ライフサイエンスコーパス: squamous metaplasia

1 -rich protein 1B (SPRR1B) is a biomarker for squamous metaplasia.

2 ice showed extensive fibrosis, necrosis, and squamous metaplasia.

3 ntaining normal epithelium, hyperplasia, and squamous metaplasia.

4 for the study of the molecular mechanisms of squamous metaplasia.

5 ne the role of inflammation as an inducer of squamous metaplasia.

6 in cell size, decrease in cell density, and squamous metaplasia.

7 asia and female mice developing keratinizing squamous metaplasia.

8 ion of mammalian epidermis and occurs during squamous metaplasia.

9 in cell size, decrease in cell density, and squamous metaplasia.

10 This pathological process is known as squamous metaplasia.

11 thogenesis of immune-mediated ocular surface squamous metaplasia.

12 iation and a transdifferentiation process to squamous metaplasias.

13 ression from basal cell hyperplasia (17%) to squamous metaplasia (24%) to carcinoma in situ (50%) les

14 ths of age, had uterine neoplasms comprising squamous metaplasia, adenofibroma and adenomyoma.

15 at was associated with changes indicative of squamous metaplasia and fluid accumulation in the alveol

16 been implicated in the development of airway squamous metaplasia and is frequently overexpressed in s

17 derian, and mammary glands induced extensive squamous metaplasia and keratinization associated with t

18 ion was morphologically abnormal, exhibiting squamous metaplasia and mild to moderate atypia.

19 ations substantially inhibited smoke-induced squamous metaplasia and PCNA expression in the lungs of

20 ulation role for IL-1 in the pathogenesis of squamous metaplasia and suggest that IL-1 receptor 1-tar

21 e survival and growth factor responsible for squamous metaplasia and tumorigenesis.

22 Extensive squamous metaplasias and widespread expression of CK1 an

23 ell hyperplasia, carcinoma in situ, and some squamous metaplasia) and the alveoli (type II cell hyper

24 models are strictly associated with atypical squamous metaplasia (ASM), which is believed to be the p

25 Extensive squamous metaplasia, but no adenocarcinomas, developed u

26 Wnt10b and Int2 transgenes also induced squamous metaplasias, but expression of CK1 and CK6 was

27 vascular sclerosis, goblet cell hyperplasia, squamous metaplasia, chronic inflammation, peribronchial

28 ng normal bronchial epithelium, hyperplasia, squamous metaplasia, dysplasias, squamous cell carcinoma

29 wing injury, bronchiolar cells undergo rapid squamous metaplasia, followed by proliferation and re-es

30 mozygous deletion of p16/p19 was observed in squamous metaplasia from bladder cancer patients (five o

31 ine glands and emergence of multiple foci of squamous metaplasia from individual stem-like glandular

32 er hand, p16/p19 deletions were not found in squamous metaplasias from non cancerous patients.

33 matoform autonomic dysfunction, and cervical squamous metaplasia (HPV-related).

34 carotenoids and the prevalence of bronchial squamous metaplasia in a sample of asbestos workers from

35 ated the role of IL-1 in the pathogenesis of squamous metaplasia in an animal model that mimics the c

36 s a definitive link between inflammation and squamous metaplasia in autoimmune-mediated dry eye disea

37 ays a pivotal role in promoting conjunctival squamous metaplasia in dry eye, and they provide insight

38 N)-gamma in the pathogenesis of conjunctival squamous metaplasia in dry eye.

39 Histological analysis showed extensive squamous metaplasia in late-stage mammary tumors of cont

40 urface interleukin (IL)-1beta expression and squamous metaplasia in patients with SS, we investigated

41 Wnt signaling pathway, in the development of squamous metaplasia in Smad4-null mammary glands.

42 not express Cdx2 and that contained areas of squamous metaplasia in the form of keratinizing stratifi

43 mooth muscle disorganization, and epithelial squamous metaplasia in the uterus; proliferative lesions

44 P63 was also essential for uterine squamous metaplasia induced by DES-exposure.

45 otential to revert the pathologic process of squamous metaplasia induced by dryness.

46 Notably, squamous metaplasias, intra-acinous hyperplasia and poss

47 Squamous metaplasia is a pathologic process that frequen

48 Squamous metaplasia is frequent and may include transdif

49 suggests that the transdifferentiation into squamous metaplasias is an early response of endoderm-de

50 ssion profiles of cases were consistent with squamous metaplasia (keratins, SPRR), proinflammatory cy

51 accelerated the development of keratinizing squamous metaplasia (KSM).

52 The squamous metaplasia model was successfully created by cu

53 Squamous metaplasia occurs in ocular surface diseases li

54 This squamous metaplasia of Pnn mutant corneal epithelium clo

55 port a novel paradigm for the development of squamous metaplasia of the airway epithelium and for dev

56 ly carcinogenesis of SCC of the bladder, and squamous metaplasia of the bladder cancer patient has al

57 Squamous metaplasia of the bronchial epithelium was incr

58 xternal eye diseases including pterygium and squamous metaplasia or carcinoma.

59 No squamous metaplasia or PCNA overexpression were found in

60 initiation of PIN-like lesions, but induces squamous metaplasia rather than tumorigenesis in secreto

61 Squamous metaplasia (SM) is common in smokers and is ass

62 rns in normal bronchial epithelium (n = 36), squamous metaplasia (SM; n = 28), and epithelial atypia

63 al cell (BC) and/or goblet cell hyperplasia, squamous metaplasia, structural and functional abnormali

64 We examined squamous metaplasia using a biomarker of keratinization,

65 n addition to the prostate, hyperplasias and squamous metaplasias were detected in epithelia of the e

66 L12 resulted in the epithelium defaulting to squamous metaplasia, which was derived solely from the r