ライフサイエンスコーパス: sensory deficit

1 Hearing impairment is the most common sensory deficit.

2 Hereditary hearing loss is the most common sensory deficit.

3 physiological examination showed no motor or sensory deficit.

4 lfactory dysfunction being their most common sensory deficit.

5 uggesting an anatomical basis underlying the sensory deficit.

6 used to detect malingered loss of memory or sensory deficits.

7 s in dendritic arborization with concomitant sensory deficits.

8 mbness and pain and also the most pronounced sensory deficits.

9 ds readily replace HCs and recover from such sensory deficits.

10 s show great potential for alleviating major sensory deficits.

11 nsory areas offers a promising treatment for sensory deficits.

12 ase, or genetic mutation, leads to permanent sensory deficits.

13 of the observers, coupled with long-standing sensory deficits.

14 uals with DS may be predominantly related to sensory deficits.

15 rbation leads to both isolated and syndromic sensory deficits.

16 tanding balance of the people with simulated sensory deficits.

17 n cause hair cell loss and lead to permanent sensory deficits.

18 neurons, mice lacking PHR1 do not have overt sensory deficits.

19 ol syndrome is a major cause of learning and sensory deficits.

20 urity-onset obesity, insulin resistance, and sensory deficits.

21 been shown previously to be born with severe sensory deficits.

22 g aid in augmenting sensation for those with sensory deficits.

23 onse to sound, both characteristic of larval sensory deficits.

24 -dominant axonal neuropathy with predominant sensory deficits.

25 g postural sway of the people with simulated sensory deficits.

26 tivity and ameliorates AS-associated mechano-sensory deficits.

27 glial TDP-43 deletion develop motor, but not sensory, deficits.

28 llar syndrome, partly combined with afferent sensory deficits (55%) and dysautonomia (28%).

29 nitive function, but whether and how tactile sensory deficits affect cognition decline remains unclea

30 d (VPT) is a reliable measure used to assess sensory deficits and is amenable to testing multiple bod

31 rder that causes intellectual disability and sensory deficits and is the most common known cause of a

32 owly progressive neuropathy causing profound sensory deficits and often severe motor loss.

33 d that glia-ablated animals exhibit profound sensory deficits and that glia provide activities that a

34 ronic disease prevalence and severity, pain, sensory deficits, and mobility difficulty across four ca

35 tes, cancer, heart disease, arthritis, pain, sensory deficits, and mobility difficulty than did those

36 , admission function, cognition, depression, sensory deficits, and mobility impairments.

37 airing quality of life through chronic pain, sensory deficits, and motor dysfunction.

38 d conduction velocity, progressive motor and sensory deficits, and muscle denervation.

39 Mental retardation and motor and sensory deficits are among the many debilitating symptom

40 These sensory deficits are not associated with any abnormality

41 ed mortality, though the effects of multiple sensory deficits are not known.

42 promised: these mutants exhibit a variety of sensory deficits as well as the mislocalization of signa

43 and mammals lack the ability to restore the sensory deficits associated with their loss.

44 se with high anti-MAG titers and most severe sensory deficits at baseline.

45 Differences in sensory deficits between the two patient groups with the

46 ng dysaesthesia and six from patients with a sensory deficit but no dysaesthesia.

47 eriments indicate that stress can exacerbate sensory deficits caused by developmental hearing loss.

48 ed by sensory stimuli, it is unknown whether sensory deficits contribute to the development of anxiet

49 Mild to moderate sensory deficits develop in a minority of patients.

50 ic strategies for individuals who experience sensory deficits during development.

51 by asymmetric rigidity and apraxia, cortical sensory deficits, dystonia and myoclonus.

52 eroid injections are useful for leg pain and sensory deficits early in the course of sciatica seconda

53 Self-reported auditory-vestibular-visual sensory deficits, focal neurologic dysfunction, seizures

54 CI, 7.0 to 15.3); auditory-vestibular-visual sensory deficits (HR, 2.3; 95% CI, 1.3 to 4.0); focal ne

55 ling adults, and studies adjusting for other sensory deficits identified as fall risk factors by the

56 Hearing loss is the most common sensory deficit in humans, with some estimates suggestin

57 Hearing loss is the most common sensory deficit in humans.

58 Deafness is the most common sensory deficit in humans.

59 It is possible that in dyslexia a persistent sensory deficit in monitoring the frequency of incoming

60 y the nature of the relationship between the sensory deficit in the demyelinated visual pathway and m

61 in age-related hearing loss, the most common sensory deficit in the elderly, is poorly understood.

62 lated hearing loss (ARHL) is the most common sensory deficit in the human population.

63 an suppress acrolein and alleviate motor and sensory deficits in a mouse experimental autoimmune ence

64 imeline of such reorganization events during sensory deficits in adulthood.

65 red anti-inflammatories for the treatment of sensory deficits in DPN.

66 The sensory deficits in Egfr null dorsal skin were not assoc

67 owledge, this is the first study to evaluate sensory deficits in hip OA and to demonstrate that there

68 Hearing impairment is one of the most common sensory deficits in humans.

69 s a simple and reliable technique to measure sensory deficits in subjects with OA of the knee.

70 tical interneuron dysfunction contributes to sensory deficits in SYNGAP1 haploinsufficiency with impo

71 Following recovery of motor and sensory deficits in the chronic phase of ICH, we noted s

72 ce among producers is to add sugar to adjust sensory deficits in the final product.

73 ontraction of the FDI were those with larger sensory deficits in the hand and 10 min of hand muscle-t

74 Participants with SCI with more severe sensory deficits in the hand showed larger decreases in

75 ed PLCbeta3 expression may contribute to the sensory deficits in the late-stage diabetic db(-)/db(-)

76 econdary etiological factor in the motor and sensory deficits in the rabbit model of cerebral palsy.

77 Lower extremity sensory deficits, including reduced proprioception, join

78 athic INS (n = 84) or INS with an associated sensory deficit: INS and albinism (n = 71), bilateral op

79 In contrast to the permanent sensory deficits observed in control mice after dorsal r

80 lassically described "onion skin" pattern of sensory deficits observed in patients after trigeminal t

81 d changes in learning are not the product of sensory deficits or state-dependent learning.

82 In addition, sensory deficits predicted impaired cognitive ERP genera

83 develop nerve conduction velocity (NCV) and sensory deficits prior to impaired glucose tolerance.

84 of electrical stimulation of the leg with a sensory deficit, protocols yielded increases in heart ra

85 sk for late-onset auditory-vestibular-visual sensory deficits (rate ratio [RR], 1.8; 95% CI, 1.5 to 2

86 d in MCI, which parallels the most prominent sensory deficit seen in AD.

87 ealth implications, awareness of this common sensory deficit should be raised.

88 e that appears to underlie the permanence of sensory deficits.SIGNIFICANCE STATEMENT Loud sounds, oto

89 f HGS in Schwann cells resulted in motor and sensory deficits, slowed nerve conduction velocities, de

90 lly develop rapidly progressive weakness and sensory deficits that can result in complete paralysis r

91 nce with orientation information processing (sensory deficit) versus with the routing of information

92 Patients with baseline sensory deficits went on to develop more symptom complai

93 Increased sensory deficits were associated with increased activati

94 Motor or sensory deficits were present on clinical examination in

95 Visual and vestibular sensory deficits were simulated by having each subject c

96 A high frequency of cognitive and sensory deficits with decreasing gestational age suggest

97 It has been known that sensory deficits worsen the standing balance.