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Therapeutic Sealing of Proximal Tooth Surfaces: Two-Year Clinical and Radiographic Evaluation
(2009)
The diagnosis, prevention and treatment of proximal carious lesions comprise a constant problem in clinical dentistry. The purpose of this investigation was to test the safety and clinical effect of a new treatment for proximal caries. In 50 patients with two proximal initial lesions (D1-3 without cavitation, bitewing X-ray), orthodontic rubber rings were applied to gain access to the interproximal space. One of the lesions was sealed with a thin polyurethane-dimethacrylate foil using a bonding agent (Heliobond®, Vivadent, Schaan/Liechtenstein); the other lesion received oral home-care with dental floss and fluoridated toothpaste and was left as control. In clinical follow-ups after 6 and 12 months and X-ray evaluation after two years, clinical retention of proximal tape and the underlying sealant, marginal adaptation, discoloration, tooth vitality, proximal plaque and gingivitis were checked. In addition, caries was assessed clinically and radiographically. The sealants showed good retention, marginal adaptation and colour. After two years, vitality of all teeth was still positive and no relevant differences in plaque accumulation or gingival status were found between sealed and control teeth. Two sealed surface had to be filled due to caries progression (D3 with cavitation). 9 sealed lesions showed caries regression. In contrast, only 4 control lesions regressed and also two showed progression. The loss of tape had no significant influence on the lesion progression indicating the effect of the underlying bond. All other sealants and control lesions were stable indicating an arrest of the lesion. In conclusion, sealing initial proximal lesions showed no clinical problems and mostly arrest of initial carious lesions on bitewing X-rays.
The Syilx Okanagan environmental ethic is a philosophy expressed in the practice of Indigeneity as a social (cultural) paradigm and is identified by an inter-reliant experience in the land, as demonstrated in land-use practice which is shaped by the land’s realities as observed, learned and communicated to succeeding generations. Syilx Okanagan Indigeneity reflects an epistemology that optimum human wellbeing cannot be achieved through a human centered ethic but must focus on the optimum ability for the environment to regenerate itself. Syilx Okanagan stories convey the social experience and act as a records system to preserve, maintain and transfer the knowledge of the land. On one level, captikwl contain essential specific environmental knowledge as an oral documentation method, while on another level, as literature, captikwl reconstructs the ethos of interdependency specific to the ecology of the Syilx Okanagan territory through reenactment of nature’s interactions. captikwl in the Nsyilxcen language mimics the dynamic aspects of nature’s required regenerative principles to each succeeding generation, and acts as a feed-back loop reconstructing the social paradigm as an environmental ethic. captikwl might be seen as a distinctly Indigenous human adaptive response scheme within a natural system as it constructs the Syilx Okanagan world and results in behavior with sustainable outcome in the environment. captikwl is a distinct oral artistry that must be read through a literary framework cognizant of oral memory device, structure and Syilx Okanagan context. Okanagan author Morning Dove’s collection of Okanagan stories, as well as, the Mattina and DeSautel bilingual collections and other original version captikwl were consulted. Captikwl demonstrates the concept of tmixw which better translates as a life-force. The word for land is tmxwulaxw, which translates better as a life-force-place, rather than land as location or ecology type. Syilx society demonstrates an “ecological conscience” as the common text through captikwl which is enacted in their social institutions in the manner theorized by respected American conservationist Aldo Leopold, as desirable to achieve within society. The Syilx environmental ethic, rather than a sustainable human ethic of utility, is a willingness to live within a strict imperative to continuously sustain a unity of existence through societal knowledge and reverent practice of respect toward all life-forms. The Syilx environmental ethic diverges from ecocentrism, as articulated by Callicott, in recognizing a fundamental distinction between non-life forms and life forms, in their ability for self-regeneration through inter-reliance, as the focus for delineating moral considerability. The Syilx environmental ethic differs from biocentrism, as articulated by Taylor, in recognizing moral considerability as resting with the on-going life form which is capable of regeneration within its ecology, rather than the singular biological unit. The Syilx environmental ethic also differs from the concept of the ethics of place, as articulated by Berthold-Bond and characterized as an ethical bioregional human utility of a location. Tmixw is the life-force which makes up the tmxwulaxw or life-force-place and the humans are only “placed” as a life-force themselves through Indigeneity as a social paradigm within a criteria of full reciprocity in the regeneration of all life forms of a place. The Syilx environmental ethic also differs from the ethic of sustainability proposed by Daly as a steady state economic model of human utilitarianism, in the positioning of nature treated as capital, to be prudently developed in a way that off-sets depletions of renewable and non-renewable resources in meeting human requirements. The Syilx Okanagan view of economy, while structurally a sustainability model, does not construct value based on human utility as a defining line in decision-making as to which life forms are to be devalued and displaced. Syilx Indigeneity is guided through a societal dialogue practice of Enowkinwixw, a process of decision-making structured to include living within the requirements of the land to fully regenerate. Syilx Okanagan Indigeneity frames an environmental ethic from a tmixwcentric position and offers a model proposing an ethic of re-indigenization as a path to sustainability. The thesis proposes a common text for human society in the form of such literatures, since literature is widely accessible, which demonstrate, imbed and advocate a regenerative land ethic towards the re-indigenization of place.
An interesting aspect in the research of complex (dusty) plasmas is the experimental study of the interaction of micro-particles with the surrounding plasma for diagnostic purposes. Local electric fields can be determined from the behaviour of particles in the plasma, e.g. particles may serve as electrostatic probes. Since in many cases of applications in plasma technology it is of great interest to describe the electric field conditions in front of floating or biased surfaces, the confinement and behaviour of test particles is studied in front of floating walls inserted into a plasma as well as in front of additionally biased surfaces. For the latter case, the behaviour of particles in front of an adaptive electrode, which allows for an efficient confinement and manipulation of the grains, has been experimentally studied in terms of the dependence on the discharge parameters and on different bias conditions of the electrode. The effect of the partially biased surface (dc and rf) on the charged micro-particles has been investigated by particle falling experiments. In addition to the experiments, we also investigate the particle behaviour numerically by molecular dynamics, in combination with a fluid and particle-in-cell description of the plasma.
Turbulence is a state of a physical system characterized by a high degree of spatiotemporal disorder. Turbulent processes are driven by instabilities exhibiting complex nonlinear dynamics, which span over several spatial as well as temporal scales. Apart from fluids and gases, turbulence is observed in plasmas. While turbulent mixing of a system is sometimes a desired effect, often turbulence is an undesired state. In hot, magnetically confined plasmas, envisaged for energy generation by thermonuclear fusion, plasma turbulence is clearly a problem, since the magnetic confinement time is drastically deteriorated by turbulent transport. Hence, a control mechanism to influence and to suppress turbulence is of significance for future fusion power devices. An important area of plasma turbulence is drift wave turbulence. Drift waves are characterized by currents parallel to the ambient magnetic field, that are tightly coupled to a coherent mode structure rotating in the perpendicular plane. In the present work, the control of drift waves and drift wave turbulence is experimentally investigated in the linear magnetized helicon experiment VINETA. Two different open-loop control systems - electrostatic and electromagnetic - are used to drive dynamically parallel currents. It is observed that the dynamics of the drift waves can be significantly influenced by both control schemes. If the imposed mode number as well as the rotation direction match those of the drift waves, classical synchronization effects like, e.g., frequency locking, frequency pulling, and Arnold tongues are observed. These confirm the nonlinear interaction between the control signal and the drift wave dynamics. Finally, the broadband drift wave turbulence, and thereby turbulent transport, is considerably reduced if the applied control signal is sufficiently large in amplitude.
In the present work, mass determinations of the eleven neutron-deficient nuclides (99-109)Cd, of ten neutron-rich silver nuclides (112-114,121,123)Ag, and seven neutron-rich cadmium nuclides (114,120,122-124,126,128)Cd are reported. Due to the clean production of the neutron-deficient nuclides it was possible to reduce the experimental uncertainties down to 2 keV, whereas the measurements of neutron-rich nuclides were hampered by the presence of contaminations from more stable In and Cs nuclides. In the case of 99Cd and 123Ag the masses were determined for the first time and for the other nuclides the mass uncertainties could be reduced by up to a factor of 50 as in the case of 100Cd. In the case of a potential isomeric mixture as for (115,117,119)Ag and 123Cd, where no assignment to either the ground state or the excited state was possible, the experimental results were adjusted accordingly. Afterwards all results were included in the framework of the atomic-mass evaluation and thus linked and compared with other experimental data. In the case of the neutron-deficient Cd nuclides a conflict between the mass values obtained in the present work and those published by the JYFLTRAP group could be solved by performing an atomic-mass evaluation. These mass measurements are an important step towards an understanding of the physics of the rp process that will enable a more reliable determination of the composition of the produced material at A = 99. It has been shown that the mass of 99Cd strongly affects the A = 99 production in an X-ray burst model, and that uncertainties have been significantly reduced from more than an order of magnitude to about a factor of 3. The dominant source of uncertainty is now the mass of 100In. In principle, other uncertainties will also contribute. These include those of masses of lighter Cd isotopes, where similar rp-process branchpoints occur and which might affect feeding into the 99Cd branchpoint. In addition, nuclear reaction rate uncertainties will also play a role. However, as reaction rates affect branchings in a linear fashion, while mass differences enter exponentially, mass uncertainties will tend to dominate. Also, which reaction rates are important depends largely on nuclear masses. For example, for low Sp(100In) a (p,γ)-(γ,p) equilibrium will be established between 99Cd and 100In and the 100In(p,γ) reaction rate would affect the A = 99 production, while for larger Sp(100In) the 99Cd(p,γ) reaction rate might be more relevant. Therefore, the mass uncertainties should be addressed first. The presented results are relevant for any rp-process scenario with a reaction flow through the 99Cd region. Here, an X-ray burst model has been used to investigate in detail the impact of the present measurements on such an rp process. The νp process in core collapse supernovae might be another possible scenario for an rp process in the 99Cd region. It it is planed to also explore whether in that case mass uncertainties have a similar impact on the final composition. On the neutron-rich side of the valley of stability for the Cd and Ag chains of nuclides, the r process has not yet been reached. Further technical development on suppression of contaminants are required. This includes improvements on the ISOLDE side, e.g., by improving the selectivity of the transfer line or on the ISOLTRAP setup by implementing an electrostatic ion beam trap for a fast and efficient isobaric selection. Nevertheless the obtained results contribute to the knowledge of nuclear structure. The trends in the two-neutron separation-energy S2n and the interaction between the last neutrons and last protons ΔVpn were corrected to more smooth evolutions, as already seen in other regions of the nuclear chart. The strongest corrections have been observed for even-N nuclides, were more new experimental data are available. Thus, new measurements on odd-N nuclides are suggested. This also is underlined by the trends observed in the Garvey-Kelson relations for the neutron-rich Cd nuclides. Furthermore, it has been shown, that the prominent structure of the ΔVpn for an entire chain of nuclides including inflexion points can be reproduced by using simple relations between quantum numbers of the occupied orbits. This approach connects ten values for each nuclide with only one adjusted parameter. This has been investigated for 63 ΔVpn values of even-even nuclides in the vicinity of Z = 50 and 50 ≤ N ≤ 82. The simple model works remarkably well for the elements Cd, Sn, and Te. Small deviation have been observed for the Xe and Pd nuclides which were explained with the limitations of the model to the vicinity of the close shells, where the nuclides have only few valence protons and neutrons.
Alcohol-related somatic disorders are highly prevalent among general hospital inpatients. Alcohol problem drinking can be differentiated into alcohol use disorders (alcohol dependence and alcohol abuse) and three subtypes of drinking above recommended levels (at-risk drinking only [AR], heavy episodic drinking only [HE], at-risk and heavy episodic drinking [ARHE]). The aims of this study were threefold. First, proportions of alcohol problem drinking among general hospital inpatients in a region of north-eastern Germany were estimated (study 1). Second, among individuals with alcohol problem drinking the association between beverage preference and alcohol-related diseases was tested (study 2). Third, subtype differences regarding demographics, alcohol-related variables, motivation to change drinking behaviors, and the risk to develop short-term alcohol dependence among the three subtypes of drinking above recommended levels were analyzed (study 3). The data presented in this dissertation are based on the randomized controlled trial “Early Intervention at General Hospitals”, which is part of the Research Collaboration Early Substance Use Intervention (EARLINT). Study 1 includes a sample of consecutively admitted general hospital inpatients between 18 and 64 years old (n = 14,332). The study adopted a two-stage-sampling approach: (a) screening and (b) ascertainment of alcohol problem drinking. Those who were identified with alcohol problem drinking were asked for written consent for further study participation. This included further baseline assessment, the consent to use routine treatment diagnoses and participation in a follow-up interview 12 months after hospitalization. For study 2, routine treatment diagnoses were provided by hospital physicians for a total of 1,011 men with problem drinking. These diagnoses were classified into three categories according to their alcohol-attributable fractions (AAF): diseases totally attributable to alcohol by definition (AAF=1), diseases partially attributable to alcohol (AAF<1) and diseases with no empirical relationship to alcohol or with a possibly protective effect associated with alcohol (AAF=0). Study 3 was restricted to study participants with drinking above recommended levels (n=425). Study 1: Among all general hospital inpatients, 8.9% were identified with current problem drinking in the following descending order: 5.3% exhibited alcohol use disorders and 3.6% drinking above recommended levels. Higher proportions of problem drinking were found at rural sites compared to urban sites (13.7 vs. 7.5%, p<.001). Study 2: Because of the low proportion of women with alcohol problem drinking the following analyses were restricted to males. Multinomial regression analyses revealed different risks for alcohol-related diseases in relation to beverage preference while controlling for alcohol-associated and demographic confounders. Compared to all other groups, spirits only drinkers had the highest risk for having a disease with AAF>0; e.g., beer only drinkers had lower odds of having a disease with AAF<1 (odds ratio, OR=0.50, 95% confidence interval, CI: 0.27-0.92). Study 3: Men with alcohol use disorder were excluded from the following analysis. At baseline, multinomial logistic regression revealed differences between individuals with AR, HE and ARHE while controlling for age. ARHE was associated with higher odds of having a more severe alcohol problem (OR=2.06, CI: 1.23-3.45), using formal help (OR=2.21, CI: 1.02-4.79), and having a disease with AAF=1 (OR=3.43, CI: 1.58-7.43), compared with AR. In addition, individuals with ARHE had higher odds of taking action to change drinking behaviors (i.e., beginning to implement change) than individuals with HE (OR=2.29, CI: 1.21-4.34) or AR (OR=2.11, CI: 1.15-3.86). At follow-up, individuals with ARHE had higher odds of having alcohol dependence according to the DSM-IV (OR=4.73, CI: 1.01–22.20) compared to individuals with AR. In addition to alcohol use disorders, drinking above recommended levels is a common problem among general hospital inpatients. Thus, the implementation of systematic alcohol screening and brief interventions should be considered. These data suggest an association between beverage preference and alcohol-related diseases. Among hospitalized problem drinkers, spirits only drinkers had the greatest risk of having diseases with AAF>0. Of the three subtypes of drinking above recommended levels, ARHE seems to be particularly problematic because there appears to be an indication of a subclinical diagnosis. To provide adequate intervention, clinical practice should distinguish between the three groups of drinking above recommended levels. Brief alcohol intervention should be tailored to the individual’s motivation to change and to the type of alcohol problem drinking. The effectiveness of such a procedure remains to be evaluated in further studies.
Asymmetrical capacitively coupled RF discharges in oxygen, argon and hydrogen have been experimentally investigated with the innovative technique of the phase resolved optical emission spectroscopy. This diagnostic tool allows to measure spatio-temporally resolved emission intensities of electronically excited species with a high resolution. The spatial (axial) resolution was better than 1 mm and a temporal resolution of about 1.5 ns has been achieved. Therefore the plasma induced optical emission within the RF cycle (TRF = 73.75 ns) from the RF sheath region with a typical mean sheath thickness of about 5mm has been studied. Spatio-temporally resolved optical emission patterns of the following optical transitions have been measured for a total gas pressure in the range of 20 to 100 Pa and self-bias voltages between -50 and -550 V: Oxygen plasma Emission at 777.4 nm and 844.6 nm (atomic oxygen) Argon plasma Emission at about 751 nm and 841 nm (argon) Hydrogen plasma Emission at 656.3nm (atomic hydrogen, H alpha-line) These transitions are the most prominent ones of the investigated excited species in these plasmas as could be shown from overview spectra of the plasma induced optical emission in the range from 350 to 850 nm. For the first time such extensive PROES measurements in oxygen CCRF plasmas are presented in this work. The additional investigations of argon and hydrogen plasmas serve as a reference and for a direct comparison with results from the literature. The temporal behavior of the emission intensity is influenced by the effective lifetime of the emitting states which is on the order of the nanosecond time scale of the RF cycle. Therefore, it does not represent the real temporal behavior of the excitation. A simple method has been applied to calculate relative excitation rates from the measured emission intensities to distinguish different excitation mechanisms and their correct relative temporal behavior. In a close collaboration within the framework of the Sonderforschungsbereich Transregio 24 'Fundamentals of Complex Plasmas' a newly 1d3v PIC-MCC code for simulations of capacitive RF discharges in oxygen has been developed by Matyash et al. The very close coupling of experiment and modeling allowed a really detailed and microscopic understanding of the processes and dynamics from the sheath to the bulk plasma in CCRF discharges. The spatio-temporally resolved excitation rate profiles show four different excitation structures (I-IV). Excitation processes due to the following mechanisms in CCPs could be identified and characterized: I Electrons expelled from growing sheath II Electrons detached from negative ions (collisions with neutrals) + secondary electrons from the electrode surface (ion bombardment) III Field-reversal effect, reduced mobility of electrons (electron-neutral collisions) IV Heavy-particle collisions These excitation mechanisms are characterized by different temporal and spatial behaviors of the excitation rate within the RF cycle. Additionally it has been shown that the excitation by electron impact in the investigated oxygen plasmas results mainly from dissociative electron impact excitation (O2 + e -> O + O* + e) and not from direct electron impact excitation (O + e -> O* + e). Actinometry measurements show that the results are not really credible. Thus actinometry is not applicable on the investigated oxygen RF plasma. A challenge in interpretation is the observed excitation pattern IV. Pattern IV has to be caused in connection with heavy particle collisions nearby the electrode surface and could be observed in all the three plasmas oxygen, argon and hydrogen. It is located directly in front of the powered electrode and appears during almost the whole RF cycle. The temporal modulation is nearly sinusoidal and weak in comparison to the first three patterns. This is due to the weak RF modulation of the ion flux towards the electrode surface which has been proven by a PIC simulation. It could be shown that the modulation degree of pattern IV depends on the transition time of the corresponding positive ions through the RF sheath which is influenced by the ion mass. In oxygen as well as in argon CCRF plasmas pattern IV is less modulated than in hydrogen CCRF plasmas due to the heavier ions in oxygen and argon. Additionally the modulation degree increases with increasing pressure due to the more confined plasma at higher pressures which is yielding in a stronger modulated ion current towards the powered electrode.
In this work, the investigation of dusty plasma by means of tunable diode laser spectroscopy was carried out. Special interest was focused on the interactions of dust particles and metastable atoms. At first, Al density and temperature in dc and pulsed magnetron discharges were measured. Measurements with argon as working gas show an expected behavior of the measured atom density and temperature. Decrease of absorption signal was observed in argon/oxygen and argon/methane mixtures. A small admixture of oxygen leads to a complete disappearance of the absorption signal indicating vanishing Al atom density. The effect is believed to be caused by the oxidation of the magnetron target. This decrease reveals typical hysteresis behavior caused by poisoning of the target. Significant difference between critical oxygen flow value in dc and pulsed modes was registered. Then dust formation and plasma behaviors in hydrocarbon containing plasmas were analysed. The dust growing plasmas (Ar/C2H2, Ar/CH4 and Ar/C3H6 rf plasmas) were characterized by laser transmission and scattering methods, ion energy distribution function and mass spectrum evolution by plasma processing monitor, and the spatial distribution in pristine plasma and the temporal behavior of the metastable atom density in processing plasma using TDLAS. Pristine plasma were then characterized in term of metastable density and temperature. The radial distribution of neon metastable atom density in capacitive coupled rf discharge can be approximated to a Gaussian profile with the width smaller than plasma chamber radius. The diffusion flow of metastable atoms deduced from their spatial density distribution gives the loss of metastable atom in the plasma sheath. Argon metastable density was measured in rf plasma and compared with a simple model for metastable density. The model explains well the trend of metastable density with respect to the change of plasma input power. Metastable density of dusty plasma with injected dust particles was measured and compared to that of pristine plasma. The particle heating by metastable atoms was strongly evidenced. The power absorbed by dust particles due to bombardment of metastable atoms onto a dust particle surface in our experiments is about 0.04 Wm-2 for the low dust density case and lower for higher dust density which is in the same order as the contributions of kinetic energy of ions and electrons and the energy released by their recombination on the grain surface. The influence of dust particle density and size on metastable density was studied. Through measuring metastable density, TDLAS can be used as a tool to study the dust growth process in processing plasma.
The experimental determination of the electron energy distribution of a low pressure glow discharge in neon from emission spectroscopic data has been demonstrated. The method extends an approach by Fischer and Dose [5]. The spectral data were obtained with a simple overview spectrometer and analyzed using a strict probabilistic, Bayesian data analysis. It is this Integrated Data Analysis (IDA) approach, which allows the significant extraction of non-thermal properties of the electron energy distribution function (EEDF). The results bear potential as a non-invasive alternative to probe measurements. This allows the investigation of spatially inhomogeneous plasmas (gradient length smaller than typical probe sheath dimensions) and plasmas with reactive constituents. The diagnostic of reactive plasmas is an important practical application, needed e.g. for the monitoring and control of process plasmas. Moreover, the experimental validation of probe theories for magnetized plasmas as a long-standing topic in plasma diagnostics could be addressed by the spectroscopic method.
Tourette syndrome has been associated with impairments of performance monitoring and alterations of attentional and executive functions. This impairment has been linked to fronto-striatal dysfunctions, which comprise the same braincircuits that are actively engaged in the suppression of tics. We compared behavioral performance and performance monitoring in nineteen boys with Tourette syndrome (TS) (mean age 12.64 years, ± 2.05) and nineteen age-matched controls (mean age 13.16 years, ± 2.29) in a Go/NoGo paradigm. This paradigm was designed to test for problems with inhibition and attention when withholding the response to NoGo targets following repetitive Go targets. The results indicated similar performance accuracy in the TS group and the control group. TS participants showed the expected pattern of Post-Error Slowing, but responded significantly also slower to correct Go trials than the controls. The reaction times (RT) to NoGo targets in commission errors, however, did not differ between the groups. The results suggest that boys with TS develop inhibitory adaptive strategies (overall slower reaction times) to maintain high performance accuracy. These effects may be suspended prior to and during NoGo commission errors.