ライフサイエンスコーパス: hypoactive

1 afish larvae, whereas nmu mutant animals are hypoactive.

2 The deep tendon reflexes were symmetrically hypoactive.

3 lacking rostral brainstem acetylcholine are hypoactive.

4 Most cases of delirium were of the hypoactive (46%) and mixed (45%) subtypes; only 8% of de

5 of highly edited mRNA variants (which encode hypoactive 5-HT2CR receptors) in the brains of suicide v

6 ccumbal neuronal ensembles become profoundly hypoactive across the development of heroin seeking and

7 y suggest that midbrain dopamine neurons are hypoactive after prolonged cocaine exposure, a state tha

8 ctive aggression in youths with CU traits to hypoactive amygdala responses to emotional distress cues

9 Mice displayed a hypoactive and anxious phenotype during behavioral testi

10 oxylase (TH) in dopaminergic neurons, become hypoactive and aphagic and die by 4 weeks of age.

11 wever, these mice developed seizures, became hypoactive and approximately 30% of them died by 1 year

12 We allowed for interaction between days of hypoactive and hyperactive delirium and adjusted for bas

13 to examine the associations between days of hypoactive and hyperactive delirium with cognition outco

14 Interestingly, both hypoactive and hyperactive ZAP70 can lead to the develop

15 These mice become hypoactive and hypophagic and die of starvation by 4 wee

16 eurons, are born normal but gradually become hypoactive and hypophagic, and die at 3 weeks of age.

17 Moreover, BLA-BNST neurons are hypoactive and less excitable in females.

18 The mutant animals do not feed and are hypoactive and markedly hypotonic.

19 (44%), mixed (57%), or equal percentages of hypoactive and mixed delirium (43%) as most prevalent.

20 n (PV) INs and their immature precursors are hypoactive and transiently decoupled from excitatory neu

21 , motoric subtypes of delirium (hyperactive, hypoactive), and the association of delirium with dement

22 ive and, interestingly, the S147P protein is hypoactive as compared to the DUSP5 WT protein in two di

23 es and precocious neurodevelopment, yielding hypoactive, asynchronous neural networks.

24 opioid, remifentanil, causes a long-lasting hypoactive basal state evidenced by a decrease in ex viv

25 In females, the hypoactive basal state is driven by a reduction in excit

26 Abnormal hypoactive behavior was manifested by 4.5-mo-old Naglu-/

27 bladder afferent pathways, thereby improving hypoactive bladder function in diabetes.

28 The emergence of a hypoactive, but not hyperactive basal state following re

29 gically enhance calcium signaling within the hypoactive capillary endfeet while reducing the hyperact

30 We defined a day with hypoactive delirium as a day with positive Confusion Ass

31 f 11 studies reporting on subtype identified hypoactive delirium as most prevalent (46-81%) with each

32 equally distributed between the groups, with hypoactive delirium most frequent (61%), followed by mix

33 Survivors of a hypoactive delirium subtype performed significantly bett

34 mixed, 10 (11.5%) hyperactive and 26 (29.9%) hypoactive delirium subtypes.

35 Each additional day of hypoactive delirium was associated with higher instrumen

36 Longer duration of hypoactive delirium was associated with worse global cog

37 Longer duration of hypoactive delirium was independently associated with wo

38 Hypoactive delirium was more common and persistent than

39 of 556 adults with a median age of 62 years, hypoactive delirium was more common than hyperactive (68

40 Longer duration of hypoactive delirium, but not hyperactive, was associated

41 26-52%, with a significant percentage being hypoactive delirium.

42 Other hypoactive DeltaVD mutants formed stable and characteris

43 The brain is assumed to be hypoactive during cardiac arrest.

44 onically hyperactive in mutants, but becomes hypoactive during social behaviour.

45 g striatal projection neurons (D2-SPNs) were hypoactive during synchronous cortical slow-wave activit

46 quire a combination therapeutic strategy for hypoactive endfeet and astrocytic hyperactivity.

47 The pivotal role of hypoactive endogenous fibrinolysis in the occurrence of

48 Transgenic mice with hypoactive EPO receptor (EPOR) signaling (hWtEPOR) were

49 This hypoactive form of ANTP, but not the alanine-substituted

50 Delirium is a common event, especially the hypoactive forms in the elderly.

51 the agitated (hyperactive) and nonagitated (hypoactive) forms of delirium are harbingers of impendin

52 lementation assay to measure both hyper- and hypoactive GCK variation, capturing 97% of all possible

53 s using elastic net regression and found the hypoactive group exhibited higher reflection, lower in-s

54 a largely hyperactive compared to a largely hypoactive group.

55 t (i) A3B expressed in human cells exists in hypoactive high-molecular-weight (HMW) complexes, which

56 Pediatric delirium can be classified as hypoactive, hyperactive, and mixed.

57 Mice without CB1 receptors are extremely hypoactive in a test for exploratory behavior (open-fiel

58 ge-sensitive superior temporal cortices were hypoactive in ASD toddlers with poor language outcome.

59 nt findings that the default mode network is hypoactive in autism, our data raise the possibility tha

60 re hyperactive in proximal CA3, but possibly hypoactive in distal CA3, compared with young (Y) rats.

61 egulates fear memories and is reported to be hypoactive in PTSD.

62 he cardiac surgery ICU and was predominately hypoactive in subtype.

63 endfeet were as active as fine processes but hypoactive in the presence of amyloid plaques, while the

64 Depletion of OLA1 caused a hypoactive ISR and greater survival in stressed cells.

65 The mice with the small deletion were hypoactive like the large deletion mice and they also sh

66 Specifically, hypoactive medial OFC and hyperactive right hippocampus

67 Under hypoactive neuronal conditions, microglia also exhibited

68 adherin positive tumor cells by recruiting a hypoactive NKG2D(-ve) NK population, phenotypically remi

69 % of patients near the end of life develop a hypoactive, nonagitated delirium.

70 ations in mice and humans with a spectrum of hypoactive or hyperactive activities, we have gained ins

71 e engineered deletion or the duplication are hypoactive or hyperactive, respectively.

72 dentified 21% with delirium, 88% of whom had hypoactive or normal psychomotor features.

73 A similar hypoactive pattern was found during early conditioning (

74 Both the hyperactive and hypoactive phases of motor dysfunction preceded the dete

75 These DCs exhibited a hypoactive phenotype with low CD40, MHC II, CD80/CD86 ex

76 in increased SFK activity, but paradoxically hypoactive platelets resulting from negative feedback me

77 estored coagulation ex vivo in patients with hypoactive platelets.

78 yperactivation in the neutral condition, but hypoactive prefrontal (ventromedial and lateral prefront

79 he combination of a hyperactive amygdala and hypoactive prefrontal regions is associated with diminis

80 Furthermore, compensating for hypoactive prelimbic cortex neurons with in vivo optogen

81 salinities, directly exposed F0 larvae were hypoactive relative to the F0 controls; however, the ind

82 ntaneous locomotor activity were found to be hypoactive relative to young animals.

83 We classified delirium as hypoactive (Richmond Agitation and Sedation Scale 0) or

84 n receptors for the treatment of generalized hypoactive sexual desire disorder (bremelanotide) and er

85 int worldwide, current treatment options for hypoactive sexual desire disorder (HSDD) are limited in

86 Distressing low sexual desire, termed Hypoactive Sexual Desire Disorder (HSDD), affects approx

87 re; the most prevalent psychological form is hypoactive sexual desire disorder (HSDD), which affects

88 for FSD are available, specifically to treat hypoactive sexual desire disorder, female sexual arousal

89 Additionally, hypoactive shifts in neuronal activity (isoflurane anest

90 tosensory and auditory cortex shifted from a hypoactive state in P45 to hyperactivity in P120.

91 Chemogenetic compensation for this hypoactive state prior to testing restored cognitive fle

92 esting restored cognitive flexibility, basal hypoactive state, and remifentanil-induced plasticity.

93 wing 10-16 days of self-administration, with hypoactive states arising only following 25-30 days of s

94 Alternatively, hyper- and hypoactive states in males align selectively with decrea

95 ulated by phosphorylation in both hyper- and hypoactive striatal DA neurons; in the latter case, acti

96 Nearly all (92%) exhibited the hypoactive subtype of delirium.

97 ereas SLC10A4 null mutant mice were slightly hypoactive, they displayed hypersensitivity to administr

98 ermined activity scores, we find that 43% of hypoactive variants also decrease cellular protein abund

99 Hypoactive variants are concentrated at buried positions

100 Delirium symptoms were nearly always hypoactive, were detected mean 6 days after intracerebra

101 Hypoactive ZAP70 function compromises key developmental