ライフサイエンスコーパス: neurochemistry

1 r NOS or ChAT was used to characterize their neurochemistry.

2 while measuring both ingestive behavior and neurochemistry.

3 able when studying the effects of cocaine on neurochemistry.

4 ght differ in regards to their HPC monoamine neurochemistry.

5 cal factor in modulating changes in striatal neurochemistry.

6 r activation and dramatically modulate brain neurochemistry.

7 PAG contains diverse cell types that vary in neurochemistry.

8 rneal surface can alter nerve morphology and neurochemistry.

9 d on the effects of age on its structure and neurochemistry.

10 urvey metabolomic/transcriptomic hippocampal neurochemistry.

11 ess changes in dopaminergic and serotonergic neurochemistry.

12 ered brain microstructure, connectivity, and neurochemistry.

13 ler hippocampal volumes, but not hippocampal neurochemistry.

14 between suicide risk and brain circuitry and neurochemistry abnormalities.

15 e data add to our understanding of how brain neurochemistry accounts for the variation in human behav

16 results indicate that modulation of various neurochemistries along the trajectory of the self-stimul

17 s the dorsal raphe nucleus (DR) based on its neurochemistry, anatomical connectivity, and requisite i

18 rience leads to significant changes in brain neurochemistry, anatomy, and electrophysiology.

19 whole-mount immunocytochemistry to study the neurochemistry and anatomical organization of glomeruli

20 dies employing neuroimaging, neuropathology, neurochemistry and animal models show reductions in brai

21 to understand the complex interplay between neurochemistry and behavior in mental health disorders.

22 has been used to model long-term changes in neurochemistry and behaviour associated with exposure to

23 ects of neonatal vancomycin treatment on the neurochemistry and Ca(2+) activity of myenteric and subm

24 t also had sexually dimorphic impacts on the neurochemistry and Ca(2+) activity of young adult myente

25 etamine administration affected dopaminergic neurochemistry and cognition in monkeys.

26 this hypothesis further, we investigated the neurochemistry and connectivity of Area X and its projec

27 to 5 zones of analysis previously defined by neurochemistry and connectivity.

28 d in light of findings regarding interneuron neurochemistry and development.

29 orrelation between reductions in striatal DA neurochemistry and diminished motor function in aged F34

30 rain populations have been characterized via neurochemistry and electron microscopy, and the overall

31 he psychotomimetic drug phencyclidine on the neurochemistry and function of the prefrontal cortex in

32 n episodic memory ability and in hippocampal neurochemistry and function.

33 btle abnormalities of cortical neuroanatomy, neurochemistry and function.

34 y the illness, as is the association between neurochemistry and functional connectivity.

35 al phenotype with the clinical syndrome, its neurochemistry and its pathogenesis.

36 This study has characterized the morphology, neurochemistry and major cell types of a VIP-ires-Cre am

37 ion modeling was used to test the effects of neurochemistry and MMN amplitude on DST performance.

38 harmacological agents would have on striatal neurochemistry and MPP+ levels following MPTP treatment.

39 e interplay between brain networks, also the neurochemistry and neural oscillations that underly crea

40 d in several areas of biomedicine, including neurochemistry and neuro-oncology.

41 These studies examined the neurochemistry and neuroanatomy of the serotonin (5-HT)

42 Taken together with the known neurochemistry and neuronal distribution of the Asc-1 tr

43 nging from its genetic basis over changes in neurochemistry and neurophysiology, to the systemic leve

44 o investigate the impact of HFE on GABAergic neurochemistry and redox-epigenetic regulation in the br

45 viduals' foraging experiences durably modify neurochemistry and shape future foraging behaviour.

46 d women differ in terms of neurodevelopment, neurochemistry and susceptibility to neurodegenerative a

47 atter density, cerebellar volume, cerebellar neurochemistry and white matter abnormalities (WMAs) bet

48 ophysiological findings, cerebrospinal fluid neurochemistry, and 13 clinical characteristics between

49 nal fields of neurophysiology, neuroanatomy, neurochemistry, and behavior, and we emphasize the semin

50 changes are linked to relevant, pathological neurochemistry, and brain function.

51 to the thalamus are distinct by morphology, neurochemistry, and function.

52 ted observations on the content, topography, neurochemistry, and functions of EEG oscillations involv

53 findings related to the content, topography, neurochemistry, and functions of EEG oscillations.

54 ddressing the neuropsychology, neuroanatomy, neurochemistry, and molecular biology of ADHD/HKD docume

55 Recent genetic, imaging, neurochemistry, and neuropsychological data support the

56 y is known to induce changes in the anatomy, neurochemistry, and physiology of primary afferents.

57 The results indicate that the projections, neurochemistry, and receptor and ion channel expression

58 guished on the basis of their morphology and neurochemistry, and suggest that nerve terminals with di

59 uating the impact of treatment on underlying neurochemistry; and prevention or reversal of food addic

60 risk gene DISC1 can alter prefrontal cortex neurochemistry, architecture, and function.

61 complementary approaches examining regional neurochemistry are beginning to yield additional insight

62 le in effort-based choice and the underlying neurochemistry are incompletely known.

63 how individual differences in human dopamine neurochemistry are related to variation in anxiety and a

64 were used to examine hippocampal volume and neurochemistry as predictors of gait function.

65 Parallels in neural substrates and neurochemistry, as well as corresponding motivational an

66 ble, and suitable for the study of serotonin neurochemistry associated with emotion and behavior.

67 ganglia and cardiac tissue, manipulating NPY neurochemistry at the same time as using state-of-the-ar

68 The relationship between cerebral volume and neurochemistry at this early time point may indicate pro

69 odel R(2)=0.33, p=0.01), but not hippocampal neurochemistry (beta=0.09, p=0.48).

70 with preclinical models reporting effects on neurochemistry, brain function, and cognition.

71 urthering our understanding of healthy human neurochemistry, but also to extending our understanding

72 hese results suggest the rapid maturation of neurochemistry by eye opening followed by functional mat

73 Neural circuitry, molecular profiles, and neurochemistry can be changed by experiences, which infl

74 Such dynamic processes affecting the brain's neurochemistry can be monitored using a variety of neuro

75 atch," which reside in matrix zones but have neurochemistry, connectivity, and electrophysiological c

76 een attentional biases to drug cues and dACC neurochemistry could aid in identifying neurobiological

77 ility of these fabricated microelectrodes in neurochemistry, CRMAs containing eight microring electro

78 diction hypothesis comes from alterations in neurochemistry (dopamine, endogenous opioids), neuroanat

79 t evidence for plastic changes in cerebellar neurochemistry during a cerebellar learning task.

80 t evidence for plastic changes in cerebellar neurochemistry during motor adaptation.

81 indings describe a pattern of abnormal brain neurochemistry early in the course of psychosis.

82 (g = 0.40); neurophysiology (g = 0.80); and neurochemistry (g = 0.43).

83 d males after 28 days, indicating that brain neurochemistry had not normalized.

84 d the effects of LDX on brain activation and neurochemistry, hypothesizing that LDX would be associat

85 e developmental changes in (i) dopamine (DA) neurochemistry; (ii) numbers of DA neurons; and (iii) pr

86 s been increasingly used to examine striatal neurochemistry in adult major depressive disorder.

87 This experiment examined behavior and neurochemistry in adult mice (Mus musculus) after neonat

88 rvation of normal olfactory bulb anatomy and neurochemistry in adult zebrafish.

89 these findings serve as evidence of altered neurochemistry in BD youth that is sensitive to medicati

90 Microdialysis has been used for studying neurochemistry in brain regions that respond to afferent

91 The current study is the first to examine neurochemistry in children during the critical period in

92 opic imaging (MRSI) can non-invasively probe neurochemistry in healthy and disease conditions.

93 d variations of spatial reference memory and neurochemistry in intact female mice were examined.

94 easibility of using PET to investigate brain neurochemistry in KO mice has not been demonstrated.

95 behavioral assays, immmunohistochemistry and neurochemistry in limbic areas such as the amygdala (Amy

96 ms, relatively little is known about enteric neurochemistry in nonhuman primates.

97 Estrogen also influences cholinergic neurochemistry in the basal forebrain and hippocampus.

98 or 3 mg/kg every 3 days) alters dopaminergic neurochemistry in their offspring and exacerbates MPTP t

99 promotes alterations in brain metabolism and neurochemistry in wild-type (WT) rats in a similar manne

100 s are attributable to species differences in neurochemistry, including differential expression of ste

101 of innovative approaches in neurobiology and neurochemistry, including theragnostics.

102 nabolic androgenic steroid use affects brain neurochemistry, increasing CSF 5-HIAA and decreasing MHP

103 atures of motor performance and sensorimotor neurochemistry influence higher-order cognitive processe

104 The altered brainstem neurochemistry is associated with impaired ventilatory r

105 We found that cholinergic neurochemistry is diminished in the spinal cord of 22-24

106 One of the largest sex differences in brain neurochemistry is the expression of the neuropeptide arg

107 ional connectivity (RSFC) but the underlying neurochemistry is unclear.

108 in routine clinical testing at the Clinical Neurochemistry Laboratory of the Sahlgrenska University

109 , and 2) are heterogeneous in terms of their neurochemistry, location, and potentially function.

110 Assessments of in vivo neurochemistry, locomotor activity, and cardiovascular p

111 brain microstructure (diffusion imaging) and neurochemistry (magnetic resonance spectroscopy of neuro

112 nearby animals, together with the underlying neurochemistries, may help to clarify the origins of hum

113 is needed to address the neurocircuitry and neurochemistry mediating their abnormal underlying motiv

114 We investigated the neurochemistry, morphology, ultrastructure, membrane phy

115 nic stressors produce changes in hippocampal neurochemistry, neuronal morphology, and hippocampal-dep

116 Using a combination of in vivo neurochemistry, neurophysiology, and pharmacological met

117 ribute, in part, to the abnormalities in the neurochemistry observed in the brains of DS individuals.

118 wed that marked differences in HPC monoamine neurochemistry occurred in NTLE patients as compared wit

119 ) is an effective approach for profiling the neurochemistry occurring in selected neurons.

120 e studies emphasize that there is a distinct neurochemistry of acute and persistent pain.

121 thermore, very few studies have examined the neurochemistry of adult human cardiac ganglia.

122 The multifactorial origin and neurochemistry of Alzheimer's disease (AD) call for the

123 Animal and human research on the neurochemistry of behavioral activation and effort-relat

124 There are sex differences in the neurochemistry of brainstem nuclei that participate in t

125 Here we determined the effect on 5-HT neurochemistry of discontinuation from the SSRI paroxeti

126 ne and compare the synaptic arrangements and neurochemistry of elements involving direct lateral geni

127 on, there is a lack of studies examining the neurochemistry of individual vascular dementia subtypes.

128 term consequences of cortical lesions on the neurochemistry of interconnected cortical areas.

129 The neurochemistry of LES-projecting neurons was also invest

130 gly few data on the central organization and neurochemistry of LES-projecting preganglionic neurons.

131 inergic system as an important player in the neurochemistry of major depression and bipolar disorder.

132 reveal an important distinction between the neurochemistry of multi-infarct vascular dementia/SND an

133 ocal microscopy to explore the structure and neurochemistry of nerve terminals in the corneal epithel

134 e behavior, is largely unexplored, as is the neurochemistry of PH connectivity with limbic and neuroe

135 this sample has the potential to inform the neurochemistry of resilience following trauma.

136 The neurocircuitry and neurochemistry of sickness-induced hyperalgesia are desc

137 Thus, investigations of the neurochemistry of social bonding in humans, for which th

138 atric studies, yet little is known about the neurochemistry of the anterior white matter (AWM) in ped

139 iques may prove valuable in the study of the neurochemistry of the cerebral mechanisms of hibernation

140 verapamil that draws on the neuroanatomy and neurochemistry of the identified region.

141 To address the neurochemistry of the mechanisms that underlie the devel

142 rs at glutamatergic synapses in mammals, the neurochemistry of the memory-storing mushroom body Kenyo

143 d questions is the location, morphology, and neurochemistry of the nerve endings of spinal afferents

144 MRS) in the rACC to examine the function and neurochemistry of the rACC in individuals with OCD and c

145 The alterations in the neurochemistry of the spinal cord and the sensitization

146 The neurochemistry of the spinal cord was evaluated at days

147 tiple identified brain regions; however, the neurochemistry of these inputs is largely unknown.

148 receptors and to (2) dissect the anatomy and neurochemistry of these neurons, in order to assess the

149 We examined the underlying neurochemistry of those structures using compressed sens

150 These findings provide insight into the neurochemistry of treatment response and show that low d

151 dings shed new light on the neuroanatomy and neurochemistry of ZI-located cells that contribute to ad

152 groups of interneurons with respect to their neurochemistry or function.

153 peutic strategies that restore proper reward neurochemistry or reverse alcohol-induced neurodegenerat

154 injection) had no effect on either striatal neurochemistry or the rescue of SNc TH-positive neurons.

155 afferent inputs, peripheral target tissues, neurochemistry, or physiological features rather than fr

156 Maturation of amino acid neurochemistry preceded the development of retinal funct

157 this study reveals how local adjustments in neurochemistry relate to changes in the neurocircuitry o

158 nd associated changes in brain structure and neurochemistry relevant to ischemia.

159 oninvasive way of studying human cholinergic neurochemistry.SIGNIFICANCE STATEMENT Behavioral flexibi

160 pends on striatal dopamine transmission, the neurochemistry supporting maternal behavior in humans ha

161 s of information--molecular data on cellular neurochemistry, temporal information about neural activi

162 n cigarettes) causes changes in behavior and neurochemistry that lead to increased probability of rel

163 g brains with MPH may exert effects on brain neurochemistry that modify some behaviors even in adulth

164 social skills and on brain architecture and neurochemistry, that both skill development and brain ma

165 HD-associated changes in brain structure and neurochemistry, the authors found that multiple white (W

166 Magnetic resonance spectroscopy allows neurochemistry to be probed noninvasively in vivo.

167 The dystrophic retina displays similar neurochemistry to control retina before eye opening but

168 The mammalian brain relies on neurochemistry to fulfill its functions.

169 The mechanistic link from neurochemistry to perception provides a vital step in un

170 tions of neural circuits, neurogenetics, and neurochemistry uncovered a more complete scaffolding und

171 in individuals with RR deficits, however the neurochemistry underlying network hypofunction in those

172 athology as well as inflammatory markers and neurochemistry using biochemical, immunohistochemistry a

173 Here we determine the neurochemistry (using in situ hybridization) of catechol

174 oving rats and the effect on the post-mortem neurochemistry was measured.

175 Neocortical, rather than hippocampal, neurochemistry was more sensitive to hormonal modulation

176 No strain differences in basal neurochemistry were apparent in the nucleus accumbens sh

177 ences in EtOH-induced change in behavior and neurochemistry were essentially reversed by AAV-mediated

178 Alterations in neurochemistry were observed after the onset of rod phot

179 Neuropsychiatric morbidity and neurochemistry were similar among transplanted and nontr

180 antagonists had any effect on the cerebellar neurochemistry when injected alone or had any effect on

181 ng-term effect on development, behaviour and neurochemistry, which is an important public health issu

182 est that cardiovascular risks are related to neurochemistry with a predominantly white matter pattern

183 ons of neurovascular coupling that correlate neurochemistry with hemodynamic changes in vivo for any

184 In this study, we investigated cellular neurochemistry with proton magnetic resonance spectrosco

185 This altered neurochemistry within the LHA further highlights the pot