ライフサイエンスコーパス: tooth root

1 e, aiding in the location of deposits on the tooth root.

2 radiolucency in the coronal one-third of the tooth roots.

3 e (LRAP), in the periodontal region of mouse tooth roots.

4 ectively inhibit dental caries in enamel and tooth roots.

5 om dental cementum present on the surface of tooth roots.

6 projects ascending branches directly through tooth roots [5, 6], bone trabeculae [6], or bone canalic

7 The tooth root and periodontal apparatus, including the acel

8 The same principles may also apply to the tooth root and some reports have shown that surface modi

9 t support formation of the highly functional tooth root and the periodontal attachment apparatus, whi

10 s Nfic-deficient mice have agenesis of molar tooth roots and severe incisor defects.

11 No significant increase in tooth root ankylosis was found among the treatment group

12 enerate a vital dental pulp-like tissue in a tooth root canal system and are therefore promising for

13 ation of structurally/functionally competent tooth root cementum is a critical step for the successfu

14 t after three- and five-month implantations, tooth roots containing 3D scaffoldless engineered tissue

15 l regeneration coupled with the provision of tooth root coverage.

16 Modulation of Hh signaling rescues the tooth root defects in these mice.

17 presenting severe oligodontia, microdontia, tooth root deficiencies, alveolar bone hypoplasia, and a

18 fy mechanisms involved in HPP-associated PDL/tooth root deficiencies.

19 ation of subgingival caries, root fractures, tooth root deposits, post perforations, and open restora

20 In this study, we used tooth root development as a model with which to investig

21 Tooth root development begins after the completion of cr

22 Here, we investigated how Wnt10a affects tooth root development by generating different tissue-sp

23 systems, including the developing tooth, the tooth root development defects were the prominent phenot

24 Here, we use tooth root development in mouse as a model to investigat

25 h size (decreased root/crown ratio), delayed tooth root development, widened PDL space, and interradi

26 ght into the molecular mechanisms regulating tooth root development.

27 nd apical papilla (AP) is crucial for proper tooth root development.

28 er, the network of HERS cells is crucial for tooth root development.

29 on programs via AKT1-mTORC1 signaling during tooth root development.

30 is expressed in the progenitor cells during tooth root development.

31 d in the dental papilla at the initiation of tooth root development.

32 naling pathway and Nfic are both involved in tooth root development; however, their relationship has

33 fections, leading to pulp necrosis, arrested tooth-root development and tooth loss.

34 Thus, apical revascularization facilitates tooth-root development but lacks consistency in promotin

35 Post-operative tooth-root development in immature permanent teeth repre

36 ed in the fossil record, the significance of tooth root division in mammaliaforms remains enigmatic.

37 n rare instances, a GCA lesion may result in tooth-root exposure.

38 The tooth root fenestration preclinical model is an ideal to

39 s in our sample displayed a space around the tooth roots for a soft tissue attachment between tooth a

40 re transiently activated during the onset of tooth root formation and alveolar bone formation.

41 st mutation described that affects primarily tooth root formation and should greatly aid our understa

42 populations that regulate tooth eruption and tooth root formation are beginning to be unraveled.

43 the critical gaps in our understanding about tooth root formation but will aid future research regard

44 evelops from the dental follicle (DF) during tooth root formation due to deliberate epithelial-mesenc

45 Here, we report a developmental study of tooth root formation in Hyp mouse molars, focusing on de

46 nation of ank mutant mice at earlier ages of tooth root formation indicated that this striking observ

47 Tooth root formation is driven by cells in the apical pa

48 ver, how AP cells physiologically coordinate tooth root formation remains undefined.

49 dental mesenchymal progenitor cells driving tooth root formation with substantial plasticity.

50 tal mesenchymal progenitors is essential for tooth root formation, underscoring importance of the PTH

51 s Cre transgenic mouse lines used to achieve tooth root formation-related gene deletion or overexpres

52 uter world, and it occurs concomitantly with tooth root formation.

53 t and NFIC-independent signaling pathways in tooth root formation.

54 cellular and molecular mechanisms underlying tooth root formation.

55 role of Hertwig's epithelial root sheath in tooth root formation.

56 ate that Osx is a site-specific regulator in tooth root formation.

57 P under hypoxic environments at the onset of tooth root formation.

58 mentum, a mineralized tissue covering apical tooth roots, grows by apposition to maintain the tooth i

59 These new insights into tooth root growth now provide an additional line of enqu

60 ts perceived ability to enable postoperative tooth-root growth, is being accepted worldwide.

61 The tooth root is a critical component of the tooth anchored

62 The tooth root is an integral, functionally important part o

63 entration of endogenous DNA, the cementum of tooth roots is often targeted for ancient DNA sampling,

64 explored the relationship between growth in tooth root length and the modern human extended period o

65 Growth in tooth root length occurs with a characteristic spurt or

66 Tooth-root lengths lacked significant postoperative gain

67 ion of the periodontal attachment apparatus, tooth root malformation, and failure of tooth eruption i

68 lenging and in turn may deleteriously affect tooth root maturation.

69 nism of the FGF-SHH signaling cascade during tooth root morphogenesis.

70 pander (C-expander) can fail if they contact tooth roots or perforate the maxillary sinus.

71 Tooth roots provide support to counter chewing forces an

72 connective tissue graft procedures to treat tooth root recession.

73 ar, fibrous tissue throughout, whereas empty tooth roots remained predominantly empty.

74 cervical root resorption (MICRR), a form of tooth root resorption mediated by increased osteoclast a

75 ment detachment, extensive alveolar bone and tooth root resorption, and incisor malocclusion.

76 e had been assessed through sparse data from tooth roots revealed through broken jawbones and disatta

77 us defects were thoroughly debrided, and the tooth root(s) were planed/prepared.

78 de aggregate was used to seal one end of the tooth root segment, while the other was left open.

79 e methods to regenerate pulp-like tissues in tooth root segments (RSs).

80 es were placed into the canal space of human tooth root segments that were capped on one end with cal

81 egarding the identifying factors controlling tooth root size and the generation of a whole "bio-tooth

82 eroids were inserted into the canal space of tooth-root slices and were implanted subcutaneously into

83 revealed that, after four-week implantation, tooth-root slices containing microtissue spheroids resul

84 ining indicated that the tissue found in the tooth-root slices was of human origin, as characterized

85 lular pulp-like tissues, compared with empty tooth-root slices, which were filled with only subcutane

86 ization and magnification of the subgingival tooth root surface, aiding in the location of deposits o

87 Cementum, a mineralized tissue lining the tooth root surface, is destroyed during the inflammatory

88 of cementum, a mineralized tissue lining the tooth root surface, is required for development of a fun

89 elivery of growth-promoting molecules to the tooth root surface.

90 healing and/or regeneration when applied to tooth root surfaces in soft tissue dehiscence models.

91 Damage to tooth root surfaces may occur during ultrasonic cleaning

92 isolated tooth agenesis, microdontia, short tooth roots, taurodontism, sparse and slow-growing hair,

93 nt in cementum, the hard tissue covering the tooth root that anchors periodontal ligament (PDL) attac

94 ementum is a mineralized tissue covering the tooth root that functions in tooth attachment and poster

95 rve endings that connect the cementum of the tooth root to alveolar bone and are vital for dental pro

96 otential of laser pre-treatment of enamel or tooth roots to inhibit subsequent acid-induced dissoluti

97 flap reflection and initial debridement, the tooth roots were notched at the apical extent of the cal

98 cal mesenchyme and guides development of the tooth root, which is integral to the function of the who