ライフサイエンスコーパス: female infant

1 SD] birth weight 1220 [340] grams; 128 [40%] female infants).

2 m January 1, 2018, to December 31, 2021 (42% female infants).

3 le infants (53.9%-55.4% vs 44.6%-46.1% among female infants).

4 gestation, she delivered a healthy-appearing female infant.

5 rgent cesarean section, delivering a preterm female infant.

6 ith newborn DNA methylation, particularly in female infants.

7 s to scrotum: beta = 0.29, P = 0.02) but not female infants.

8 tal structural connectivity, particularly in female infants.

9 More male infants are treated for ROP than female infants.

10 7 (54%) were Black infants and 89 (49%) were female infants.

11 y variables were comparable between male and female infants.

12 more male infants meeting the criteria than female infants.

13 6 months of age was determined for male and female infants.

14 02-1.26) was higher compared with the CHR in female infants (1.08; 95% CI, 0.96-1.22).

15 e at delivery, 26.5 [5.2] years; 152 [52.4%] female infants); 254 mothers (87.6%) were born in Mexico

16 id not differ significantly between male and female infants (347 388 mm3 and 335 509 mm3, respectivel

17 ssociation with prenatal lead exposure among female infants (-4.3% per doubling increase in lead expo

18 al age at birth, 39.2 [1.1] weeks; 1 152 040 female infants [48.9%]), prenatal exposure to PM2.5, sul

19 Of 206 participants (103 female infants [50%]; mean [SD] GA, 30.5 [2.7] weeks), 5

20 SD) gestational age of 28.6 (2.9) weeks; 252 female infants (52.1%); and 61 Black infants (12.6%).

21 The study cohort included 798 infants (463 female infants [58.0%]; mean [SD] maternal age, 30.9 [8.

22 There were 936 EP infants (448 [48%] female infants; 611 [65%] White infants; mean [SD] gesta

23 Female infants accounted for 21 infants (42%) of the int

24 ts born in the preterm cohort, 43 (54%) were female infants and 43 (54%) were Black infants.

25 compared with their fathers) to 74 g (white female infants and their mothers).

26 NSs compared with IFA/SOC were greater among female infants and, for certain outcomes, among mothers

27 idence from humans and monkeys suggests that female infants are more social than males in the first w

28 al mercury and psychomotor development among female infants (beta = -1.09, 95% CI: -2.21, 0.03), alth

29 Here we report a female infant born with biallelic PRF1 mutations: a nove

30 A female infant, born at 24 + 2 weeks and weighing 440 g,

31 amount of PN predicted a higher FM index in female infants but lower FM index in male infants.

32 in mediating the impact of chronic stress on female infant-directed behavior.

33 MMSs were greater for certain outcomes among female infants, first-born infants, and mothers <25 y.

34 In addition, female infants from HFD-fed mothers exhibited increased

35 In our analysis, female infants have a higher rate of PICU mortality comp

36 In male, but not female, infants higher maternal prepregnancy E-DII was a

37 B Streptococcus disease (iGBS) compared with female infants; however, data on sex differences in mort

38 s comparing gut microbiomes between male and female infants in the first six months of life.

39 Of the 6370 male and 5648 female infants in this study, 4995 (42%) were white, 317

40 Mothers reported that, compared with female infants, male infants were hungrier, were not as

41 ggesting biological roots; however, male and female infants may be treated differently, potentially c

42 Although female infants may have an early life biological advanta

43 uador has an unusually high ratio of male to female infant mortality, but gender norms have been repo

44 we identified more CpGs with FDR<0.05 among female infants (n=38) than among male infants (n=2).

45 A female infant of nonconsanguineous Indian parents presen

46 The gut microbiome of female infants of GDM mothers has higher histamine degra

47 life pain and neonatal brain connectivity in female infants only, with greater early-life pain exposu

48 V30E was smaller in female infants (p < 0.05) and in infants whose mothers s

49 eceiving treatment between screened male and female infants (pooled odds ratio, 1.04 [95% CI, 0.91-1.

50 A 5-month-old full-term female infant presented to an outside institution with f

51 Preterm and female infants seem to experience slower growth recovery

52 Male and female infants seemed to respond differently to PN when

53 tic placentas; however, this appears to be a female infant sex-specific effect.

54 Female infants showed increased connectivity in inferote

55 Numbers and percentages of male and female infants treated for ROP.

56 onments of five- to eight-month-old male and female infants using the Linguistic ENvironment Analysis

57 Female infants were also more likely to have positive El

58 The proportions of treated male and female infants were combined using random-effects meta-a

59 We report the case of a 5-month-old female infant who had allergic enterocolitis with protei

60 We report here a 17-day-old female infant who presented with high fever, hepatosplen

61 The index patient was a 2-month-old female infant who suffered from a cardio-pulmonary arres

62 A 10-month-old female infant, who was second-born, was referred for pro

63 e we report a case of a 6 month old Sudanese female infant with CN1 whose molecular analysis revealed

64 tory of idiopathic vitreous hemorrhage and a female infant with familial exudative vitreoretinopathy.

65 We present a case of a 15-month-old female infant with type I biliary atresia with jaundice

66 , we identified 2 912 559 (51.3% male, 48.7% female) infants with no prenatal opioid exposure and 216

67 ioid exposure and 216 012 (51.2% male, 48.8% female) infants with prenatal opioid exposure.

68 ion in brain sizes with age between male and female infants (with male infants growing faster than fe