ライフサイエンスコーパス: kitten

1 nti-FeLV antibodies were not detected in any kitten.

2 transient in the adult and sustained in the kitten.

3 oadherent EPEC in the intestines of deceased kittens.

4 s, refining the interaction predominantly to kittens.

5 gene for intimin (eae) in feces from 42% of kittens.

6 s seizure susceptibility in amygdala-kindled kittens.

7 ea, dehydration, and associated mortality in kittens.

8 ger in older kittens and adults than younger kittens.

9 , requiring euthanasia at 11 weeks PI of the kittens.

10 gnals together with single-unit recording in kittens.

11 LC ipsilateral to the kindled amygdala in 6 kittens.

12 ransmission occurred in approximately 20% of kittens.

13 esthetized rat pups 14 to 36 days of age and kittens, 14-15 days old.

14 conception transmitted FIV to 59 of 83 (71%) kittens; 50.6% were virus positive on the day of birth.

15 Kittens aged from embryonic day E34 to E57 and postnatal

16 orn dog is similar to that described for the kitten and the premature human.

17 and summer in 2012 from all pens containing kittens and a random sample of those housing adult cats.

18 e findings identify aEPEC to be prevalent in kittens and a significant primary or contributing cause

19 monosynaptic CS response was larger in older kittens and adults than younger kittens.

20 months, n=30) are far more likely than older kittens and adults to exhibit spontaneous epilepsy, inde

21 with a high viral load at 5 weeks PI of the kittens and developed a similar disease syndrome, requir

22 opposing effects on kindling development in kittens and is the first report to show contrasting effe

23 ic nerve discharge of rat pups, like that of kittens and piglets, is in the MFO range, and suggest th

24 erent bacterial infection in pre-weaning-age kittens and should be considered in the differential dia

25 determine the prevalence and type of EPEC in kittens and whether infection was associated with diarrh

26 ed contraction in adult antral cells but not kitten antral cells.

27 In adult and kitten antrum isolated smooth muscle cell contraction, l

28 ons to the cochlear nucleus is as precise in kittens as young as P6 as it is in adults.

29 In a kitten at the peak of the critical period (approximately

30 (Trace[D] = 3 x Doav) were obtained in four kittens at eight time points.

31 al responses to a single dose of morphine in kittens at postnatal (P) ages 7, 15, 30, 60, 90, and 120

32 main effect was behavioral depression; i.e., kittens, away from the litter, laid sprawled as if with

33 Subjects were 14 preadolescent kittens between 3 and 4 months old at the beginning of k

34 ts transfused with anti-Bartonella serum and kittens born to antibody-positive queens with Bartonella

35 density in layer 4 is not present in newborn kittens, but becomes apparent at about 5 weeks of age.

36 e tested these hypotheses in critical period kittens by labeling ODCs in layer IV of primary visual c

37 With strong facilitation in older kittens, corticospinal axon varicosities colocalize syna

38 es at birth with those at 6 months of age in kittens delivered by cesarean and surrogate raised demon

39 In kittens, DS was more common at high (approximately 4 Hz)

40 Two days of monocular deprivation (MD) of kittens during a critical period of development is known

41 Blocking CST activity in kittens during the critical period for establishing conn

42 In kittens during the critical period of visual system deve

43 In the remaining five kittens, enteroadherent bacteria were identified as Ente

44 intestinal tissue obtained from age-matched kittens euthanized for reasons unrelated to intestinal d

45 es and females, and females with and without kittens, exhibited distinctly different movement pattern

46 trated a 13.5% increase in infection rate of kittens exposed to milk-borne virus.

47 correlated with increased rates of mother-to-kitten FIV transmission, paralleling observations in hum

48 dings suggest a 'critical period' in kindled kittens for onset of spontaneous temporal lobe epilepsy

49 ransmission of FIV-Pco from mothers to their kittens, for coinfection of individuals by two different

50 Pups were gavage fed pH 3 kitten formula every 12 hrs.

51 these fleas to specific-pathogen-free (SPF) kittens housed in a controlled, arthropod-free Universit

52 o separate experiments; however, control SPF kittens housed with highly bacteremic kittens in the abs

53 With the kitten in a Sitting position, these included stereotypic

54 identified in this manner produced affected kittens in prospective breedings, and a feline MPS VII b

55 ol SPF kittens housed with highly bacteremic kittens in the absence of fleas did not become infected.

56 ery cats transmitted B. henselae to five SPF kittens in two separate experiments; however, control SP

57 ncies of newly matured behaviors (in control kittens) including Sniffing and Licking (increased), and

58 f the deprived eye of a monocularly deprived kitten is simply reopened, there is substantial physiolo

59 Mortality in kittens is often attributed to diarrhea, and we previous

60 In kittens, LGN and cortical timing were immature.

61 f barbiturate-anaesthetized, critical-period kittens (n = 8) revealed a profound shift in favour of t

62 Comparison of kittens nursed by FIV mothers with those by uninfected s

63 use visual cortical slices but did not alter kitten ocular dominance plasticity in vivo.

64 cillus acquired from exposure to an infected kitten or cat.

65 t and persistent viremia, and in five of six kittens protecting against latent infection.

66 he deep layers of the superior colliculus of kittens ranging in age from 3 to 135 d postnatal (dpn).

67 zed, the cochleas were surgically exposed in kittens ranging in age from P6 to P45.

68 Each kitten received 0.5 or 3.0 mg/kg i.p. of morphine sulpha

69 e protocol was followed except that half the kittens received microinfusions (1 mul) of the alpha2 ag

70 from E. coli- and Enterococcus spp.-infected kittens revealed coccobacilli adherent to intestinal epi

71 In kittens reverse-sutured for 10 d after an initial week o

72 ent of patients endorsed a history of cat or kitten scratch.

73 Kittens show DS at high temporal frequencies because of

74 of cerebral protein synthesis metabolism in kittens, starting at birth and through postnatal age (P)

75 y versus cesarean-delivered surrogate-nursed kittens suggested that intrapartum transmission may occu

76 e is significantly less precise in perinatal kittens than in adult cats.

77 hic specificity is less precise in perinatal kittens than in adults.

78 One kitten that remained bacteremic was treated unsuccessful

79 For example, young kittens that are passively moved through an environment,

80 eniculate nucleus (LGN) and visual cortex of kittens that were 4-13 weeks of age.

81 f enteroadherent bacteria in seven unrelated kittens that were presumptively diagnosed with enteropat

82 In normal kittens these projections exhibit clear cochleotopic org

83 velopmental series of paraformaldehyde-fixed kitten tissue.

84 Kittens underwent serial ophthalmic and neuro-ophthalmic

85 ater depression of deprived-eye responses in kitten visual cortex than does treatment with tetrodotox

86 In only two kittens was EPEC infection confirmed.

87 effect of genetic restoration on survival of kittens was primarily responsible for the substantial gr

88 In kittens, we inactivated motor cortex by muscimol infusio

89 In 3-mo-old kittens, we show that a severe impairment of visual acui

90 Kittens were bilaterally deafened by an ototoxic drug ad

91 s between females with and without dependent kittens were caused solely by variation in state occupan

92 hree weeks after the final immunization, the kittens were challenged by the intraperitoneal inoculati

93 Normal kittens were deafened by neonatal administration of neom

94 Kittens were deafened neonatally, implanted at 4-5 weeks

95 f FIV transmission from mother to offspring, kittens were delivered via either vaginal or cesarean bi

96 After birth, affected kittens were evaluated clinically and pathologically, ti

97 Kittens were immunized by three intramuscular inoculatio

98 Control kittens were inoculated with empty plasmid.

99 Kittens were monocularly deprived to give a partial shif

100 An average of 6.5 kittens were studied at each dose and age.

101 Kittens with aEPEC had a significantly greater severity

102 Kittens with and without diarrhea were obtained from two

103 aEPEC was isolated from kittens with and without diarrhea.

104 However, kittens with diarrhea harbored significantly larger quan

105 the geniculocortical connectivity in normal kittens with that following brief (4 days and 6-7 days)

106 niculocortical afferents of postnatal day 40 kittens with the anterograde neuronal tracer Phaseolus v

107 ignificantly larger quantities of aEPEC than kittens without diarrhea.