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1 evaluation (to index sequelae to domains of brain function).
2 ting how cerebrospinal fluid (CSF) regulates brain function.
3 hapes neuronal identity and regulates mature brain function.
4 e some of the most significant insights into brain function.
5 inflammation associated with PBC can impact brain function.
6 loping new treatments require good models of brain function.
7 in the optical toolbox for investigation of brain function.
8 preclinical nonhuman primate model for human brain function.
9 omplexes with accessory subunits to regulate brain function.
10 opular as a nonhuman primate model for human brain function.
11 for a species-specific evolutionary role in brain function.
12 for elucidating key components of adolescent brain function.
13 is a foundational goal towards understanding brain function.
14 d neurons are important processing units for brain function.
15 better understand the genetic basis of human brain function.
16 that several may have significant effects on brain function.
17 impact of social isolation on behaviour and brain function.
18 most widely used method for assessing human brain function.
19 estimation of dissociation severity based on brain function.
20 ignals from the gut and its microbiome alter brain function.
21 or both cognition and maintenance of healthy brain function.
22 o relevant, pathological neurochemistry, and brain function.
23 enable the next generation of discoveries in brain function.
24 s that remediate age-associated decreases in brain function.
25 the LC/ NA system within a general theory of brain function.
26 how Cc2d1a mutation leads to alterations in brain function.
27 ion channels and receptors to microglial and brain function.
28 effective, it is limited by risks to normal brain function.
29 NT Brain tissue iron is essential to healthy brain function.
30 h-resolution, multiscale measures of in vivo brain function.
31 standing the impact of adult neurogenesis on brain function.
32 re and the amount of sleep are important for brain function.
33 ynaptic endocytosis, neuronal morphology and brain function.
34 1, suggesting a novel role ADAR3 may play in brain function.
35 ns provide new insights into the dynamics of brain function.
36 ossing metabolic products crucial for normal brain function.
37 -immune-brain axis - could result in altered brain function.
38 lized brain region can disrupt a specialized brain function.
39 f cerebral blood flow is critical for normal brain function.
40 psilocybin on negative affect and associated brain function.
41 Body temperature control is a critical brain function.
42 essential for their signaling properties and brain function.
43 rganized into functional networks determines brain function.
44 likely to be essential to maintaining normal brain function.
45 shape dopaminergic tone important for normal brain function.
46 teractions should be central to the study of brain function.
47 neuronal cell types is key to understanding brain function.
48 e to be particularly disruptive for reliable brain function.
49 e human brain and a prerequisite for healthy brain function.
50 d how such measures may provide insight into brain function.
51 echanism by which vascular injury can impair brain function.
52 ) that can negatively impact many aspects of brain function.
53 identify consciousness-specific patterns of brain function.
54 has begun to delineate associated changes in brain function.
55 tions are key cellular processes involved in brain function.
56 estigate the actions of dietary flavanols on brain function.
57 tential to provide a consistent biomarker of brain function.
58 ns will reveal general principles underlying brain function.
59 biologically active and important for proper brain function.
60 eurodegenerative conditions, and even higher brain function.
61 es an essential property critical for normal brain function.
62 present an intrinsic organizing principle of brain function.
63 encompasses key information to understanding brain function.
64 tiveness of omega-3 supplements in improving brain function.
65 s to form the complex circuits that underlie brain function.
66 his activity and therefore are essential for brain function.
67 expression of genes is essential for normal brain function.
68 xtracellular glutamate can negatively impact brain function.
69 ies of motor commands that are essential for brain function.
70 eterogeneous controlling numerous aspects of brain function.
71 tical imaging is important for understanding brain function.
72 their relevance for cognitive impairment and brain function.
73 ovascular reactivity is essential for normal brain function.
74 exposure to EDC mixtures impacts later life brain functions.
75 omodulation to many autonomous and cognitive brain functions.
76 arious disease states and to retain critical brain functions.
77 latter compels a revision of the taxonomy of brain functions.
78 for revealing circuit mechanisms underlying brain functions.
79 f neurons that are critical for higher-order brain functions.
80 ork (DMN) is associated with a wide range of brain functions.
81 A regulation likely plays a role in multiple brain functions.
82 k of brain disorders and to enhance lifelong brain functions.
83 al applications as well as for investigating brain functions.
84 ted how insulin deficiency adversely affects brain functions.
85 , and may influence aging-related changes in brain functions.
86 known about the effects of these analogs on brain functions.
87 pupil modulations reflect certain underlying brain functions.
88 interneurons play a critical role in higher brain functions.
89 and adaptability that is crucial for healthy brain functioning.
90 in impairments in cognitive performance and brain functioning.
91 or regulator of neural plasticity and higher brain functioning.
94 ether acute exposure to low-level LAN alters brain function, adult male, and female mice were housed
95 f the precise mechanisms by which AIs impact brain function and (2) the development of new treatment
96 d low frequency users exhibit differences in brain function and also in volume and fractional anisotr
98 indicates that opioid-evoked adaptations in brain function and behavior are critically dependent on
99 ial for studying the effects of mutations on brain function and behavior as well as unveiling the und
101 icofugal pathway, but their contributions to brain function and behavior remain an unsolved mystery.
102 derstanding of the genetics and evolution of brain function and behavior requires a detailed mapping
105 ial for understanding the molecular basis of brain function and behaviour, with promises for future t
108 es documentation of baseline (ie, prearrest) brain function and calculation of changes after cardiac
109 harm the developing brain, which may affect brain function and cognition, attention, and mood; thus,
111 al blood flow (CBF; perfusion) to understand brain function and detect differences among groups.
112 s.SIGNIFICANCE STATEMENT Understanding human brain function and developing new treatments require goo
118 is important for gaining basic insights into brain function and for further developing therapeutic ne
119 alities have been described, their impact on brain function and implications for prognosis are unknow
120 after glutamate binding appears critical for brain function and involves rearrangement of the ligand
121 ork levels, has a fundamental role in proper brain function and its impairment has been linked to num
122 sing individual characteristics relevant for brain function and mental health and their genetic under
123 However, the effects of GnRH agonists on brain function and mental health are not well understood
126 ges in cerebral blood flow (CBF) linked with brain function and offers a potentially powerful tool wh
127 nslate the experience of stress into altered brain function and pathological mood, though the cellula
128 ognition as an important regulator in normal brain function and pathology, the mechanisms underlying
130 esults support predictive coding theories of brain function and reveal a pervasive role of 3D movemen
131 nscriptional correlates of depression-linked brain function and structure were enriched for disorder-
132 uromodulator release and signaling, underlie brain function and ultimately shape animal behavior.
133 g of how opioids cause persistent changes to brain function and will provide a platform on which to d
135 this period can lead to enduring changes in brain functioning and in behavior; however, the underlyi
140 te 5 (mGlu(5)) receptor is important in many brain functions and implicated in several neurological p
141 c inhibition is thought to impact many vital brain functions and interferes with the genesis and/or p
142 plays key roles in emotional and regulatory brain functions and is affected across psychiatric disea
143 s have underscored the interconnectedness of brain functions and the importance of top-down processes
144 ling and hemodynamic changes are critical to brain function, and dysregulated in neuropathologies suc
145 ion pathways, which are involved in neuronal brain function, and highly relevant to ADHD pathogenesis
146 ral choline metabolism is crucial for normal brain function, and its homoeostasis depends on carrier-
148 ghlight the importance of olfaction in human brain function, and provide an accessible tool that sign
149 s by which prenatal insults impact offspring brain function, and suggest gut-brain axis manipulation
150 uggest that Top3beta is essential for normal brain function, and that defective neuronal activity-dep
152 , top-down coordination and control of other brain functions, and there is neural and behavioral evid
153 exhibit similar abnormalities in WM-related brain function; and 3) elucidate the associations betwee
156 roscience is that, because measures of human brain function are closer to underlying biology than dis
164 Many processes in the human body - including brain function - are regulated over the 24-hour cycle, a
165 est that at least part of the abnormality in brain function arises from the acute effects of truncate
166 tend or ignore stimuli, which are pivotal to brain function as they underlie selective attention and
167 the development of both healthy behavior and brain function as well as risk for poor mental and physi
168 ed by pain intensity in CP patients, and the brain function associated to TD is shifted from a medial
170 ette gives, codes fail to help us understand brain function because codes imply algorithms that compu
171 n to this study involves glycemic effects on brain function; because blood glucose was not clamped pr
172 glia and vascular cells required for healthy brain function becomes perturbed during the disease, wit
173 hypotheses about mechanistic explanations of brain function, behavior, and mind based on underlying c
174 ience is that neuroimaging-based measures of brain function, being closer to underlying neurobiology,
175 hts the impact of polygenic contributions to brain function beyond APOE, which could aid potential th
176 ottom-up information streams are integral to brain function but challenging to measure noninvasively.
177 ession is central to synaptic plasticity and brain function, but how these changes occur in vivo rema
178 Protein homeostasis is essential for normal brain function, but little is known about its role in DS
179 the fetal brain and also influences maternal brain function, but our understanding of communication b
180 ain's resident macrophages, help to regulate brain function by removing dying neurons, pruning non-fu
182 a affects physiological processes, including brain functions, by altering the intestinal metabolism.
183 The phenotype variabilities associated with brain functions can be caused by genetic or epigenetic f
184 factors, to the NKAs, through which multiple brain functions can be regulated or dysregulated.SIGNIFI
185 iates, recently associated to covariation in brain function, can already be identified using only str
187 The P-COSCA includes assessment of survival, brain function, cognitive function, physical function, a
188 ns, the influence of interneuron subtypes on brain function, cortical specialization, and illness ris
190 Neuronal computations underlying higher brain functions depend on synaptic interactions among sp
192 standing the remarkable flexibility of human brain function despite having to rely on fixed anatomica
195 prominent component of disparate theories of brain function due to its broad noradrenergic projection
196 ging (fMRI) was used to examine frontolimbic brain function during emotion experience, regulation, an
197 p harness NSCs' potential to restore healthy brain function during physiological and pathological agi
201 tivity and pushes our understanding of human brain function further along the spectrum from strict mo
202 aging video games for enhancing behavior and brain function has led to an emerging new field situated
203 While the roles of the type 1 enzymes in brain function have been extensively studied, the roles
205 t meningeal immunity is an ominous threat to brain function; however, recent studies have shown that
207 (EEG) data to provide novel insight into: i) brain function in depression; ii) the effect of MT on de
208 , and impact on mucosal/stool microbiota and brain function in HE after capsular FMT in a randomized,
211 le consequences of such constrained size for brain function in health and disease.SIGNIFICANCE STATEM
212 romosome gene, SRY, directly regulates adult brain function in males independent of gonadal hormone i
213 udy compared the topological organization of brain function in never-treated and treated long-term sc
214 ain barrier (BBB), is understood to maintain brain function in part via its low transcellular permeab
215 heimer's disease (AD) suggest APOE modulates brain function in structures vulnerable to AD pathophysi
216 may provide promising targets for restoring brain function in the event of brain trauma or disease.
219 e this breakthrough, the effect of AD-PRS on brain function in young individuals remains unknown.
220 ile disparate findings, the authors compared brain function in youths and adults with and without anx
221 roach suggests that augmentation of discrete brain functions in transplant hosts is a more relevant e
223 campus may represent a form of plasticity in brain functions including mood, learning and memory.
225 Brain iron is vital to multiple aspects of brain function, including oxidative metabolism, myelinat
226 SIGNIFICANCE STATEMENT: Effects of stress on brain functions, including memory, are profound and sex-
227 ing neuronal compartments subserving complex brain functions, including motor behaviours and homeosta
228 virus from the CNS and dynamically regulate brain functions, including spatial learning, through cyt
229 crucial role in orchestrating a multitude of brain functions, including synaptic plasticity and motor
230 whose contributions to the understanding of brain function inspired generations of neurophysiologist
235 Linking human behavior to resting-state brain function is a central question in systems neurosci
238 indicate that the molecular-genetic basis of brain function is shaped by interneuron-related transcri
241 r results suggest that the lateralisation of brain functions is distributed along four functional axe
242 rain connectivity in service of higher order brain functions may have potentially also rendered the b
243 the phenotype though immunological systems, brain function, metabolic pathways, inflammation and die
245 eractions are a critical mediator of healthy brain functions, mounting an inflammatory response, and
248 and removal of excess H(+) is essential for brain function, not least because all the electrogenic a
249 g the role of gamma2-containing receptors in brain function of keen basic and translational interest.
250 ght be regarded as a responding phenotype of brain function of MDD rather than the emotional respondi
252 e for epigenetic modifications in modulating brain functions, opening new insights into the molecular
254 at physiological HFOs associated with normal brain function overlap in frequency with pathological HF
255 gnificantly impairs a range of cognitive and brain function, particularly episodic memory and the und
256 Although these findings link USP6 to higher brain function, potential roles for USP6 in cognition ha
259 five brain modes to account for any type of brain-function relationship, and discuss past versus fut
265 Achieving a comprehensive understanding of brain function requires multiple imaging modalities with
268 arkers for early detection of alterations of brain function.SIGNIFICANCE STATEMENT The fetal to neona
269 een connectivity, microcircuit dynamics, and brain functions.SIGNIFICANCE STATEMENT Recent developmen
270 factors, liver and adipose tissue pathology, brain function, structure (by MRI), and gene expression,
272 iseases associated with long-term changes in brain function, such as epilepsy and neuropsychiatric il
274 gamma oscillations are fundamental to higher brain functions, such as perception, attention, and memo
275 lucidate the associations between WM-related brain function, task performance, and neuropsychological
276 f permanent lesions provide vital data about brain function that are distinct from those of reversibl
277 uncover previously inaccessible features of brain function that emerge from complex cell-cell intera
280 tically using a hierarchal Bayesian model of brain function that takes into account current sensory i
283 d performing it accurately are two separable brain functions that are thought to rely upon different
284 volvement of the immune system in regulating brain function, the specific role of immune and inflamma
285 n depression, we discuss how sex might alter brain function through hormonal effects (both organizati
286 ressed in the striatum and regulates various brain functions through activation of cAMP-dependent pat
287 n-invasive imaging techniques to investigate brain function throughout neurodevelopment are limited d
288 r "scars." Some of these scars can influence brain functions throughout the entire lifespan and may e
289 l for creating computational models relating brain function to behavior, and its use is becoming wide
290 we employed novel biomarkers for monitoring brain function, together with well-established behaviora
292 ce normal HTT is thought to be important for brain function, we engineered zinc finger protein transc
293 ic and environmental factors with high-order brain functions, we investigated the regulatory networks
294 functional repertoire associated with human brain function, which is impossible to explain through l
295 netics (correlating neuroimaging patterns of brain function with genetic data) and its potential util
296 ing can be considered a paradigm for shaping brain function, with complex interactions among brain ne
297 glia are essential for maintenance of normal brain function, with dysregulation contributing to numer
298 d cerebral capillary rarefaction and reduced brain function, with the possibility of a key role for e