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1 ravel) or at a different place (mental space navigation).
2 variance could be critical during odor plume navigation.
3 dent 'map step' and 'compass step' of animal navigation.
4 o how cognitive maps are used during spatial navigation.
5  offers an efficacious model of reward-based navigation.
6 ly similar to those activated during spatial navigation.
7 d by species that rely on olfactory cues for navigation.
8 imulation and future thinking beyond spatial navigation.
9 substrate for path integration-based spatial navigation.
10 ate the neural mechanisms supporting spatial navigation.
11 ng proteins control cell adhesion and axonal navigation.
12 t action, compared with uncued goal-directed navigation.
13 m encodes a map of space that guides spatial navigation.
14 ited flowers and other spatial tasks such as navigation.
15 n integrated sensory information for spatial navigation.
16 epresent an animal's current location during navigation.
17 frequency ablation (STA) using 3-dimensional navigation.
18 exippus) have revealed mechanisms behind its navigation.
19 d the involvement of retrosplenial cortex in navigation.
20 sic problems of sensory reafference and true navigation.
21 ligands for the ability to guide growth cone navigation.
22 ssing was not required to elicit them during navigation.
23  potentiation as well as deficits in spatial navigation.
24 to the brain regions involved with migratory navigation.
25 lved in mnemonic and sensorimotor aspects of navigation.
26 provide spatial representations critical for navigation.
27  travelled distance during vestibular-guided navigation.
28 l plays a causal role as a neural compass in navigation.
29  a viable way to examine the neural basis of navigation.
30  standard engineering algorithm used for 3-D navigation.
31 a region likely to be involved in memory and navigation.
32 g for head-direction are crucial for spatial navigation.
33 sensory input utilized for communication and navigation.
34  role of grid cells in guiding goal-directed navigation.
35 ization as a compass cue for orientation and navigation.
36 undary information from visual scenes during navigation.
37 ents of the brain circuitry mediating insect navigation.
38 ntorhinal cortex during virtual and imagined navigation.
39  cues may be crucial for efficient olfactory navigation.
40 tion, within the context of optical surgical navigation.
41 tasks such as pattern recognition and visual navigation.
42 upporting cognitive processes beyond spatial navigation.
43 campal neurons to support memory and spatial navigation.
44 the goal or their conjunction during spatial navigation.
45 osition) is a classical problem in human sea navigation.
46 ing Hip-mPFC interactions, including spatial navigation.
47 rontal lobe mechanisms to plan routes during navigation.
48 nsight into the neural mechanisms of spatial navigation.
49 eer-neuron Flamingo (CELSR) in follower-axon navigation.
50 ular mechanism for ensuring reliable spatial navigation.
51 onal implications of the entorhinal code for navigation.
52 omplex, a brain region implicated in spatial navigation.
53 n, and intraoperative augmented reality (AR) navigation.
54 a lower frequency in virtual than real world navigation.
55 ients who received the mailed invitation and navigation (47.2%) or the mailed invitation alone (44.5%
56 e regions harbor memory signals relevant for navigation [5-8] and adapt across overlapping shifts in
57 he hippocampus, a region crucial for spatial navigation [6-12] and episodic memory [13-18], has been
58                With regard to intraoperative navigation, a specific fluorescence signal was detected
59       Do mental time travel and mental space navigation abilities share common cognitive and neural m
60 entation strategy instead of performing true navigation after they have been geographically displaced
61 t the animal kingdom, path integration-based navigation allows an animal to take a circuitous route o
62 es were randomly assigned to receive patient navigation alone (n = 266), patient navigation plus fina
63 he dashboard groups samples in dropdowns for navigation among the data sets, utilizes human-readable
64 at EMBL-EBI provides easy, quick and precise navigation and a better understanding of the relationshi
65 at EMBL-EBI provides easy, quick and precise navigation and a better understanding of the relationshi
66 ed motor coordination and normalized spatial navigation and anxiety of Gpr88(-/-) mice.
67 roperties of the echo signatures can support navigation and building a cognitive map.
68 k, HPC and DSL selectively supported spatial navigation and cue response, respectively.
69 ide dog, individuals must accomplish complex navigation and decision making without succumbing to dis
70 Use Committee protocol, in vivo renal artery navigation and embolization were tested in three farm pi
71                Across the domains of spatial navigation and episodic memory, the hippocampus is thoug
72 c interaction network viewer allows the easy navigation and filtering of all genetic and protein inte
73 ovide a mechanistic explanation for the poor navigation and foraging observed in neonicotinoid treate
74 duction to the mechanisms underlying spatial navigation and how they relate to general processes of l
75  this signal is present in periods of active navigation and imagination, with a similar orientation i
76  human entorhinal cortex during both virtual navigation and imagined navigation of the same paths.
77 d sensors can find extensive applications in navigation and maneuvering of underwater robots, artific
78 d potential-plays a critical role in spatial navigation and memory by coordinating the activity of ne
79                                      Spatial navigation and memory depend on the neural coding of an
80                             Investigators of navigation and memory relate neuronal activity to positi
81  of the hippocampus and are often related to navigation and memory.
82 and parietofrontal networks for mental space navigation and mental time travel, respectively.
83 gly photopolluted skies, relying on cues for navigation and orientation that artificial light at nigh
84              How they perform these feats of navigation and physiology remain poorly known.
85 on [13], a useful function for goal-directed navigation and planning [12, 14-16], and episodic future
86 earch and indexing system with powerful data navigation and retrieval capabilities.
87 earch and indexing system with powerful data navigation and retrieval capabilities.
88 he crucial role of olfactory cues for birds' navigation and reveal that anosmic shearwaters are able
89 e sensory organ of balance and essential for navigation and spatial awareness in vertebrates.
90 ow-frequency hippocampal oscillations during navigation and suggest a specific function in memory-rel
91  causally involved in boundary-based spatial navigation and suggest that the OPA is the perceptual so
92 could be used to direct precise intracranial navigation and surgery for individual patients.
93 in place cells that contribute to changes in navigation and synaptic plasticity.
94                              Several search, navigation and visualisation tools are implemented to in
95 non-specific factors not directly related to navigation and, as a consequence, the results of displac
96  strategies in terms of spatial and temporal navigation, and discuss whether the inferences we draw f
97 tion of visual motion is critical for animal navigation, and flies are a prominent model system for e
98 nitive functions, including episodic memory, navigation, and spatial memory.
99 campus exhibit spatial tuning during spatial navigation, and they are reactivated in specific tempora
100 bit spatial tuning during head-fixed spatial navigation, and undergo robust remapping of their spatia
101 sed on JBrowse/WebApollo provide easy genome navigation, and viewing of high throughput sequence data
102   In this review, we address how birds sense navigation- and orientation-relevant cues and where in t
103 ctorial construct, including two components: navigation anxiety and rotation/visualization anxiety.
104 standing of how active circuits critical for navigation are affected by aging.
105  that regulate cellular shape, motility, and navigation are generally classified as growth promoting
106 e exercise of an ability in using predictive navigation are mutually reinforcing aspects of a composi
107 ne of these cues are absolutely required for navigation back to the food.
108 ultrasound screening examination and patient navigation (barrier assessment and motivational educatio
109 ng a common computation during both types of navigation behavior.
110 whole-brain networks are involved in spatial navigation behaviors and how normal aging alters these n
111  Brownian behavior of organelles overlaid on navigation between non-reactive secretory protein molecu
112  seasons to atomic clocks enabling satellite navigation, broadband communication and high-speed tradi
113 ation of MTs by guidance cues in growth cone navigation but also help us to understand molecular mech
114 inal circuit is involved not only in spatial navigation, but also in a variety of memory-guided behav
115 on changes have been detected during spatial navigation, but little is known about the conditions tha
116 howed significant impairments in allocentric navigation, but not visually cued navigation, when compa
117 ent roles in computational models of spatial navigation, but their exact function remains unknown.
118                 Neonicotinoids can alter bee navigation, but we present the first evidence that neoni
119                  We investigated odor-guided navigation by mice to understand how decision-making str
120 magnetic cues appear unimportant for oceanic navigation by seabirds, our results support the crucial
121                                      Spatial navigation can serve as a model system in cognitive neur
122 y of achieving high cure rates using patient navigation care models.
123                                      Patient navigation (care coordination with case management) and
124 e health literacy, communication, and system navigation challenges, and they may have diverse prefere
125 mblance to the sky-compass pathway, a visual navigation circuit described in other insects.
126 with a detailed understanding of the brain's navigation circuit.
127 egrally involved in episodic memory, spatial navigation, cognition and stress responsiveness.
128 tion, executive function during visuospatial navigation, cognitive flexibility, verbal memory, workin
129 ortionality (i.e., feedback gain) called the navigation constant (N).
130 attack trajectories are best fitted by lower navigation constants (median N < 3).
131             Whereas most guided missiles use navigation constants falling on the interval 3 </= N </=
132 enabled various applications in positioning, navigation, control, and telecommunications.
133 al learning, whereas experience with spatial navigation delayed both concurrent and subsequent respon
134                                     Flexible navigation demands knowledge of boundaries, routes and t
135           We find that, to achieve efficient navigation despite partial and even misleading informati
136                                              Navigation - determining how to get from where you are t
137  neurons-central brain neurons implicated in navigation-display visual stimulus selection.
138 ve conclusions about the efficacy of patient navigation during and after cancer treatment.
139 ittle is known about the benefits of patient navigation during breast cancer treatment and survivorsh
140 iors via this system is required for spatial navigation during chemotaxis.
141 nimalistic networks designed to maximize the navigation efficiency at minimal cost share basic struct
142 nchoscopy techniques such as electromagnetic navigation (EMN) have been studied in clinical trials, b
143           Results Fusion imaging for virtual navigation enabled matching of real-time contrast-enhanc
144 ser, which is a critical component of modern navigation, geo-positioning and very-long-baseline inter
145 p = 0.05) was significantly decreased in the navigation group compared to the conventional.
146 third angle was significantly reduced in the navigation group for both ITI (p = 0.02) and BTB (p = 0.
147 nd strength of the evidence according to the Navigation Guide systematic review methodology.
148 ) of the National Toxicology Program and the Navigation Guide works.
149                                              Navigation guided femur first THA is able to improve ali
150             No previous study of bee spatial navigation has been able to follow animals' movement dur
151 tivity in the hippocampus once goal-directed navigation has been initiated.
152 t a direct, causal link between HD cells and navigation has not been demonstrated.
153 everal signaling pathways implicated in cone navigation have been identified, membrane dynamics in gr
154                  We show that during spatial navigation, hippocampal CA1 place cells maintain a conti
155                       Despite perceptual and navigation impairments in patients with VCSL disruption
156 ith their cognate Eph receptors, direct axon navigation in a contact-mediated fashion.
157 d tomography (CT) with real-time fluoroscopy navigation in a pig model.
158 place recognition might underlie sonar-based navigation in bats.
159 ations of environmental location and support navigation in familiar environments.
160 ra-hippocampus EEG recordings during virtual navigation in humans have consistently reported LFO that
161 tic review evaluates the efficacy of patient navigation in improving treatment and survivorship outco
162 ry periphery and action selection underlying navigation in odor gradients.
163  have developed echolocation, as a method of navigation in space.
164 n space and time to regulate multi-step cell navigation in the complex environment of a healing wound
165 ld provide sensitive compass information for navigation in the rainforest and, additionally, provide
166 ent senses to facilitate event-detection for navigation in their environment.
167 unctional molecular imaging, we observe that navigation in virtual environments elicits activity in f
168                      Such situations include navigation in virtual reality and head-restricted condit
169 utreach strategies, with and without patient navigation, in increasing the numbers of patients with c
170                                      Patient navigation included up to 11 sessions of care coordinati
171   Overall, results demonstrated that patient navigation increases surveillance mammography rates, but
172              To maintain their speeds during navigation, insects rely on feedback from their visual a
173 one click, cross-platform install and better navigation interfaces.
174 hone calls for further assistance if needed (navigation intervention).
175                                      Spatial navigation is a multisensory process involving integrati
176                                      Patient navigation is an intervention approach that improves can
177                               CCR7-dependent navigation is determined by the distribution of extracel
178               A central component of spatial navigation is determining where one can and cannot go in
179 o navigate across space because memory-based navigation is directly linked to animals' space use and
180             A question of wide importance in navigation is how sensory cues get transformed into neur
181            Although it is clear that spatial navigation is impaired during aging, the networks respon
182 are experienced, the hippocampal response to navigation is often used as a proxy to study memory.
183 y information plays an important role in bat navigation, it is the emergent effects of combining moda
184  Minimal research has indicated that patient navigation may be effective for post-treatment surveilla
185 cortex (mEC) is strongly involved in spatial navigation, memory, dementia and epilepsy.
186 cortex (mEC) is strongly involved in spatial navigation, memory, dementia and epilepsy.
187                           Magnetic resonance navigation (MRN) offers the potential for real-time stee
188                                  Terrestrial navigation naturally involves translations within the ho
189                               During spatial navigation, neural activity in the hippocampus and the m
190                    This allows the automatic navigation of a chemical network, leading to previously
191 ticles and demonstrated high-speed (74 mm/s) navigation of a multi-branched vascular network phantom.
192 for clinicians and researchers to facilitate navigation of available data.
193                                              Navigation of cells along gradients of guidance cues is
194 ls have properties well suited to the visual navigation of clutter and to encode the fly's movements
195 nomes to pangenomes with gene ontology based navigation of gene groups.
196           Collectively, this roadmap enables navigation of mesodermal development to produce transpla
197  for integrin signaling that is critical for navigation of new vessel sprouts.
198 ned to empower the public by enabling simple navigation of personal genomic data.
199 al challenges include maintenance of growth, navigation of puberty, and transition to adult services
200 erativity in bimetallic catalysts can enable navigation of selectivity.
201        Structural procedures require careful navigation of the aorta, left atrium, and right heart, i
202 ifically when new streets are entered during navigation of the city, right posterior hippocampal acti
203                                              Navigation of the conformational landscape defined by th
204                                  Interactive navigation of the GO function space provides intuitive a
205                                              Navigation of the growth cone at the tip of the developi
206 design, construction, control and underwater navigation of the M-AUE.
207  during both virtual navigation and imagined navigation of the same paths.
208                                   Successful navigation of this transition will require radical chang
209  studies have typically investigated spatial navigation on a horizontal 2D plane, leaving much unknow
210              To examine the influence of lay navigation on health care spending and resource use amon
211         The treatment difference between the navigation-only and the navigation-plus-incentives group
212 pared with 89 of 249 patients (35.7%) in the navigation-only group for a treatment difference of 1.6%
213 e trained on a plus maze in either a spatial navigation or a cue-response task (sequential training),
214 for applications in spectroscopy, astronomy, navigation or telecommunications.
215 nd ship traffic based on inverse distance to navigation path weighted by associated port berth volume
216 sured the impact of acoustic interference on navigation performance and show that the calculated redu
217           Foraging behavior, homing success, navigation performance, and social communication were im
218 w hippocampal and prefrontal regions support navigation, planning and future simulation.
219 ix (ECM) play vital roles in axon growth and navigation, plasticity, and regeneration of injured neur
220  patient navigation alone (n = 266), patient navigation plus financial incentives (n = 271), or treat
221 pared with 98 of 254 patients (38.6%) in the navigation-plus-incentives group for a treatment differe
222 fference between the navigation-only and the navigation-plus-incentives group was -2.8% (95% CI, -11.
223 exceedingly well-modeled by the proportional navigation (PN) guidance law used by most guided missile
224 , fish yields, and availability of water for navigation, power generation, and human use.
225                  The degree of reward-driven navigation preference highly correlates with the spatial
226 C Department of Health implemented a patient navigation program, Check Hep C, to address patient and
227 financial implications of implementing a lay navigation program.
228  health outcomes of a pediatric social needs navigation program.
229                                              Navigation programs can improve access to care, enhance
230                                          Lay navigation programs should be expanded as health systems
231 al and quasi-experimental studies of patient navigation programs that target breast cancer treatment
232 ural basis of DTD and the role of the RSC in navigation-related processing.
233                    Global positioning system navigation relies on precision timing signals furnished
234 corrections critical to standing balance and navigation rely on transformation of sensory information
235 sis that mental time travel and mental space navigation required the egocentric remapping of events,
236                      Efficient goal-directed navigation requires sensory perception and motor command
237 n for superenhancer analysis, annotation and navigation, requiring only basic computer and next gener
238 t comprehensive systematic review of patient navigation research focused on improving breast cancer t
239 quake (Central Italy), using low-cost Global Navigation Satellite System (GNSS) receivers located in
240 ating ground-based receivers from the Global Navigation Satellite Systems (GNSS).
241 ndian Ocean earthquake, 37 continuous Global Navigation Satellite Systems stations in the region unde
242 ocial needs screening and in-person resource navigation services on social needs and child health.
243   Goal-directed behaviour outside of spatial navigation similarly requires a representation of abstra
244                    We sought to test whether navigation skills (medication recall, knowledge of copay
245 lcium imaging to potentially include spatial navigation, social behavior, feeding and reward.
246  three basic elements of cognitive map based navigation-spatial coding, landmark anchoring and route
247                            Conclusion Faster navigation speed at endoluminal CT colonography led to p
248 pose To investigate the effect of increasing navigation speed on the visual search and decision makin
249 olyps were presented at four different fixed navigation speeds to 23 radiologists.
250 h simulated stars, this method utilizes real navigation stars as observation targets which makes the
251 rodents that mimic the conditions typical of navigation studies in humans and nonhuman primates (i.e.
252 he lack of actual movement in previous human navigation studies, which were virtual.
253 o integrating animal data with human imaging navigation studies.
254                              Using an online navigation study, we recorded reaction times, error rate
255 ow insects use other sensory information for navigation, such as the olfactory cues provided by the e
256 oped a wearable goggle augmented imaging and navigation system (GAINS) that can provide accurate intr
257  (MEC) are crucial components of an internal navigation system of the mammalian brain.
258 east-west component for a true bi-coordinate navigation system under clear skies for experienced migr
259 test update features a unique scaffold-based navigation system, which enables the exploration of the
260 led grid cells that form part of the spatial navigation system.
261 l relativity to portable clocks for inertial navigation systems and relativistic geodesy.
262 l magnetic stimulation and a virtual reality navigation task has shown that we need the brain's occip
263 e healthy adults performed two sessions of a navigation task, in which the cognitive load was manipul
264 as mice accumulate evidence during a virtual navigation task.
265 rame proclivity and performance in a virtual navigation task.
266 r a month as mice stably performed a virtual-navigation task.
267 hinal cortical electrodes performing virtual navigation tasks to memorized locations enabled us to in
268 for differentiating accuracy and DAPs across navigation techniques and operator backgrounds.
269 l networks involved in spatial cognition and navigation (the "map") to sensorimotor networks involved
270 ons in brain regions known to play a role in navigation - the hippocampus and nidopallium caudolatera
271 late aerotaxis is consistent with stochastic navigation, the statistics of which are captured using a
272 campal neural circuits underlying memory and navigation; this activity-dependent maturation occurs se
273                                          The navigation through both applications is wizard-assisted,
274         Flying animals accomplish high-speed navigation through fields of obstacles using a suite of
275 y of hierarchical trees that allow efficient navigation through sets of variants of a single referenc
276            Core features include interactive navigation through the alignment, application of popular
277 ith lubricating capacity required during its navigation through the mosquito and vertebrate host tiss
278 eeds also include fertility preservation and navigation through the multiple transitions in the cance
279 eactome visualization system that facilitate navigation through the pathway hierarchy and enable effi
280            Genome browsers that support fast navigation through vast datasets and provide interactive
281                                     Catheter navigation times, renal parenchymal perfusion, and renal
282  they switch to visually based long-distance navigation to forage.
283 mpal networks involved in spatial memory and navigation to neocortical networks involved in diverse a
284                      However, adding patient navigation to telephone reminders provided no significan
285 re is an urgent need to standardize surgical navigation tools and contrast agents to facilitate swift
286  into a computational model yields effective navigation toward changing reward locations, as in natur
287 sion, all groups demonstrated normal spatial navigation (training on days 1 and 2), whereas 30 min fo
288 B chemoreceptors are not essential for sperm navigation under low oxygen conditions that C. elegans p
289                                           AR navigation was obtained by overlaying the virtual model
290 t oriented towards the colony though coastal navigation was unaffected.
291       Monocyte velocity, but not chemotactic navigation, was modestly dependent on Rho-ROCK-myosin II
292 hat the classical drawback of run-and-tumble navigation-wasteful runs in the wrong direction-can be m
293 llocentric navigation, but not visually cued navigation, when compared with PBS-treated animals.
294 theta oscillations during ambulatory spatial navigation, while highlighting some fundamental differen
295 ith HIV infection and substance use, patient navigation with or without financial incentives did not
296  of behavioral and neural markers of spatial navigation, with a particular emphasis on neurodegenerat
297 t blocks include large bore vascular access, navigation within the left atrium, occlusion, snaring, a
298 ally identify competitors, which facilitates navigation within the social network of the rookery.
299 iding fast, 3-D visualization using improved navigation without dependencies.
300 aps (NG-CHM) that enable extreme zooming and navigation without loss of resolution.

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