1 Lactational amenorrhea (LA) is associated with postpartu
2 nd dramatically increased differentiation to
lactational and epidermal cell fates.
3 found between the estrogen- and sham-treated
lactational animals, P < 0.02.
4 hin expanded benign ducts in a background of
lactational change, without evidence of malignancy.
5 heless, the mammary gland is able to develop
lactational competence in MMP mutant mice.
6 explored whether transgenic females display
lactational defects.
7 The hormone prolactin promotes
lactational differentiation of mammary epithelial cells
8 mouse mammary cells undergo ErbB4-dependent
lactational differentiation.
9 1 and are required for STAT5a activation and
lactational differentiation.
10 All immune alterations due to CsA
lactational exposure in the pups were back to control le
11 Lactational exposure to polybrominated diphenyl ethers a
12 to nursing mothers to examine the effect of
lactational exposure via milk demonstrated prominent ind
13 mpart adverse effects during gestational and
lactational exposure.
14 acilli can be an efficient approach to treat
lactational infectious mastitis.
15 Post-
lactational involution of the mammary gland is character
16 ribe the activation of NF-kappaB during post-
lactational involution of the mouse mammary gland, a per
17 ng late pregnancy, we found that during post-
lactational involution, mammary glands from transgenic m
18 At 3 days post
lactational involution, the mammary glands of Snai2-defi
19 ry epithelium to progesterone during mammary
lactational morphogenesis, and in mouse models, manipula
20 tness in the reproductive period may inhibit
lactational performance in women.
21 e during lactation does not lead to impaired
lactational performance or to exaggerated bone loss.
22 have deleterious effects on reproductive and
lactational performance, and on the long-term health of
23 mary gland development, primarily during the
lactational phase.
24 eltaIC protein expression and the absence of
lactational products within the lumens of ErbB2deltaIC s
25 he epithelial cells of the gland during post-
lactational regression.
26 ot undergo programmed cell death during post-
lactational remodeling of the gland.
27 f copper and ceruloplasmin in milk vary with
lactational stage.
28 monstrates that neonatal exposure to CsA via
lactational transfer can cause significant alterations i
29 n breast milk has been documented, but their
lactational transfer has been rarely studied.
30 al T-cell maturation and proliferation after
lactational transfer of CsA in an animal model.
31 We conclude that
lactational transfer of immunity can cross MHC class I b
32 In this study, we investigated
lactational transfer of immunity to Mycobacterium tuberc
33 plasma, and breast milk to better understand
lactational transfer of lead from blood and plasma into
34 Yet
lactational transfer of lead from maternal blood into br
35 We have previously demonstrated
lactational transfer of T cell-based immunity from dam t
36 rimiparous females, likely due to the annual
lactational transfer of the POP burden from mother to pu
37 contaminant exposures, risks associated with
lactational transfer of toxicants to the infant must be
38 Using immunized C57BL/6J dams,
lactational transfer to nonimmunized BALB/cJ foster pups
39 l) and in exposed dams and pups (gestational/
lactational)
were within levels found in humans.