ライフサイエンスコーパス: limbal epithelial cell

1 accounted for an average of 40% of the total limbal epithelial cells.

2 proliferation, and intrastromal invasion by limbal epithelial cells.

3 tion of eyes retained morphologically normal limbal epithelial cells.

4 nces in glycogen content between corneal and limbal epithelial cells.

5 Corneal, conjunctival, and limbal epithelial cells all demonstrated susceptibility

6 superior in vitro proliferative potential of limbal epithelial cells, and the transplanted limbal cel

7 soft lithography and observed human corneal limbal epithelial cell behavior.

8 ficiency, we developed cultivated autologous limbal epithelial cells (CALEC) using an innovative xeno

9 ring process utilizing cultivated autologous limbal epithelial cells (CALEC), the first xenobiotic-fr

10 stem cell deficiency (LSCD) with cultivated limbal epithelial cells (CLEC) from other countries, we

11 iated corneal epithelial cells, and SSEA4(-) limbal epithelial cells contain a higher proportion of l

12 the proliferation of stem/eTA cell-enriched limbal epithelial cells, contributing to expansion of th

13 Human donor cornea, cultured limbal epithelial cells, corneal rims and lenticules wer

14 In human limbal epithelial cell cultures, IFITM1 positively impac

15 t of these topographical features on corneal limbal epithelial cell differentiation has not been expl

16 assess the safety and toxicity of cultivated limbal epithelial cells for human trials.

17 cently, ex vivo cultivation and expansion of limbal epithelial cells has been performed utilizing AM

18 , as well as from immortalized human corneal-limbal epithelial cell (HCLE) cultures.

19 Human limbal epithelial cells (HLE) and corneal stromal stem c

20 Detection of morphologically limbal epithelial cells in eyes clinically graded as sta

21 /beta-catenin pathway influences the fate of limbal epithelial cells, likely to be progenitor cells,

22 An immortalized human corneal-limbal epithelial cell line (HCLE) expressing the same M

23 A recombinant human corneal limbal epithelial cell line expressing a LC3-GFP fusion

24 An immortalized human corneal limbal epithelial cell line was treated in the presence

25 The limbal epithelial cells of FIH-1 null mice had an increa

26 mmunostaining with mAb HE1/11F, however, the limbal epithelial cells stained weakly.

27 Primary cultures of pig limbal epithelial cells stained with Hoechst 33342 were

28 In the control, most expansion of human limbal epithelial cells started from the limbus from day

29 with limbal stem cell deficiency, cultivated limbal epithelial cell transplantation improves vision a

30 sments of the clinical outcome of cultivated limbal epithelial cell transplantation.

31 ria to the autologous modality of cultivated limbal epithelial cell transplantation.

32 and reports involving autologous cultivated limbal epithelial cell transplantation.

33 Allogeneic cultivated limbal epithelial cell transplantations were reported on

34 ained from a healthy area of the limbus, the limbal epithelial cells were cultured on a denuded human

35 thelial cells and immortalized human corneal limbal epithelial cells were cultured on the SF and denu

36 greatest number of Ki67-positive corneal and limbal epithelial cells were present at days 13 to 19, a

37 Primary cultured limbal epithelial cells were transfected with hsa-miR-14

38 Primary cultured limbal epithelial cells were treated with either 10 micr

39 We have observed that limbal epithelial cells, when removed from their niche a

40 Despite this, clusters of limbal epithelial cells with normal morphology were dete