ライフサイエンスコーパス: menses

1 400 microg orally (within 49 days from last menses).

2 dult presentation of hirsutism and irregular menses.

3 n the inflammatory microenvironment of human menses.

4 al phase and once during their pill pause or menses.

5 ly within 7 days after ovulation or onset of menses.

6 208 [64.4%]) endorsed sickle cell pain with menses.

7 % to 39%) developed premenopausal E2 without menses.

8 trual symptoms through the first few days of menses.

9 from symptom onset through the beginning of menses.

10 lesions) being endometrial fragments shed at menses.

11 itiating chemotherapy, with no resumption of menses.

12 etabolic syndrome, obesity, and age at first menses.

13 g hormone levels were associated with longer menses.

14 s done 5-7 days after expected onset of next menses.

15 a hormonal mechanism and require a return of menses.

16 ce, and LDL levels than mothers with regular menses.

17 s that reached a maximum before the start of menses.

18 nd bladder sensitivity, even two weeks after menses.

19 were undetectable on the first day of missed menses.

20 rily occur before the expected onset of next menses.

21 ostpartum (EL), and 5 mo after resumption of menses.

22 correlation of the disease with the onset of menses.

23 were hypertension (2.4% vs 1.9%), irregular menses (1.5% vs 1.4%), and diarrhea (1.9% vs 7.0%).

24 antation, 30 women (48%) experienced regular menses, 16 (26%) irregular bleeding, and 16 (26%) amenor

25 All participants reported regular menses (21-35 days), had not used estrogen- or progestin

26 tilide infusion was greater for women during menses (63 [13]) and the ovulatory phase (59 [17]) compa

27 ibly due to increased volume and duration of menses, a common side effect of Cu-IUD use.

28 cy and lactation and after the resumption of menses, a longitudinal comparison was undertaken of 14 w

29 ed with a higher rate of recovery of regular menses after 6 months (odds ratio [OR], 2.41; 95% CI, 1.

30 Rate of resumption of regular menses after a minimal follow-up period of 6 months foll

31 tion of persistent CRA (ie, never recovering menses after treatment) with QOL.

32 Sexual activity and menses also appeared to influence the development of iBV

33 r variability in community composition after menses and antibiotic therapies.

34 el predictions for composition changes after menses and antibiotics were not significantly different

35 in the regeneration of the endometrium after menses and as a vasodilator to promote blastocyst attach

36 escribed oral contraceptives to regulate her menses and help reduce her androgen levels, she wants to

37 magnitude are greatest immediately following menses and lowest at ovulation.

38 ) and compared with men (46 [16]; P =.002 vs menses and P =.007 vs ovulation).

39 Objectives included the resumption of menses and serial monitoring of follicle-stimulating hor

40 enoid concentrations were at their lowest at menses and significantly higher thereafter, except for a

41 Participants reported regular menses and were not using hormonal medications or narcot

42 ment, 38.2% of the subjects reported regular menses, and 4.6% reported amenorrhea.

43 ese patients (6%; 95% CI, 3% to 10%) resumed menses, and 56 of these patients (32%; 95% CI, 25% to 39

44 age, endocervical and urethral inflammation, menses, and gonococcal coinfection) were assessed.

45 cycle length, luteal phase deficiency, long menses, and heavy blood loss.

46 lls retrogradely enter the peritoneum during menses, and implant and form invasive lesions in a proce

47 ronic pelvic pain, pain with intercourse and menses, and infertility.

48 omen often present with hirsutism, irregular menses, and obesity.

49 s of Abs and immunoglobulins occurred during menses, and the lowest levels occurred around the time o

50 trual cycle; the highest levels occur during menses, and the lowest occur during the periovulatory pe

51 entical in both arms (2 days before expected menses), as was mean gestational weeks at first positive

52 very among women aged 18 to 34 years with no menses at Y2 were reported by 11 of 21 women (52.4%) bet

53 less than 46 years old, 27 (53%) had regular menses before and after transplant.

54 Compared with plasma concentrations at menses, beta-carotene peaked (increased by 9%, P = 0.01)

55 days before onset and on the first 2 days of menses, but they are not more severe than those that occ

56 hanging ovarian function, precedes the final menses by several years.

57 f decrease was maximal around 9 months after menses ceased, with an instantaneous estimate of slope o

58 cardiovascular disease (CRP, >3 mg/L) during menses compared with other phases (12.3% vs. 7.4%; P < 0

59 at S. aureus biofilm can form on tampons and menses components in vivo.

60 f carotenoids, lipoproteins, and hormones on menses days 1-2, 4-6, 11 through 1 d after the luteinizi

61 nt with HWW syndrome presenting with regular menses, dysmenorrhea and painful lump in hypogastric reg

62 and 7-8 d after the surge, representing the menses, early and late follicular, and midluteal phases,

63 macrophages present in the peritoneum and in menses endometrium can contribute to the inflammatory mi

64 They were grouped by menstrual cycle phases (Menses, Follicular, Early-Luteal, and Premenstrual) base

65 et and continued until the first few days of menses for 6 menstrual cycles.

66 he 4 days before through the first 2 days of menses for the self-identified group and in the 3 days b

67 he flora included use of vaginal medication, menses, greater number of partners, spermicide use, more

68 of NSBs, SSBs, and MSBs were similar across menses groups, compared with premenopausal monkeys, peri

69 s synapse density was similar across age and menses groups.

70 long follicular phase (> or = 24 days), long menses (> or = 8 days), or long cycle (> or = 36 days).

71 ) had less than a third of the risk for long menses (> or =8 days) compared with women who did not co

72 Menses had no effect on test performance.

73 til the infant was 12 mo of age, or later if menses had not occurred by then.

74 ry syndrome (PCOS) diagnosed after irregular menses, hirsutism, and polycystic ovaries, is concerned

75 Those with late initiation of menses (ie, age >13 years) similarly exhibited weaker ge

76 Precocious onset of menses (ie, age < or =11 years) has repeatedly been iden

77 en aged 21-36 years with spontaneous, cyclic menses in Brooklyn, New York.

78 he 3 days before through the first 3 days of menses in the community sample.

79 Regular menses in the patient and azoospermia in her husband del

80 th ovarian failure defined as the absence of menses in the preceding 6 months and levels of follicle-

81 thin <30 days, and sexual intercourse during menses in the previous 6 months; condom use was protecti

82 east 2 years postmenarche, to report regular menses in the previous year, and to report no use of hor

83 with increased rates of recovery of regular menses in this meta-analysis.

84 We then analyze the resumption of menses in women during unsupplemented lactation.

85 esus monkeys including ovulation inhibition, menses induction, and reproductive tract morphology.

86 sexual transmission of HIV-1 may increase as menses is approached.

87 RA was common, although some women recovered menses late, and was associated with worse long-term QOL

88 opausal or early perimenopausal (most recent menses <=3 months).

89 ested that women with consistently irregular menses may have a greater risk of hip fracture.

90 We used a murine model of simulated menses; mice were treated with a single dose of the nona

91 weight-comparable control women with regular menses, no clinical evidence of hyperandrogenemia, and n

92 Except for easy bruising and heavy menses, none of these subjects had major bleeding episod

93 wed a return of ovarian function (10 renewed menses, one pregnancy, one biochemically premenopausal)

94 cycle phases were identified in relation to menses onset and ovulation (surge in urine luteinizing h

95 ), and smokers, or just before ovulation and menses onset for low symptomatic subgroups.

96 90 follow-up participants reported return to menses or became pregnant (24 [63%] of 38 women who desi

97 s contraceptive vaginal system and return to menses or pregnancy after use.

98 study completion for 6 months for return to menses or pregnancy.

99 opausal women (at least 36 months since last menses or since hysterectomy with a follicle-stimulating

100 increased twofold to threefold during early menses (P < 0.001) compared with nadir symptom ratings d

101 trol and experienced a greater likelihood of menses (P < 0.05).

102 ecrease after month 12 for those who resumed menses (P = .0989).

103 s consumed significantly less protein during menses (P = 0.008).

104 n of elevated serum androgen levels and </=6 menses per year with the exclusion of secondary causes.

105 abdomen was significantly higher during the Menses phase when compared to Early-Luteal and Premenstr

106 and altered colonic motility associated with menses, pregnancy and menopause.

107 few days before through the first 3 days of menses rather than only the premenstrual phase.

108 However, late menses recovery among women aged 18 to 34 years with no

109 , specificially for bone mineral density and menses recovery, is ongoing at the time of publication.

110 depressed women met criteria for significant menses-related symptom cyclicity (at least a 30% increas

111 A higher-than-expected rate of menses-related symptom cyclicity and premenstrual dyspho

112 However, neither menses-related symptom cyclicity nor premenstrual dyspho

113 In 11 (92%) of the 12 women, normal menses resumed within 2-5 months of the procedure.

114 Menses returned after a median of 5.8 months (range, 1 t

115 With the exclusion of those whose menses returned before 18 wk postpartum (which could not

116 ferent across groups distinguished by age or menses status, DR accuracy correlated positively with th

117 d marginally more activity (P = 0.09) during menses than during the luteal phase.

118 For the 24 months surrounding the final menses, the risk for onset of depression was 14 times as

119 ed at 7, 14, and 21 days after initiation of menses, to compare virus levels during the follicular, o

120 Shedding declined after menses until ovulation, with a slope -0.054 log10 copies

121 individuals with SCD, sickle cell pain with menses was prevalent, and hormonal contraceptive use was

122 Postmenarcheal age (years since onset of menses) was positively correlated with total-body BMD an

123 FSW who engaged in sexual intercourse during menses were less likely to have M. genitalium infection

124 Irregular menses were more common in the estriol group than in the

125 cedure can expect to have a return of normal menses with no adverse effect on fertility.

126 nly in the subgroup of subjects who regained menses with weight recovery.

127 similar to those experienced by women during menses with withdrawal from endogenous steroids.

128 althy women aged 18 to 45 years with regular menses, with no history of mania or psychosis, with no a

129 usal with reduced ovarian reserve (n = 224) (menses within 12 months; AMH <20 pg/mL; group 2), or pos

130 were classified as premenopausal (n = 482) (menses within 12 months; AMH level >=20 pg/mL; group 1),

131 L; group 2), or postmenopausal (n = 743) (no menses within12 months; AMH <20 pg/mL; group 3).

132 midfollicular phase (days 4-8 after onset of menses) women anticipating uncertain rewards activated t