Dentin Bonding: SEM Comparison of the Resin-Dentin Interface in Primary and Permanent Teeth

Previous studies have suggested minor differences between primary and permanent teeth in terms of dentin composition and morphology. Other reports indicated lower bond strengths of resin composites to dentin of primary teeth compared with dentin of permanent teeth; however, no information is available regarding differences in the micromorphology of the resin-dentin interface that may explain these lower bond strengths. Therefore, the purpose of the present study was to compare primary and permanent teeth in terms of the thickness of the hybrid layer developed with two bonding systems. Our hypothesis was that bonding differences previously reported between primary and permanent dentin would be reflected in hybrid layer differences observable in SEM analyses. Twenty human extracted and non-carious teeth were divided into 4 groups: 5 primary and 5 permanent teeth restored with All-Bond 2/Bisfil P system; and 5 primary and 5 permanent teeth restored with Scotchbond Multi-Purpose/ZlOO. The sample area available on each tooth was divided for the two dentin conditioning times (7 and 15 sec). Measurements of hybrid layer thickness were performed by means of SEM at xl3,000. The results of this study indicated that the hybrid layer produced is significantly thicker in primary than in permanent teeth (p = 0.0001), suggesting that primary tooth dentin is more reactive to acid conditioning. No difference was observed in the hybrid layers produced by the two adhesive systems (p = 0.7920). The increased thickness of the hybrid layer in primary teeth (25 to 30%) and the subsequent lack of complete penetration of adhesive resin into previously demineralized dentin may contribute to the lower bond strengths to primary dentin reported in the literature. If a narrower hybrid layer more uniformly infused with resin is the goal of dentin bonding, it is concluded that a differentiated protocol for bonding to primary dentin (with shorter time for dentin conditioning) can be used as a means to reproduce the hybrid layer thickness seen in permanent teeth.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/67017/2/10.1177_00220345960750061101.pd

Antibiotic Treatment of the Tick Vector Amblyomma americanum Reduced Reproductive Fitness

BACKGROUND: The lone star tick Amblyomma americanum is a common pest and vector of infectious diseases for humans and other mammals in the southern and eastern United States. A Coxiella sp. bacterial endosymbiont was highly prevalent in both laboratory-reared and field-collected A. americanum. The Coxiella sp. was demonstrated in all stages of tick and in greatest densities in nymphs and adult females, while a Rickettsia sp. was less prevalent and in lower densities when present. METHODOLOGY/PRINCIPAL FINDINGS: We manipulated the numbers of both bacterial species in laboratory-reared A. americanum by injecting engorged nymphs or engorged, mated females with single doses of an antibiotic (rifampin or tetracycline) or buffer alone. Burdens of the bacteria after molting or after oviposition were estimated by quantitative polymerase chain reaction with primers and probes specific for each bacterial species or, as an internal standard, the host tick. Post-molt adult ticks that had been treated with rifampin or tetracycline had lower numbers of the Coxiella sp. and Rickettsia sp. and generally weighed less than ticks that received buffer alone. Similarly, after oviposition, females treated previously with either antibiotic had lower burdens of both bacterial species in comparison to controls. Treatment of engorged females with either antibiotic was associated with prolonged time to oviposition, lower proportions of ticks that hatched, lower proportions of viable larvae among total larvae, and lower numbers of viable larvae per tick. These fitness estimators were associated with reduced numbers of the Coxiella sp. but not the Rickettsia sp. CONCLUSION/SIGNIFICANCE: The findings indicate that the Coxiella sp. is a primary endosymbiont, perhaps provisioning the obligately hematophagous parasites with essential nutrients. The results also suggest that antibiotics could be incorporated into an integrated pest management plan for control of these and other tick vectors of disease

Survey of Borreliae in ticks, canines, and white-tailed deer from Arkansas, U.S.A.

<p>Abstract</p> <p>Background</p> <p>In the Eastern and Upper Midwestern regions of North America, <it>Ixodes scapularis</it> (L.) is the most abundant tick species encountered by humans and the primary vector of <it>B. burgdorferi,</it> whereas in the southeastern region <it>Amblyomma americanum</it> (Say) is the most abundant tick species encountered by humans but cannot transmit <it>B. burgdorferi.</it> Surveys of Borreliae in ticks have been conducted in the southeastern United States and often these surveys identify <it>B. lonestari</it> as the primary <it>Borrelia</it> species, surveys have not included Arkansas ticks, canines, or white-tailed deer and <it>B. lonestari</it> is not considered pathogenic. The objective of this study was to identify <it>Borrelia</it> species within Arkansas by screening ticks (n = 2123), canines (n = 173), and white-tailed deer (n = 228) to determine the identity and locations of Borreliae endemic to Arkansas using PCR amplification of the flagellin (<it>flaB)</it> gene.</p> <p>Methods</p> <p>Field collected ticks from canines and from hunter-killed white-tailed were identified to species and life stage. After which, ticks and their hosts were screened for the presence of <it>Borrelia</it> using PCR to amplify the <it>flaB</it> gene. A subset of the positive samples was confirmed with bidirectional sequencing.</p> <p>Results</p> <p>In total 53 (21.2%) white-tailed deer, ten (6%) canines, and 583 (27.5%) Ixodid ticks (252 <it>Ixodes scapularis</it>, 161 <it>A. americanum</it>, 88 <it>Rhipicephalus sanguineus</it>, 50 <it>Amblyomma maculatum,</it> 19 <it>Dermacentor variabilis,</it> and 13 unidentified <it>Amblyomma</it> species) produced a <it>Borrelia flaB</it> amplicon. Of the positive ticks, 324 (22.7%) were collected from canines (151 <it>A. americanum,</it> 78 <it>R. sanguineus</it>, 43 <it>I. scapularis,</it> 26 <it>A. maculatum,</it> 18 <it>D. variabilis</it>, and 8 <it>Amblyomma</it> species) and 259 (37.2%) were collected from white-tailed deer (209 <it>I. scapularis,</it> 24 <it>A. maculatum,</it> 10 <it>A. americanum,</it> 10 <it>R. sanguineus</it>, 1 <it>D. variabilis</it>, and 5 <it>Amblyomma</it> species). None of the larvae were PCR positive. A majority of the <it>flaB</it> amplicons were homologous with <it>B. lonestari</it> sequences: 281 of the 296 sequenced ticks, 3 canines, and 27 deer. Only 22 deer, 7 canines, and 15 tick <it>flaB</it> amplicons (12 <it>I. scapularis</it>, 2 <it>A. maculatum</it>, and 1 <it>Amblyomma</it> species) were homologous with <it>B. burgdorferi</it> sequences.</p> <p>Conclusions</p> <p>Data from this study identified multiple Borreliae genotypes in Arkansas ticks, canines and deer including <it>B. burgdorferi</it> and <it>B. lonestari;</it> however, <it>B. lonestari</it> was significantly more prevalent in the tick population than <it>B. burgdorferi</it>. Results from this study suggest that the majority of tick-borne diseases in Arkansas are not <it>B. burgdorferi.</it></p

The Influence of Interspecific Competition and Host Preference on the Phylogeography of Two African Ixodid Tick Species

A comparative phylogeographic study on two economically important African tick species, Amblyomma hebraeum and Hyalomma rufipes was performed to test the influence of host specificity and host movement on dispersion. Pairwise AMOVA analyses of 277 mtDNA COI sequences supported significant population differentiation among the majority of sampling sites. The geographic mitochondrial structure was not supported by nuclear ITS-2 sequencing, probably attributed to a recent divergence. The three-host generalist, A. hebraeum, showed less mtDNA geographic structure, and a lower level of genetic diversity, while the more host-specific H. rufipes displayed higher levels of population differentiation and two distinct mtDNA assemblages (one predominantly confined to South Africa/Namibia and the other to Mozambique and East Africa). A zone of overlap is present in southern Mozambique. A mechanistic climate model suggests that climate alone cannot be responsible for the disruption in female gene flow. Our findings furthermore suggest that female gene dispersal of ticks is more dependent on the presence of juvenile hosts in the environment than on the ability of adult hosts to disperse across the landscape. Documented interspecific competition between the juvenile stages of H. rufipes and H. truncatum is implicated as a contributing factor towards disrupting gene flow between the two southern African H. rufipes genetic assemblages