ライフサイエンスコーパス: orthodontic

1 otomy techniques for corticotomy-facilitated orthodontics.

2 d to as periodontally accelerated osteogenic orthodontics.

3 Both eruption and orthodontics accomplish this feat through similar fundam

4 vo antimicrobial efficacy of QAMS-containing orthodontic acrylic by using custom-made removable retai

5 We believe that a combined orthodontic and periodontal regenerative combination the

6 This case report demonstrates orthodontic and regenerative combined therapy in a 49-ye

7 The combined use of orthodontics and orthognathic surgery also has been adap

8 Periodontal, orthodontic, and prosthodontic treatment are often requi

9 y, otolaryngology, oromaxillofacial surgery, orthodontics, anesthesia, and genetics as well as specia

10 The treatment with a maxillary fixed orthodontic appliance was finished after obtaining a sat

11 elped clarify the interrelationships between orthodontic appliances and periodontal disease.

12 White-spot lesions (WSL) associated with orthodontic appliances are a cosmetic problem and increa

13 teeth were treated with straight-wire fixed orthodontic appliances for two weeks, and comparisons we

14 to completion of tooth alignment with fixed orthodontic appliances.

15 of tooth eruption or by strains generated by orthodontic appliances.

16 Limited orthodontics are shown to be effective in the correction

17 Optimum stresses for a favorable response to orthodontics are still unknown.

18 nd periodontal health, namely the effects of orthodontic banded attachments on periodontal disease an

19 turally less demanding applications, such as orthodontic brackets.

20 otherwise be unmanageable with conventional orthodontic care.

21 Novel rechargeable orthodontic cement containing ACP was developed with a h

22 The recharged orthodontic cement could release CaP ions continuously f

23 ACP incorporation into the novel orthodontic cement did not adversely affect the bracket-

24 on release and re-release from the novel ACP orthodontic cement indicated favorable release and re-re

25 Experimental orthodontic cements were developed using pyromellitic gl

26 Orthodontic cephalometric analysis showed that patients

27 trial (RCT) comparing IO with comprehensive orthodontics (CO) in Medicaid patients.

28 to compare the clinical efficacy of limited orthodontics combined with EMD/DFDBA in the treatment of

29 use of CBCT imaging assessing the impact of orthodontic/dentofacial orthopedic treatment on periodon

30 tric tracing is a standard analysis tool for orthodontic diagnosis and treatment planning.

31 t of bone age comprises the basic element of orthodontic diagnostics as it enables the recognition of

32 odontal ligament (PDL) stresses over time in orthodontic external root resorption (OERR), necrosis, a

33 ecades, the tooth mortality risks (excluding orthodontic extractions) were: 1st decade, 2.0% (from 1.

34 be used in some cases to replace traditional orthodontic extraoral appliances.

35 Eight weeks after initial surgery, orthodontic extrusion was initiated.

36 EMD and DFDBA 4 weeks before application of orthodontic extrusive forces.

37 d face-S1 at days 1, 7, and 28 of continuous orthodontic force application, and in the number of site

38 f angiogenic changes could be detected after orthodontic force application.

39 es in the response of periodontal tissues to orthodontic force in the presence of obesity have potent

40 The pulpal response to orthodontic force is thought to involve cell damage, inf

41 for CMD, showed that molars can be moved by orthodontic force without ankylosis, however, at a slowe

42 4) Appropriately applied orthodontic forces do not cause permanent damage to a he

43 to limit local tooth movement in response to orthodontic forces.

44 e surge in OHRQoL research in pediatrics and orthodontics in recent years.

45 4) Does orthodontic intervention affect soft tissue health and d

46 pilla recession by restorative/prosthetic or orthodontic intervention and to confirm this possibility

47 ng public insurance programs on interceptive orthodontics (IO) may increase access for low-income chi

48 astogenesis and osteogenesis in eruption and orthodontics is not only central to our understanding of

49 resent study aims to evaluate the effects of orthodontic movement (OM) on the periodontal tissues of

50 ients with CMD and evaluated consequences of orthodontic movement in a mouse model carrying a CMD kno

51 ession, and in conjunction with restorative, orthodontic, or prosthetic dentistry.

52 effect of supplemental vibrational force on orthodontic pain during alignment with fixed-appliances.

53 rational device had no significant effect on orthodontic pain or analgesia consumption during initial

54 nship of the clinical crowns of teeth, in an orthodontic population, we can begin to quantify their n

55 tation bone grafting offsets the concerns of orthodontic proclination or expanding mandibular incisor

56 ging 2- or 3-wall infrabony defects, limited orthodontics provided an additional benefit to EMD/DFDBA

57 Forty-five (45) premolars extracted for orthodontic reasons were randomly divided into 3 groups

58 Teeth extracted for orthodontic reasons were subjected to ex vivo scaling an

59 extracted from patients (ages 12 to 14) for orthodontic reasons were used for all experiments.

60 P tissue of premolars (n = 3) extracted for orthodontic reasons.

61 For each subject, video orthodontic records, a questionnaire, a fact sheet, and

62 This case report demonstrates that orthodontic-regenerative combined therapy can resolve co

63 re inserted into the wells on one side of an orthodontic retainer, and two experimental QAMS-containi

64 clinical impact requiring surgical, dental, orthodontic, speech, hearing and psychological treatment

65 p65*(536) is produced rapidly in response to orthodontic stimuli and mechanical insults, and may be i

66 *(536) 3 and 12 hrs after the application of orthodontic stimuli in rats.

67 s review highlights critical developments in orthodontic techniques and microbiological advances whic

68 The controversies surrounding early orthodontic therapy and mercury-containing amalgam filli

69 Individuals undergoing orthodontic therapy and those who had oral piercing were

70 Orthodontic therapy combined with alveolar decortication

71 the gingival margin during or subsequent to orthodontic therapy may occur as either pseudorecession

72 ning risk assessment for patients undergoing orthodontic therapy using fixed or removable appliances.

73 ctor of positive changes in BT, and previous orthodontic therapy was a protective factor against deve

74 nd in a 14-year-old female undergoing active orthodontic therapy.

75 in six teeth, each requiring extraction for orthodontic therapy.

76 of supplemental vibrational force on rate of orthodontic tooth alignment with fixed appliances.

77 Orthodontic tooth movement (OTM) causes transient pain a

78 We tested whether orthodontic tooth movement (OTM) could be blocked by loc

79 anted next to the maxillary molars inhibited orthodontic tooth movement (p < 0.01).

80 BE reduced the amount of orthodontic tooth movement achieved in rats after 28 day

81 nism between force as applied to bone during orthodontic tooth movement and bone remodeling.

82 ding alveolar bone alterations influenced by orthodontic tooth movement and can help determine risk a

83 This study shows that orthodontic tooth movement can be inhibited with the use

84 erdisciplinary dentofacial therapy involving orthodontic tooth movement in the management of malocclu

85 ar bone surrounding natural teeth undergoing orthodontic tooth movement or influenced by orthopedic f

86 We used a rat model of orthodontic tooth movement to test the hypothesis that p

87 Orthodontic tooth movement was inhibited by local delive

88 rs may be useful for experimentally limiting orthodontic tooth movement, a process involving perturba

89 sed to mechanical stress during mastication, orthodontic tooth movement, and wound healing following

90 During orthodontic tooth movement, mechanical forces acting on

91 tained primary teeth, ankylosis, and/or slow orthodontic tooth movement, suggesting altered mineral m

92 e associated with mastication, eruption, and orthodontic tooth movement-does the tissue increase its

93 mentation) therapies for patients undergoing orthodontic tooth movement.

94 was to investigate the effect of obesity on orthodontic tooth movement.

95 /dentin regeneration, and root resorption in orthodontic tooth movement.

96 disintegrin and metalloprotease domain; OTM, orthodontic tooth movement.

97 the responses of alveolar bone cells during orthodontic tooth movement.

98 important in bone remodeling associated with orthodontic tooth movement.

99 Osteoclasts play a vital role in orthodontic tooth movement.

100 bial to the mandibular incisors after active orthodontic treatment (AOT) with and without alveolar co

101 Some authors have reported that after orthodontic treatment (OT), a "gummy smile" might develo

102 This review examines specific aspects of orthodontic treatment and periodontal health, namely the

103 are placed to control tooth movement during orthodontic treatment and removed when the treatment is

104 o diagnose the patient correctly and to plan orthodontic treatment appropriately.

105 External apical root resorption during orthodontic treatment implicates specific molecular path

106 Why does the orthodontist want to initiate orthodontic treatment in a 7-year-old child?

107 ns may interact with the periodontium and/or orthodontic treatment is indicated.

108 al apical root resorption (EARR) is a common orthodontic treatment sequela.

109 cal measures of occlusal characteristics and orthodontic treatment was estimated for over 7,000 sampl

110 iodontal health of 81 adolescents undergoing orthodontic treatment with fixed appliances, to determin

111 atterns as compared to patients submitted to orthodontic treatment with rapid maxillary expansion and

112 ted possible linkage of EARR associated with orthodontic treatment with the TNSALP, TNFalpha, and TNF

113 equiring extraction of four premolars before orthodontic treatment, were enrolled in a randomized, op

114 18-50, as well as 18% of children, have had orthodontic treatment.

115 ked whether the individual had ever received orthodontic treatment.

116 lf are predisposed to root resorption during orthodontic treatment.

117 nificantly improve the clinical work flow in orthodontic treatment.

118 its significance for conducting appropriate orthodontic treatment.

119 red with normal-weight patients during early orthodontic treatment.

120 nsideration in periodontal, restorative, and orthodontic treatment.

121 L/The study involved 150 patients who sought orthodontic treatment.

122 he presence of WSL in adolescents undergoing orthodontic treatment.

123 as appropriate resources for this segment of orthodontic treatment.

124 l of 79 siblings who completed comprehensive orthodontic treatment.

125 r and canine class relationship; 3) previous orthodontic treatment; 4) gingival recession; and 5) ban

126 demineralization are major complications for orthodontic treatments.