ライフサイエンスコーパス: neural connection

1 the treatment groups, suggesting maintained neural connections.

2 y, we evolve neural networks with a cost for neural connections.

3 out the cell to form and maintain functional neural connections.

4 that are thought to act in concert to shape neural connections.

5 depends on both formation and refinement of neural connections.

6 ly influence the specificity and strength of neural connections.

7 thus enabling the establishment of specific neural connections.

8 -beta (Abeta) facilitated tau spread through neural connections.

9 ted, and they are important for establishing neural connections.

10 ic system as well as changes in hypothalamic neural connections.

11 both replacement of cells and rebuilding of neural connections.

12 t plays essential roles in the refinement of neural connections.

13 erience is a powerful sculptor of developing neural connections.

14 for understanding the development of complex neural connections.

15 is essential in the refinement of developing neural connections.

16 cipants of sensory-dependent modification of neural connections.

17 tually orchestrates the final arrangement of neural connections.

18 ls could occur based on changes in the local neural connections.

19 ortant for the development and plasticity of neural connections.

20 rnative neuronal circuits including existing neural connections.

21 s are significantly associated with specific neural connections.

22 ty facilitate the reordering and refining of neural connections, allowing correct adult physiology to

23 facilitate the reordering and refinement of neural connections, allowing the definitive synaptic cir

24 underlying molecular mechanisms and specific neural connections among the pPVT and other brain region

25 al experiments were conducted to examine the neural connections and cellular mechanisms of GLP-1R sig

26 lasticity has been described at a variety of neural connections and its signaling has been implicated

27 e role of activity in formation of patterned neural connections and their plasticity.

28 romote neuroplasticity, the formation of new neural connections, and rewire neuronal networks.

29 ies on the careful balance of these opposing neural connections, and understanding how this balance i

30 exity and synapse number, and entirely novel neural connections are formed through the process of neu

31 in order to perform flight tasks with as few neural connections as possible, however, there are limit

32 ctively change the rate of learning for each neural connection based on environmental stimuli (e.g. t

33 od-borne Ang II can influence the RVLM via a neural connection between the circumventricular organs a

34 A neural connection between the trigeminal ganglion and th

35 de tract-tracing techniques, we examined the neural connection between this complex and the preoptic

36 The neural connections between coitus and GnRH release invol

37 ape and viewing geometry, although there are neural connections between colour and two-dimensional fo

38 We found that the strength of neural connections between motor cortex and spinal cord

39 extensive sublesional bone loss and disrupts neural connections between the central nervous system (C

40 Here we show that neural connections between the nucleus accumbens and hyp

41 However, direct neural connections between the telencephalic output of t

42 e onset of the critical period, during which neural connections can be altered by visual experience.

43 abel neurons so that detailed morphology and neural connections can be evaluated.

44 The formation of appropriate neural connections during development is critical for th

45 oles in learning and memory and in sculpting neural connections during development.

46 nal growth cone, and direct the formation of neural connections during development.

47 ote the homeostatic developmental balance of neural connections during the postnatal time period.

48 atomical changes that support strong learned neural connections early in life can persist even after

49 experiments have led to the expectation that neural connections established during development would

50 e recovery, but it is unknown which specific neural connections exert this influence, and to what ext

51 us RA (robust nucleus of arcopallium) by its neural connections, expression of glutamate receptors an

52 The demonstration of extant neural connections for high spatial frequencies may have

53 aring and retrograde tracing (the tracing of neural connections from the synapse to the cell body), a

54 he functional characteristics of these early neural connections have not been assayed.

55 al differentiation and abnormal formation of neural connections; however, the mechanisms underlying t

56 We find that a critical neural connection in Aplysia, which is modified with dif

57 non-invasive probe to diagnose the status of neural connections in other visual deficits.

58 By tracing neural connections in rat, we show that the inferior col

59 e candidates for orchestrating remodeling of neural connections in response to drug exposure.

60 Neural connections in the adult central nervous system a

61 Neural connections in the adult nervous system are estab

62 Our results suggest that neural connections in the amblyopic visual cortex, at le

63 The structural phenotype of neural connections in the auditory brainstem is sculpted

64 ncluding estimation of comprehensive maps of neural connections in the brain ("connectomes").

65 t imaging studies show that the formation of neural connections in the central nervous system is a hi

66 known to be important for the refinement of neural connections in the developing brain.

67 sion through the regeneration of neurons and neural connections in the eye and visual system." An AGI

68 ate in the sensory-dependent modification of neural connections in the visual cortex.

69 tial for the formation of a mature system of neural connections; in some instances, the pattern of ne

70 The existing literature suggests that neural connections, information integration, and conscio

71 nervous system to help refine early sets of neural connections into their highly precise adult patte

72 ntrol the development of the organization of neural connections into topographic maps.

73 effects.SIGNIFICANCE STATEMENT Plasticity of neural connections is important for development, learnin

74 suggest that it may function in establishing neural connections key to vocal learning.

75 similar for each cortical area, specialized neural connections likely mediate unique information pro

76 chrony, suggesting that this well-researched neural connection may be specific to face-to-face commun

77 s whether recovery involves new and aberrant neural connections or whether any change in function is

78 Neural connections, providing the substrate for function

79 strengthening and suppress the weakening of neural connections representing events that fall within

80 l plasticity contribute to the refinement of neural connections that broadly shape brain development.

81 es of reactivations induce a labile state at neural connections that lead to reversal of different ty

82 The olfactory system maintains well-defined neural connections that regenerate throughout life.

83 Given its neural connections, the mediodorsal thalamus (MD) could

84 nes can be required for normally functioning neural connections to form.

85 "organ" contains immunologic, vascular, and neural connections to its host that provide not only mec

86 gest that the brain handles this by reducing neural connections to the previous context and adding co

87 3 of 14 sites remained positive, suggesting neural connections to the PV were disrupted by both PV i

88 protein, we found that efferent bone marrow-neural connections trace to sympathetic centers of the c

89 ional factors; differential vulnerability of neural connection types (e.g., clustered versus distribu

90 died in isolation to assess labeled lines of neural connections underlying innate actions.

91 rk interactions in vivo by estimating causal neural connections using an all-optical method(3-6).

92 f interhemispheric functional and structural neural connection were derived with analyses of voxel mi

93 Neural connections were visualized between synaptic part

94 ctivation could be elicited through a direct neural connection with the AcbSh or secondarily through

95 he deficits are somehow linked to the shared neural connections with the area of brain damage.

96 sist of functional deficits in areas sharing neural connections with the damaged area.

97 The development of peripheral to central neural connections within the auditory, visual, and olfa

98 The hypothalamus maintains both direct neural connections within the brain and it also controls

99 he molecules required for the development of neural connections within the brain.

100 abnormal connectivity in ASD may also affect neural connections within the cortical gray matter.

101 These results suggest that abnormal neural connections within the limbic system may contribu

102 ells and extensive rewiring of the remaining neural connections, yet about 50% of stroke survivors li