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1 odont dentition) or not at all (monophyodont dentition).
2 rents versus controls (primary and permanent dentitions).
3 alveolar bone that surround and support the dentition.
4 ovides a mechanism for patterning vertebrate dentition.
5 cial development and patterning of mammalian dentition.
6 enesis that preferentially affects posterior dentition.
7 variance with the large facial skeleton and dentition.
8 ation of individual teeth versus the overall dentition.
9 role of EDA in the development of secondary dentition.
10 integral, functionally important part of our dentition.
11 Dental implants were used to restore her dentition.
12 l is thin, with mild spacing in the anterior dentition.
13 bonated soft drinks on caries in the primary dentition.
14 lt of pleiotropic function in the pharyngeal dentition.
15 appears at the time of eruption of permanent dentition.
16 destruction of the supporting structures of dentition.
17 dth similar to that found around the natural dentition.
18 n essential role in the patterning of murine dentition.
19 n enamel crystal formation in the developing dentition.
20 inflammation relative to the gingiva of the dentition.
21 nse to plaque compared to the gingiva of the dentition.
22 y procumbent and distinctly heterodont lower dentition.
23 patterns of morphological variation in their dentition.
24 inct expression domains in patterning of the dentition.
25 be done in the late mixed or early permanent dentition.
26 tion, followed by a phase 2 in the permanent dentition.
27 ific role for this pathway in development of dentition.
28 the molecular basis of the patterning of the dentition.
29 normal inhabitant of a periodontally healthy dentition.
30 the development of the face, eyes, limbs and dentition.
31 minations at qualifying sites and the entire dentition.
32 2-9 years were caries-free in their primary dentition.
33 17 years were caries-free in their permanent dentition.
34 and periodontal ligaments and eventually the dentition.
35 mly assigned to the various quadrants in the dentition.
36 andomly assigned to various quadrants in the dentition.
37 creased anomalies of the maxillary permanent dentition.
38 ed with children/young adults with permanent dentition.
39 in primary dentition compared with permanent dentition.
40 fferentially affects characters in the mouse dentition.
41 d in mineralized tissues of the skeleton and dentition.
42 rential effects across tooth surfaces of the dentition.
43 ated it with their caries status and type of dentition.
44 s in significant pain to the pet and loss of dentition.
45 ve morphological variation in their jaws and dentition.
46 res of the frontal, occipital, maxillae, and dentition.
47 erity in both emerging primary and permanent dentitions.
48 tin affecting both the primary and permanent dentitions.
49 al genetic patterning mechanisms for primate dentitions.
50 d in case probands for primary and permanent dentitions.
51 anium and associated lower jaws with in situ dentitions.
52 nical outcomes of both primary and permanent dentitions.
53 ctive for LAgP in both primary and permanent dentitions.
54 root morphology in primary and/or secondary dentitions.
55 late with evolutionary changes in vertebrate dentitions.
56 away from retaining and treating the natural dentition?
57 y (21% vs. 4%, P = 3 x 10(-8)) and permanent dentitions (51% vs. 8%, P = 4 x 10(-62)) but not in the
58 mber of snack foods that are retained on the dentition accumulate fermentable sugars and short-chain
60 and 67 females; 22 primary and 75 permanent dentitions affected) diagnosed with LAgP were included.
64 erized by a highly specialized insectivorous dentition and a sizable patagium (flying membrane) for g
66 eosimiid anatomy has been restricted to the dentition and an isolated petrosal bone, and this limite
70 also investigated the representation of the dentition and identified regions of cortex responsive to
71 ask how vertebrates generally replace their dentition and in turn how this process acts to influence
77 haploinsufficiency during the patterning of dentition and the subsequent loss of posterior teeth.
79 s, for preventing excessive wear of opposing dentition, and for protecting Y-TZP from hydrothermal de
80 also on the adjacent salivary glands, bone, dentition, and masticatory musculature and apparatus.
81 genesis across the surfaces of the permanent dentition, and nominates several novel genes for investi
82 Rather-as is seen elsewhere in the cranium, dentition, and postcranial skeleton-these mandibular rem
83 Taurodontism, histologic structure of the dentition, and severe attachment loss in the primary den
84 l skull and dentaries with a nearly complete dentition, and with a dental formula of I4/3 C1/1 P5/4 M
91 no "white spot" caries (ws) in the selected dentition area; a higher-caries group averaged 4.1 ws in
92 it from lateral support from the surrounding dentition as do bridged implants, and that these restora
93 an either renew their teeth once (diphyodont dentition, as found in humans) or not at all (monophyodo
96 f differences in craniofacial morphology and dentition between the earliest American skeletons and mo
98 tylus sinensis) defined by their distinctive dentition, but excludes the putative istiodactylids Haop
99 terised in both the mandibular and maxillary dentition by a loss of the permanent canines, premolars
100 an important role in evolution of mammalian dentition by giving rise to new cusps and interconnectin
101 er, these results suggest that the permanent dentition can be subdivided into groups of tooth surface
102 sought to determine if caries in the primary dentition can predict caries in the permanent dentition
103 ted differential genetic factors for primary dentition caries and permanent dentition caries, as well
104 s for primary dentition caries and permanent dentition caries, as well as for pit-and-fissure- (PF) a
105 revalence of caries (51.2% of teeth in adult dentitions), comparable to modern industrialized populat
106 fferent caries trajectory in their permanent dentition compared to their caries-free contemporaries.
108 tions are highly derived compared with human dentitions, complicating the application of these insigh
109 Analyses according to dentition status (good dentition, compromised dentition, partial denture, and c
111 ementarily, these more durable and efficient dentitions could be selected to cope with important inge
112 illed teeth and decayed teeth in the primary dentition (dft, dt) and permanent dentition (DFT, DT) in
115 of important innovations such as heterodont dentition, diphyodonty and the dentary-squamosal jaw joi
116 umber of affected surfaces across the entire dentition; DMFS1-5, partial DMFS indices representing th
117 umber of affected surfaces across the entire dentition; DMFS1-5, partial DMFS indices representing th
121 advocate starting a first phase in the mixed dentition, followed by a phase 2 in the permanent dentit
124 ildren who developed caries in their primary dentition had a very different caries trajectory in thei
126 r Dlx-1 and Dlx-2 genes in patterning of the dentition has been proposed with the genes envisaged as
127 n, and severe attachment loss in the primary dentition have not been described previously in trisomy
128 ertinus, including the first known antemolar dentitions, have been discovered in 1989 and 1990 in the
129 c model of the developmental modification of dentition in avian evolution; in this model, changes in
130 sults suggest that the representation of the dentition in mammals is capable of significant reorganiz
133 s of stronger selection for the evolution of dentitions, including the early Miocene shortly before t
135 hyperal-dosteronism, splenomegaly, abnormal dentition, intestinal obstructions, and death before wea
136 types (developed by clustering the permanent dentition into categories of tooth surfaces based on co-
137 The occurrence of caries in the permanent dentition is clustered: A quarter of the children and ad
142 difference between the primary and permanent dentitions is the physiologic loss of the primary tooth
143 tive effect of breastfeeding against primary dentition malocclusion but no supportive evidence for mi
146 allowing abnormalities, xerostomia, and poor dentition may result in dietary adaptations that may cau
147 greater reduction in CAL in LAgP of primary dentition may suggest that younger children may carry a
148 characterized by loss of bone support of the dentition, Mfge8(-/-) mice exhibited higher numbers of o
150 ior teeth resemble in pattern and number the dentition of fish species that retain anterior pharyngea
154 rew as well as initial evidence of the upper dentition of the early Oligocene taxon Metoldobotes.
155 entition can predict caries in the permanent dentition of the same individuals and, if so, with what
157 e first and only information about the molar dentition of this strange group of extinct marsupials.
163 er child, treated to the tongue, had delayed dentition only in the teeth adjacent to the brachytherap
164 aries increment in the primary and secondary dentitions or in the proportions of children attending a
166 en attributed to reduced selection for large dentitions owing to changes in diet or the acquisition o
167 y despite children's age, caries status, and dentition (p < .001), with healthy plaque predicting hig
169 entition status (good dentition, compromised dentition, partial denture, and complete dentures) showe
174 formed separate GWAS for caries in permanent-dentition PF surfaces (1,017 participants, adjusted for
175 dless of children's caries status or type of dentition, PF (378.6) had significantly higher ADS activ
176 Compared with PDL cells from the permanent dentition, PPDL cells generally produced a greater amoun
179 CONCLUSIONs: A periodontally compromised dentition punctuated by teeth with limited clinical root
180 reatment of avulsions in the young permanent dentition remains a common problem, and a universally ac
181 In many non-mammalian vertebrates, adult dentitions result from cyclical rounds of tooth regenera
182 eriodontal access surgery needs in untreated dentition sextants but markedly overestimated surgical a
186 ogs have an entirely brachyodont, diphyodont dentition similar to that in humans, as opposed to mice,
187 , but it has been known only from fossilized dentitions since it was first described half a century a
188 the developmental impact of EDA on secondary dentition, since dogs have an entirely brachyodont, diph
189 be involved in the patterning of the murine dentition, since loss of function of Dlx1 and Dlx2 resul
190 hich have only permanent teeth (monophyodont dentition), some of which are very different (aradicular
193 or functional tooth units, TMJ disorder, and dentition status) on overall diet quality in a community
195 , the teeth continue to erupt, the posterior dentition tends to drift in a mesial direction, and the
196 gher dental caries experience in the primary dentition than did children with other fluid consumption
198 evolution but retain a posterior pharyngeal dentition that requires retinoic acid (RA) cell-cell sig
199 features of the postcranial skeleton and the dentition that support the molecular phylogeny and clear
201 ely, carnivorous reptiles have non-occluding dentitions that engender negligible bone damage during f
202 lex tooth shapes develop in first generation dentitions that lack the capacity for lifelong replaceme
203 ore extractions, while he was still in mixed dentition the subgingival plaque was collected and analy
204 e interplay among cariogenic bacteria on the dentition, the host diet, and other environmental exposu
205 e is a multisystem disorder that affects the dentition, the skeleton, connective tissue, and the immu
206 , and simulated unilateral biting across the dentition; the models differed in the number of FEs, deg
207 netic association between caries of the mid- dentition tooth surfaces and AJAP1 (p value = 2e-8), a g
209 evolution in one such system, the vertebrate dentition, using as a model loss of oral teeth in cyprin
210 nt rate, formation time, crown volume, total dentition volume, and enamel thickness for two coexistin
211 and in severe caries of the young permanent dentition was compared using Sanger sequencing of the ri
213 Visible periapical or periodontal changes in dentition were analyzed with intraoral X-rays with the u
217 equently been lost or decoupled in mammalian dentitions where complex tooth shapes develop in first g
219 ammation of the supporting structures of the dentition which constitutes one of the most common cause
220 cterized by the complex adaptations of their dentition, which are an indication that diet has played
221 oung animals are equipped with a specialized dentition, which they use to peel and eat the outer laye
222 h between the size of the lower face and the dentition, which, in turn, leads to increased prevalence
223 short, broad skull, robust lower jaw, and a dentition with relatively few teeth that nonetheless sho
224 the development of the zebrafish pharyngeal dentition with the goal of uncovering novel roles for FG
225 he most complete Caribbean subfossil primate dentition yet recorded, demonstrating the likely coexist
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