with remarkable clinical applications.
126 c substrate, both as a research tool and for clinical applications.
127 ization of 2A peptides in basic research and clinical applications.
128 concentrations, showing promise for eventual clinical applications.
129 in vivo studies on animals and ultimately to clinical applications.
130 or means of translating biological data into clinical applications.
131 high impact in basic research as well as in clinical applications.
132 ithin this landscape may provide insights to clinical applications.
133 es in bone tissue engineering with numerable clinical applications.
134 fabricated in monolithic form for a range of clinical applications.
135 vated, culled, and manicured toward intended clinical applications.
136 /-17%, permitting its use in preclinical and clinical applications.
137 disease associations and translate them into clinical applications.
138 potential of the biosensor for point-of-care clinical applications.
139 active cannabinoid compounds, and could have clinical applications.
140 ns should be considered in both research and clinical applications.
141 chnologies have the potential to enhance its clinical applications.
145 ene biosensors provide an effective tool for clinical application and point-of-care medical diagnosti
146 h sensitivity and it holds great promise for clinical application and provides a new platform for imm
149 and other diseases, and discusses potential clinical applications and the possible future clinical u
150 s drawn from metagenomic data is crucial for clinical applications and to prevent incorrect biologica
151 nces in both approaches, with an emphasis on clinical applications, and highlight the utility of comb
152 uivalents have been successfully deployed in clinical applications, and skin epidermal stem/progenito
153 atient, makes it particularly well suited to clinical applications, and we argue the potential of thi
155 torial approach could be highly effective in clinical application as it allows for cooperative and co
156 ighlights the MAR assay in both research and clinical applications as a promising tool for predicting
157 er, the full L1 sequence is not suitable for clinical applications, as each protein domain may contri
158 nsitive detection approaches used in current clinical applications, but always face a performance tra
159 g sequences have important basic science and clinical applications, but they are often confounded by
160 existing preclinical single-port system for clinical application by integrating the sensors of a pho
167 ant improvements are required to enhance its clinical application for delivery of large sized therape
168 rted the validity of the proposed system for clinical application for the detection of multiple analy
169 These results have potentially important clinical applications for disorders associated with redu
171 pathogen discovery, discuss improvements and clinical applications for the detection of microbially a
172 quently, PRP could have relevant oncological clinical applications for the treatment of advanced or m
174 stasis and might be a useful tool for future clinical applications, for example, response assessment.
175 utical with a growing repertoire of putative clinical applications from hypovolemia to Alzheimer's di
176 a promising therapy for type 1 diabetes, its clinical application has been hampered by cellular rejec
177 slation from neurodevelopmental discovery to clinical application has transformative potential for ps
178 growing number of delivery approaches toward clinical applications have been developed, including nan
182 cute and chronic renal injuries and may have clinical application in protection from ischemic-induced
184 iated malignancies and suggest its potential clinical application in the identification of Myc-driven
186 ne-mediated neuroinflammation with potential clinical applications in a wide range of inflammatory di
187 Therefore, topical BRAF inhibitors may have clinical applications in accelerating the healing of ski
188 e promoting allograft survival that may have clinical applications in alloimmunity and in a wide spec
189 cts of CD39 on T cells and explore potential clinical applications in autoimmunity, chronic infection
190 f each modeling approach and their value for clinical applications in diagnosis, therapy, and prevent
196 utoregulation, measurement methodologies and clinical applications in stroke to help build a consensu
198 line (ACh) receptors (nAChRs) have potential clinical applications in the treatment of nicotine depen
200 swab analysis by DESI-MS for a wide range of clinical applications including rapid mucosal diagnostic
201 hip is also commercially promising for other clinical applications, including 3D cell culture and mic
202 owever, much remains to be considered before clinical applications, including the reproducibility of
204 zyme is useful both in basic research and in clinical applications involving this pathway, but curren
209 alth of investigated new research topics and clinical applications is further discussed, including im
210 This wide gap between bench discoveries and clinical applications is mainly because of our limited u
214 state of the technology, with a focus on the clinical applications made possible by these agents.
215 ale studies offering strong support for this clinical application, more recent larger-scale studies h
217 the sodium-iodine symporter and describe the clinical application of (124)I dosimetry in a patient wh
218 ive research, with notable exceptions, broad clinical application of ADC remains elusive; major hurdl
219 Finally, we provide insights into potential clinical application of adenosinergic and other purinerg
224 g and packing density when investigating the clinical application of bone cements for infection manag
228 e approval for treatment of various cancers, clinical application of cytokines is still impeded by th
237 vidual centers, primarily because of unequal clinical application of knowledge gained from research.
239 d sensitize cells to etoposide, suggesting a clinical application of miRNAs as therapeutics to target
240 e UK became the first country permitting the clinical application of mitochondrial replacement techni
241 he potential of this imaging technology, the clinical application of MRI in the care of PSC patients
243 g islet transplantation and importantly, the clinical application of personalized beta-cell replaceme
247 h FET devices demonstrates the potential for clinical application of synthetic hybrid receptors for t
250 utline the mechanism of activity and current clinical application of temozolomide, which, until now,
251 e GG assay has the potential to increase the clinical application of the GGI, but robust demonstratio
253 uss the preclinical work that has led to the clinical application of the various approaches and a sum
258 This article presents current and developing clinical applications of cardiac T1 mapping and reviews
259 this series puts particular emphasis on the clinical applications of EVs as therapeutics and as diag
260 re has been a growing interest regarding the clinical applications of exosomes and their role in prog
261 ed brain-targeting by ANG favours the future clinical applications of f-MWNT-ANG to deliver active th
263 multidimensional level will greatly benefit clinical applications of genomic information in diagnosi
264 se the recent progress of the most important clinical applications of HSA-binding platforms, and spec
270 The biological significance and potential clinical applications of the mirror code are discussed.
271 ation, followed by a discussion of potential clinical applications of this technique for the detectio
272 opportunities for immunotherapy, as well as clinical applications of various types of therapeutic nu
273 study provides a new understanding of DHI in clinical application on cardiovascular and cerebrovascul
277 traordinary potential in bone formation, its clinical applications require supraphysiological milligr
280 rently and urgently needs to be improved for clinical applications such as angiography and brain perf
281 se the promise of translational research via clinical applications such as drug development and patie
283 ecific CTC readout, enabling high-throughput clinical applications, such as noninvasive screening for
285 on processes are critical considerations for clinical application that should be considered when deve
286 OMIS domain scores in research studies or in clinical applications that measure and evaluate the symp
287 As an encouraging feature for envisioned clinical application, the IC50 of MEAN was not significa
288 d disease; and subsequently focus on its key clinical applications, the detection and localization of
289 esearch, diagnostics and separations and for clinical applications, the most common of which are anti
290 s, however, are permanent and are limited in clinical application to indolent malignancies of low- to
292 int-of-care testing has been translated into clinical applications to support a prompt decision on pa
298 r biomarkers spermine and spermidine in real clinical applications with reduced sample preparations.
299 olic and molecular imaging clinical and near-clinical applications within atherosclerosis and venous
300 -of-care (POC) platform for low target count clinical applications without the need for amplification
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