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 periodontitis, periodontal regeneration, and orthodontics.

4 Both eruption and orthodontics accomplish this feat through similar fundam

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

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

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

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

9 dental adhesion; the significant progress in orthodontics and periodontal as well as oral and maxillo

10 or interest of this approach in the field of orthodontics and, more generally, in the field of automa

11 Periodontal, orthodontic, and prosthodontic treatment are often requi

12 ow, BSME, MSME, MBA, DDS, MS, Certificate in Orthodontics, and PhD, was a dental science futurist pur

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

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

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

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

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

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

19 to completion of tooth alignment with fixed orthodontic appliances.

20 gmentation in intraoral scans, essential for orthodontic applications, developers are leveraging inno

21 ompatible material specifically designed for orthodontic applications, with a focus on how temperatur

22 Periodontic-orthodontic approaches have gained increasing attention

23 Limited orthodontics are shown to be effective in the correction

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

25 anese patients who visited the Department of Orthodontics at our university hospital were retrospecti

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

27 turally less demanding applications, such as orthodontic brackets.

28 otherwise be unmanageable with conventional orthodontic care.

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

30 The recharged orthodontic cement could release CaP ions continuously f

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

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

33 Experimental orthodontic cements were developed using pyromellitic gl

34 Orthodontic cephalometric analysis showed that patients

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

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

37 teral cleft lip and palate (UCLP) undergoing orthodontic correction in comparison to patients without

38 ield) of the practitioner during a simulated orthodontic debanding procedure.

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

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

41 tal suture maturation stages is critical for orthodontic diagnosis, treatment planning, and the asses

42 ephalometric radiographs routinely taken for orthodontic diagnosis.

43 nts, as various radiographs are required for orthodontic diagnosis.

44 cation, marking a substantial advancement in orthodontic diagnostics and treatment planning.

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

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

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

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

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

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

51 Orthodontic fixtures provide conducive niche for microbi

52 Scanning electron microscopy on orthodontic fixtures revealed that DKG reduced microbial

53 maintaining oral health in individuals with orthodontic fixtures.

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

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

56 ces severe periodontal damage during applied orthodontic force in T1D untreated rats.

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

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

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

60 When orthodontic forces are applied to teeth, bone remodeling

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

62 control and a periodontal tissue response to orthodontic forces that was similar to that of normoglyc

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

64 a cFPM was valued equally to spontaneous or orthodontic gap closure.

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

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

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

68 eed among children is essential for planning orthodontic interventions in the mixed dentition stages

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

70 use of DBBM-C with piezosurgically enhanced orthodontics is effective and safe.

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

72 Periodontal and orthodontic measurements/indices were taken from 115 adu

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

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

75 sed on Index for preventive and interceptive orthodontic need (IPION).

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

77 Therefore, a satisfactory orthodontic outcome is accomplished, as demonstrated by

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

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

80 fety of periodontally accelerated osteogenic orthodontics (PAOO) with "Piezocision"-a minimally invas

81 Unstimulated whole mouth saliva from 16 orthodontic patients (10 males, 6 females, mean (SD) age

82 The radiographic data of 1020-orthodontic patients were interpreted to evaluate the ra

83 Testosterone, and 17beta-Estradiol levels of orthodontic patients with specific age groups.

84 incidental findings (IFs) can be detected in orthodontic patients, as various radiographs are require

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

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

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

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

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

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

91 ing bilateral premolar extraction because of orthodontic reasons, one premolar, chosen at random, was

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

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

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

95 There were 20 dental undergraduates and 20 orthodontic residents participating in UG and PG groups,

96 he drug delivery system comprises a reusable orthodontic retainer with a co-molded pocket into which

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

98 then examined NIM-811 effects in vivo using orthodontic rubber bands (ORBs) for 90 min of single hin

99 gival clefts (GCs) develop frequently during orthodontic space closure and may compromise the treatme

100 GC development is a frequent finding during orthodontic space closure and seems to occur more freque

101 his study assessed whether the time-point of orthodontic space closure initiation, after permanent to

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

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

104 *(536) 3 and 12 hrs after the application of orthodontic stimuli in rats.

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

106 -targeted key cells) are highly sensitive to orthodontic tension force and play a critical role in OT

107 ts receiving PhMT-b via corticotomy-assisted orthodontic therapy (CAOT) and simultaneous bone augment

108 bony defects in combination with consecutive orthodontic therapy (OT) in stage IV periodontitis.

109 hirds of the participants were interested in orthodontic therapy and indicated long-term healthy and

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

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

112 Orthodontic therapy combined with alveolar decortication

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

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

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

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

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

118 the outcomes of PhMT in patients undergoing orthodontic therapy.

119 tients with periodontitis were interested in orthodontics to improve tooth alignment.

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

121 Orthodontic tooth movement (OTM) causes transient pain a

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

123 tricalcium phosphate (beta-TCP) and evaluate orthodontic tooth movement (OTM) into the augmented site

124 Orthodontic tooth movement (OTM) is a prime example of m

125 Orthodontic tooth movement (OTM) occurs through proteoly

126 t-beta-catenin signaling plays a key role in orthodontic tooth movement (OTM), a common clinical prac

127 nd underlying mechanisms in a mouse model of orthodontic tooth movement (OTM).

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

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

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

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

132 enografts renders them inadequate for proper orthodontic tooth movement at a later stage.

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

134 Orthodontic tooth movement can result into iatrogenic se

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

136 erlying alveolar bone regeneration (ABR) and orthodontic tooth movement into bovine bone (BB) regener

137 The distance of the orthodontic tooth movement into the bovine bone was sign

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

139 Increased RANKL expression was seen at the orthodontic tooth movement pressure zone, without any ch

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

141 Orthodontic tooth movement was inhibited by local delive

142 espite this increased number of osteoclasts, orthodontic tooth movement was not altered in these mice

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

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

145 During orthodontic tooth movement, mechanical forces acting on

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

147 The orthodontic tooth movement-ABR model was used to move a

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

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

150 safe tooth movement for patients undergoing orthodontic tooth movement.

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

152 important in bone remodeling associated with orthodontic tooth movement.

153 Osteoclasts play a vital role in orthodontic tooth movement.

154 mineralization, periodontal remodeling, and orthodontic tooth movement.

155 ry role in osteoclast differentiation during orthodontic tooth movement.

156 mentation) therapies for patients undergoing orthodontic tooth movement.

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

158 y potential benefits for patients undergoing orthodontic tooth movement.

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

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

161 It is unclear if the modality of orthodontic treatment (i.e., premolar extraction versus

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

163 tudy demonstrated a very high need for early orthodontic treatment among Saudi children in the mixed

164 smile photographs, once before beginning the orthodontic treatment and once after finishing the treat

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

166 trate that oral health impacts of Invisalign orthodontic treatment and personality profiles contribut

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

168 l health impacts before and after Invisalign orthodontic treatment and their relationships with perso

169 of 28 permanent teeth that had never had any orthodontic treatment and with no reconstructive materia

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

171 ected by chronic periodontitis in undergoing orthodontic treatment as well as patient-related and too

172 Orthodontic treatment can greatly impact the periodontiu

173 Periodontitis and orthodontic treatment can lead to inflammatory root reso

174 Orthodontic treatment can successfully align pathologica

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

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

177 30 patients each: non-cleft patients without orthodontic treatment in Group 1, non-cleft patients und

178 Group 1, non-cleft patients undergoing fixed orthodontic treatment in Group 2, patients with UCLP wit

179 t in Group 2, patients with UCLP without any orthodontic treatment in Group 3, and patients with UCLP

180 p 3, and patients with UCLP undergoing fixed orthodontic treatment in Group 4.

181 bial health in patients with UCLP undergoing orthodontic treatment indicates a need for reinforcement

182 ased awareness and benefits of seeking early orthodontic treatment involving preventive and intercept

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

184 Orthodontic treatment is widely used to correct irregula

185 Estimation of early orthodontic treatment need among children is essential f

186 The present study aimed to assess the early orthodontic treatment need among children with mixed den

187 dontitis occurrence, and permanent dentition orthodontic treatment need.

188 CBCT scans taken before and after orthodontic treatment of 100 child and adolescent patien

189 Fixed orthodontic treatment of 234 patients was performed usin

190 d never been provided with information about orthodontic treatment options for adults.

191 s were obtained for various purposes such as orthodontic treatment planning, tooth impaction, implant

192 The benefits of PhMT-s alone for orthodontic treatment remain undetermined due to limited

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

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

195 l health impacts before and after Invisalign orthodontic treatment were measured via the Oral Health

196 e maxilla visible on panoramic images during orthodontic treatment with a fixed appliance.

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

198 radiographic outcomes of patients receiving orthodontic treatment with or without hard and soft tiss

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

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

201 IRR) is the major iatrogenic complication of orthodontic treatment, seriously endangering tooth longe

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

203 incisors were retracted and intruded during orthodontic treatment.

204 lusion patients who underwent extraction for orthodontic treatment.

205 he presence of WSL in adolescents undergoing orthodontic treatment.

206 d before and after treatment with Invisalign orthodontic treatment.

207 as appropriate resources for this segment of orthodontic treatment.

208 ll treatment time compared with conventional orthodontic treatment.

209 l of 79 siblings who completed comprehensive orthodontic treatment.

210 18-50, as well as 18% of children, have had orthodontic treatment.

211 ked whether the individual had ever received orthodontic treatment.

212 studies examined the effect of PhMT-s before orthodontic treatment.

213 icient stability after palatal expansion for orthodontic treatment.

214 ay accelerate alveolar bone formation during orthodontic treatment.

215 osing external apical root resorption due to orthodontic treatment.

216 as clinical benefits for patients undergoing orthodontic treatment.

217 ntal health in patients with UCLP undergoing orthodontic treatment.

218 comparison to patients without any cleft or orthodontic treatment.

219 uring the alignment stage of fixed appliance orthodontic treatment.

220 fe aspects, and their interest in undergoing orthodontic treatment.

221 impaired dental esthetics and an interest in orthodontic treatment.

222 ulated along the root's pressure side during orthodontic treatment.

223 were significantly more often interested in orthodontic treatment.

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

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

226 lf are predisposed to root resorption during orthodontic treatment.

227 nificantly improve the clinical work flow in orthodontic treatment.

228 its significance for conducting appropriate orthodontic treatment.

229 nsideration in periodontal, restorative, and orthodontic treatment.

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

231 The study highlights TC-85's potential in orthodontic treatments, providing adaptable mechanical a

232 demineralization are major complications for orthodontic treatments.