ライフサイエンスコーパス: hard palate

1 n the osteogenic patterning of the posterior hard palate.

2 the maxillary and mandibular gingiva and the hard palate.

3 d to a distinct adult tissue type resembling hard palate.

4 isional wounds were created in the scalp and hard palate.

5 o incomplete clefting within the presumptive hard palate.

6 ifically addressing the morphometrics of the hard palate.

7 rogressively enlarging ulcerated mass on the hard palate.

8 sgenesis and bilateral cleft of the soft and hard palate.

9 considerations linking psoriatic plaques to hard palate, a novel metaplastic model is presented.

10 d to derive discriminant equations using the hard palate and assess their applicability for sexing pa

11 e oral cavity, masticatory mucosa covers the hard palate and gingiva.

12 th retarded anteroposterior extension of the hard palate and precocious mid-line fusion.

13 had fewer lymphatics in the nasal mucosa and hard palate and reduced CSF outflow to cervical lymph no

14 nail pigmentation, blue pigmentation on the hard palate, and black pigment deposits on the conjuctiv

15 trinsically coupled to the elongation of the hard palate, and is critical for modulating the growth o

16 ings such as throat, tonsils, tongue dorsum, hard palate, and saliva.

17 applied in the oral cavity, identifying the hard palate as the preferred application site.

18 ular etiology of cleft lip and clefts of the hard palate, but study of the underlying etiology of sof

19 lesions (four on the gingiva and two on the hard palate), clinically identical to the previously dis

20 terms of relative tissue composition in the hard palate, DE-harvested CTG contains much larger amoun

21 y distinct pathways from those implicated in hard palate development.

22 ns in all four gingival quadrants and on the hard palate (eight on the gingiva and six on the palate)

23 c analysis demonstrate the usefulness of the hard palate for sex estimation in the contemporary Korea

24 , facial dysmorphology, and a mild defect in hard palate formation.

25 derived from three-dimensional models of the hard palate, generated using computed tomography scans o

26 tion using OMG alone and OMG combined with a hard palate graft, respectively.

27 id muscles compresses the tongue between the hard palate, hyoid and mouth floor, squeezing the midlin

28 delayed, resulting in submucous cleft of the hard palate in the mutant mice.

29 what is believed to be the initial report of hard-palate infection caused by Blastomyces dermatitidis

30 shortening of the snout and widening of the hard palate is common to brachycephalic dogs and is a we

31 .7 +/- 0.6 versus 6.2 +/- 0.4 cm, p < 0.05), hard palate length (3.2 +/- 0.4 versus 3.7 +/- 0.2 cm, p

32 In the anterior aspect of the hard palate, long papillae within the lamina propria and

33 l periorbital, olfactory, nasopharyngeal and hard palate lymphatics, and then through smooth muscle-c

34 egion, 5 mm from the gingival margin, on the hard palate of human subjects.

35 implants were transmucosally placed into rat hard palate or alveolar ridge.

36 reduction in bone formation in the posterior hard palate, resulting in the classic notch associated w

37 sitions: buccal mucosa, keratinized gingiva, hard palate; saliva, tongue, tonsils, throat; sub- and s

38 sexual dimorphism in the mean comparison of hard palate sizes between Korean males and females, with

39 ion, accompanied by keratin 16 expression in hard palate, thereby resembling plaques.

40 olume and fat content were assessed from the hard palate to the vocal cords using T1-weighted images.

41 ramembranous bone formation in the posterior hard palate, which underpins normal palate development a

42 study, we describe and characterize a human hard palate wound healing model.

43 ary, we comprehensively characterize a human hard palate wound-healing model that details the dynamic