ライフサイエンスコーパス: embryo implantation

1 lix (bHLH) transcription factor required for embryo implantation.

2 g macrophages to enhance immune tolerance of embryo implantation.

3 specifically by the GE that is essential for embryo implantation.

4 l stromal-epithelial crosstalk, and disrupts embryo implantation.

5 s (ESFs) undergo decidualization to regulate embryo implantation.

6 ve capacity during receptivity and effect on embryo implantation.

7 t females specifically, suggesting a role in embryo implantation.

8 ages across species, which is independent of embryo implantation.

9 sitions to a pluripotent primed state during embryo implantation.

10 that promotes endometrial receptivity during embryo implantation.

11 ll proliferation in preparing the uterus for embryo implantation.

12 protease [MCP] 5) is crucial for successful embryo implantation.

13 nd post ICB exposure and prior to successful embryo implantation.

14 rtunity to investigate early stages of human embryo implantation.

15 he extent of functional redundancy following embryo implantation.

16 site poles-is a vital milestone during human embryo implantation.

17 pithelial cell proliferation, a key step for embryo implantation.

18 ers epithelial cell junction proteins during embryo implantation.

19 ion, from the very first days after tumor or embryo implantation.

20 or for effective IVF treatment is successful embryo implantation.

21 scular barrier function that is critical for embryo implantation.

22 tional programme can be partially reset upon embryo implantation.

23 female mice were infertile due to defective embryo implantation.

24 quate endometrial receptivity for support of embryo implantation.

25 ring development, also play crucial roles in embryo implantation.

26 microenvironment controls the progression of embryo implantation.

27 rturbed uterine fluid handling and abolished embryo implantation.

28 ng trophoblast giant (TG) cells required for embryo implantation.

29 e AVE, was recently found to initiate before embryo implantation.

30 ation and differentiation in preparation for embryo implantation.

31 e uterine epithelium and stroma required for embryo implantation.

32 Every successful pregnancy requires proper embryo implantation.

33 the creation of an environment conducive to embryo implantation.

34 vascular communication and stabilization of embryo implantation.

35 mice, body weight, retinal hyperplasia, and embryo implantation.

36 with infertility due to suspected failure of embryo implantation.

37 itial attachment during the process of human embryo implantation.

38 ect the cellular functions of trophoblast in embryo implantation.

39 plex and thus are involved in the process of embryo implantation.

40 is correlated with uterine refractoriness to embryo implantation.

41 mplantation sites, and lowest at the site of embryo implantation.

42 that disappears as UEC become receptive for embryo implantation.

43 ACVR2A and that ACVR2B is dispensable during embryo implantation.

44 modeling occurring between fertilization and embryo implantation.

45 4) responses, leading to complete failure of embryo implantation.

46 ty due to defects in uterine receptivity and embryo implantation.

47 gy to monitor transcriptional changes around embryo implantation.

48 receptive uterine endometrium is crucial for embryo implantation.

49 flammatory response essential for sustaining embryo implantation.

50 tcomes: (1) technical, (2) menstruation, (3) embryo implantation, (4) pregnancy, (5) delivery, (6) gr

51 was shown to contribute to an early block in embryo implantation, a phenotype not shared by SRC-1 or

52 Failure of embryo implantation accounts for a significant percentag

53 urs during uterine decidualization following embryo implantation, although the developmental mechanis

54 estive evidence for increased risk of failed embryo implantation among women reporting current second

55 oper postnatal uterine development, but also embryo implantation and decidualization.

56 In many mammals, including humans, embryo implantation and early pregnancy events take plac

57 Here, we examine the evolutionary context of embryo implantation and elaborate on uterine remodelling

58 cyclin A2 (CCNA2) as a factor in supporting embryo implantation and embryo development.

59 daptation to hypoxia, which is essential for embryo implantation and establishment of pregnancy.

60 odel provides a foundation for investigating embryo implantation and feto-maternal interactions, offe

61 f the molecular mechanisms surrounding human embryo implantation and gastrulation is lacking, largely

62 iopsy) is a technique proposed to facilitate embryo implantation and increase the probability of preg

63 y increases E(2) sensitivity, which disrupts embryo implantation and inhibits P(4)-regulated genes an

64 During embryo implantation and initiation of pregnancy, uterine

65 rom the zona pellucida is a prerequisite for embryo implantation and is less likely to occur in vitro

66 ired apicobasal transformation that prevents embryo implantation and leads to infertility.

67 res the human endometrium for receptivity to embryo implantation and maintains pregnancy.

68 blasts through the uterine epithelium during embryo implantation and nidation in hemochorial placenta

69 Decidual immune cells facilitate embryo implantation and placenta development.

70 ogen and progesterone prepare the uterus for embryo implantation and placental development.

71 ia (luminal and glandular) are essential for embryo implantation and pregnancy establishment.

72 , within the endometrium underlie successful embryo implantation and pregnancy establishment.

73 ve metabolite of vitamin A, are required for embryo implantation and pregnancy success.

74 operate in the hypoxic uterus to facilitate embryo implantation and promote the successful establish

75 regnancy is a critical event, and failure of embryo implantation and stromal decidualization in the u

76 ed female mice subfertile due to a defect in embryo implantation and subsequent defects in endometria

77 LIF in Pgr conditional knockout mice rescued embryo implantation and supported successful pregnancy t

78 riptome networks for uterine receptivity for embryo implantation and the pathogenesis of endometriosi

79 y decidual reaction, rendering it poised for embryo implantation and transformation into the decidua

80 These changes appeared early after embryo implantation and were mirrored in uncomplicated l

81 es estrogen and progesterone are pivotal for embryo implantation and, ultimately, for a successful pr

82 cells are essential for immune tolerance of embryo implantation, and insufficient Treg cells provoke

83 in the uterus are infertile due to defective embryo implantation arising from a lack of leukemia inhi

84 (f/f) ) mice are infertile due to defective embryo implantation arising from a lack of LIF, a critic

85 Macrophage depletion after conception caused embryo implantation arrest associated with diminished pl

86 In man and some animals regulation of embryo implantation by endometrial expression of the hig

87 15 (KLF15), which regulate key steps during embryo implantation, cooperate to stimulate productive i

88 that Notch signaling plays multiple roles in embryo implantation, decidualization, and postpartum rep

89 hereas attenuation of RA/RAR signaling after embryo implantation disrupts the post-implantation decid

90 have a genetic susceptibility to failure of embryo implantation due to small MUC 1 allele size.

91 rocesses similar to the EMTs associated with embryo implantation, embryogenesis, and organ developmen

92 m early cleavage stages and persisting after embryo implantation, establishing a link between nuclear

93 al receptivity is one of the major causes of embryo implantation failure and infertility.

94 In experimental animals, BPA increases embryo implantation failure and reduces litter size.

95 Embryo implantation failure and spontaneous abortions re

96 A nonreceptive uterus is a major cause of embryo implantation failure.

97 This resulted in embryo implantation failure.

98 ge safeguards fetal development by mediating embryo implantation, immune tolerance, nutritional suppl

99 nodes and activated in the first days after embryo implantation in both syngeneic and allogeneic mat

100 a protein has been shown to be necessary for embryo implantation in ferrets.

101 Embryo implantation in humans is interstitial, meaning t

102 F) expression in the uterus is essential for embryo implantation in mice.

103 ted that COX-2-derived prostacyclin promotes embryo implantation in the mouse uterus via activation o

104 transformation of the uterine stroma during embryo implantation in the mouse was investigated by the

105 mia inhibitory factor (LIF) is essential for embryo implantation in the mouse.

106 Embryo implantation in the uterus is a critical step in

107 traperitoneal injections of LIF can initiate embryo implantation in the uterus of adult FOXA2 cKO mic

108 compromised resulting in complete absence of embryo implantation in uteri lacking both receptors.

109 more, PAPPA blockage with antibody inhibited embryo implantation in vivo, mouse embryo adhesion and s

110 Embryo implantation induces formation of the decidua, a

111 Embryo implantation into the uterus marks a key transiti

112 Embryo implantation is a critical event in the establish

113 Uterine receptivity to embryo implantation is coordinately regulated by 17beta-

114 Proper embryo implantation is necessary for a successful pregna

115 zation, a process that occurs in response to embryo implantation, is critical for embryonic survival

116 tion, reduces cell proliferation and impairs embryo implantation, is developmentally essential.

117 ivity in cycling endometrium interferes with embryo implantation, leading to infertility, or predispo

118 onclusion, increased MFGE8 secretion in this embryo implantation model can serve as an indicator of E

119 netic models, genes associated with aberrant embryo implantation phenotypes were observed, mostly in

120 ns, like mice, may have a role in regulating embryo implantation, possibly through an autocrine/parac

121 Embryo implantation relies on precise hormonal regulatio

122 Successful embryo implantation relies on synchronized dialog betwee

123 Embryo implantation remains a significant challenge for

124 Embryo implantation requires a hospitable uterine enviro

125 Successful embryo implantation requires complex interactions betwee

126 Embryo implantation requires that the uterus differentia

127 Attenuation of RA/RAR signaling prior to embryo implantation results in implantation failure, whe

128 tures within the heterogeneous cell types of embryo implantation sites on day 8 of pregnancy.

129 e recruited in high numbers to the mammalian embryo implantation sites, yet remain pregnancy compatib

130 l-permeable Stat3 peptide inhibitor, reduced embryo implantation specifically by 70% (P < 0.001).

131 hment; however, convenient methods to screen embryo implantation success and maternal uterine respons

132 A complete cycle from BAC choice to embryo implantation takes about 5 weeks.

133 n the uterus and its draining lymph nodes at embryo implantation that was sustained into midgestation

134 During embryo implantation, the blastocyst interacts with and r

135 ately regulates ovulation, fertilisation and embryo implantation through tissue-specific actions, but

136 proper TE development, leading to failure in embryo implantation to the uterus.

137 sitivity to determine uterine receptivity to embryo implantation under normal physiological condition