Novel methods for the evaluation of the tear film in the diagnosis of dry eye

Keech, Adam John

January 2010

Dry eye is a complex, multi-factorial disease that results in a compromised tear film and ocular surface. Clinicians and researchers alike have historically relied on an individual’s symptoms to diagnose and manage the condition, due to a lack of reliable objective methods for quantifying disease presence and severity. Of late, parameters such as tear film osmolarity and tear meniscus height have shown promise as valid methods for enumerating characteristics of the tear film that may aid the diagnosis of dry eye. Two new technologies have recently been introduced that can measure said parameters. The TearLab™ is a novel handheld nano-osmometer capable of measuring tear film osmolarity on samples as small as 50 nL. The device uses electrical conductance to measure osmolarity, and the small sample requirements purportedly allows the device to minimally disturb the natural state of the tear film. The RTVue-100 is a spectral-, or Fourier-domain optical coherence tomographer that has the ability to generate high resolution, cross-sectional images of the tear meniscus, and subsequently measure tear meniscus height. As little is published on the use of these technologies to evaluate the tear film, a series of studies was completed to determine their performance in both a normal and dry eye population.

TearLab

tear osmolarity

dry eye

RTVue

tear meniscus

Vision Science

Biomimetic Micro/nano-Structured Surfaces: A Potential Tool for Tuning of Adhesion and Friction

Shahsavan, Hamed

22 December 2011

Effects of biomimetic micro-patterning of polymeric materials on their interfacial properties were studied experimentally. Micropillars of PDMS and SU-8 epoxy were fabricated through soft lithography and UV lithography techniques, respectively. PDMS pillars were topped by thin terminal films of the same material through dipping method with different thicknesses and viscosities. Adhesion and frictional properties of biomimetic microstructures were examined in two modes of contact, i.e. laid and conformal contact. In the first mode of contact, i.e. laid contact, the contact between adhesive and adherent is laid on top of the micro-protrusions or is in contact with side wall of micropillars. Adhesion properties of the smooth and patterned PDMS were characterized through micro-indentation test. Moreover, the friction properties of the smooth PDMS sample and PDMS micropillars with different aspect ratios were examined in unidirectional friction testing. JKR theory of continuum contact mechanics was utilized to interpret the obtained data. To study the effect of second mode of contact, peeling behaviour of a conformal contact between solidified liquid PDMS and SU-8 micropillars was monitored. Kendall’s model of elastic peeling was used to interpret the peeling data. It was found that patterning of the materials would decrease the real area of contact and accordingly adhesion and friction to the mating surface. Termination of the micropillars with a thin layer of the same material result in increment of adhesion as reduction of the real contact area could be compensated and the compliance of the near surface increases. Elastic energy dissipation as a result of enhanced compliance and crack trapping and crack propagation instabilities are the main reasons behind increment of adhesion of thin film terminated structures. Viscoelasticity of the terminal thin film remarkably increased the adhesion as a result of coupling mentioned mechanisms and viscoelastic loss on the surface. Decline of the overall friction could be tailored through use of different aspect ratios. Higher aspect ratios pillars show higher friction comparing to lower aspect ratio pillars. 550 folds enhancement of adhesion was observed for peeling of the PDMS tape from rigid micropillars with aspect ratio ranging from 0 to 6. It is concluded that for the lower aspect ratio micropillars, the elastic energy dissipation is playing the key role in adhesion enhancement. This role shifts toward side-wall friction during separation by increase in aspect ratio. These all give in hand a versatile tool to control and fine tune the interfacial properties of materials, whether they are concerned with adhesion or friction.

Chemical Engineering

Tolerance to sub-zero temperatures in <i>Phaseolus acutifolius</i> and interspecies hybrids between <i>Phaseolus vulgaris</i> and <i>P. acutifolius</i>

Martinez, Jocepascual

30 May 2011

Dry bean (Phaseolus vulgaris) is a sub-tropical crop severely affected by exposure to low temperatures during all of its growing stages. Cool spring temperatures and the risk of frost are major limiting factors for the early sowing of dry bean in Saskatchewan. Due to its economic importance; however, it has been introduced to Saskatchewan, but it needs to be made more cold tolerant to further expand acreage. The genes that can contribute some tolerance to low temperature stress in bean are not found within the primary gene pool, which limits the capability of breeders to generate a cultivar with such characteristics. Consequently studies have being done in order to find a possible source of genes that can induce tolerance to low temperature exposure. Phaseolus acutifolius is a relative of the domesticated dry bean and previous hybridizations with it have been successful. It is also known to be tolerant to abiotic stresses such as drought. For this reason the decision was taken to explore the level of resistance to low temperature stress exposure in several P. acutifolius accessions. Using whole plant freezing tests in controlled environment chambers, P. acutifolius W6 15578 was found to be more tolerant to exposure to sub-zero temperatures than were P. vulgaris genotypes. Interspecies hybrids were produced between P. vulgaris NY5-161 and W6 15578 and BC2 plants were produced using embryo rescue. The whole plant freezing test is a destructive method that cannot be used with unique F1 and BC2 genotypes, so an alternative methodology to evaluate the hybrids was explored. An electrolyte leakage test was used and showed similar results to the whole plant freezing test with the parent plant controls. The F1 hybrids had an intermediate tolerance to low temperature stress and the further generations (BC1 and BC2) had a better level of tolerance to this kind of stress than the cultivated parent (NY5-161). This suggests that the genes that confer tolerance to low temperature exposure are being maintained through several generations of backcrossing and that these interspecies hybrids may offer a chance for the development of improved dry bean cultivars for the Saskatchewan environment.

stress

low temperature

Saskatchewan

Dry bean

electrolyte leakage

Development of dry ports in Småland, Sweden : Comparing the cases of Nässjö and Vaggeryd

Haak, Frans Willem Gerard, Tamosaityte, Dainora

January 2012

Problem: Due to several changes in the market, economy, industry and the environment there was an increasing trend in emerging dry ports/inland terminals throughout Sweden. A dry port is still a young term in the transportation field gaining more popularity and attention. The gap in literature was found that the dynamics of dry port evolution is not yet explored. Thus, the development of the layout, services offered and involved actors of dry ports in Småland, Sweden have to be studied. Purpose:  The purpose for this report seeks to reveal how dry ports have evolved from establishment, in the area around Jönköping, and to discover in what form the dry ports can operate and compete. The study was based on the dynamics of three elements: layout, value added services and networks. Theory:  In the theoretical research the dry port concept is described. Due to the variety of descriptions, authors formed a definition for the thesis to clarify the content. Further, the literature analysis contained the characteristics, classifications and reasons of development as well as involved actors, advantages and disadvantages, location, layout, design and performance measurements. Method: The case study method was chosen to cover the identified gap. This qualitative study with semi-structured interviews conducted face-to-face and by telephone was accomplished with fourteen experts. If the authors faced problems regarding phone interviewees, open questions were prepared and sent to the respondent via email. The data gathering phase was followed by the analysis after which the conclusions were drawn. Conclusion:   The thesis proves that the development of dry ports is affected by a large number of internal and external factors. Terminals need to execute a thorough analysis of the market and the location in which they plan to operate. Therefore, the market has to be analysed continuously in order to keep improving their networks and value added services. Furthermore, the layout has to be adjusted for the changes and measurements have to be performed in order to increase the efficiency.

dry port

inland terminal

intermodal transportation

logistics

development

Predictive Modeling of Near Dry Machining: Mechanical Performance and Environmental Impact

Li, Kuan-Ming

22 June 2006

The objective of this study is to develop a methodology to analyze the air quality and tool performance in turning process under near-dry condition. Near dry machining refers to the use of a very small amount of cutting fluid in the machining process. In order to implement the near dry machining technology, this dissertation develops the analytical models for both tool life and aerosol generation prediction. This research includes predictive models of cutting temperatures, cutting forces, tool wear progressions, and aerosol generation. The comparison of air quality and tool performance among dry machining process, near dry machining process, and flood cooling machining process is also presented. It is found that according to the selected cutting conditions in the model-based comparisons, the predicted cutting forces, cutting temperature and power consumption under near dry lubrication are reduced as high as about 30% compared with those in dry cutting but these predicted values are higher than those in wet cutting by about 10% under the same cutting conditions while the predicted tool wear land lengths are reduced by 60% compared with those in dry cutting but these values are higher than those in wet cutting about 1% under the same cutting conditions. However, the air quality for near dry machining with 12.5 ml/hr oil flow rate is worse than that for wet cutting due to different aerosol generation mechanisms.

Air quality

Tool life

Modeling

Near dry machining

Dry and wet atmospheric deposition of polycyclic aromatic hydrocarbons at a Kaohsiung coastal site.

Chen, Kuan-Wei

26 December 2011

Polycyclic aromatic hydrocarbons (PAHs) are one of major classes of organic pollutants. As semi-volatile organic compounds, PAHs can be transported in the atmosphere and scavenged according to various processes (dry and wet deposition). Atmospheric deposition is an important pathway for the transfer of pollutants from atmosphere to the terrestrial and water surfaces. The objective of this research is to quantify the dry and wet deposition of the atmospheric PAHs in the Kaohsiung coastal area. Principal component analysis (PCA) and hierarchical cluster analysis (HCA) were also performed with diagnostic ratios to determine the potential sources of PAHs. The mean dry and wet deposition fluxes of atmospheric total suspended particles (TSP) during the study period (January-December 2010) were estimated to be 44.3 (6.60-384) and 211 (56.1-738) mg/m2d, respectively. The annual mean total PAH fluxes in dry and wet deposition were 1500 (749-3760) and 8470 (2280-46000) ng/m2d, respectively. Both concentrations and dry deposition fluxes of TSP were much higher during dust storm. During Ghost Month, however, they were comparable with other sampling events. By comparing with literatures, the total PAH concentrations of TSP were relatively low during Ghost Month, suggesting that wind direction and precipitation might be plausible. The ratio of PM2.5/PM10 had a relatively low value during dust storm, indicating that coarse particle might be predominant. In addition, during dust storm, both TSP dry deposition velocity and total PAH dry deposition velocity were higher than other sampling events. Our findings in this study showed that previous attempts in literature to estimate total PAH dry deposition fluxes by using TSP dry deposition velocity and PAH concentrations could lead to overestimate fluxes in the field. TSP dry deposition fluxes were positively correlated with atmospheric total TSP concentrations and TSP dry deposition velocity, but were correlated negatively with intensity of precipitation. In addition, TSP dry deposition velocity showed a positive correlation with TSP concentrations. Total PAH dry deposition fluxes were correlated positively with atmospheric total particulate concentrations and total PAH dry deposition velocity, but negatively with intensity of precipitation and temperature. However, TSP and total PAH fluxes in wet deposition were both correlated positively with intensity of precipitation. Diagnostic ratios showed that diesel exhaust was the main source of combustion-derived PAHs in the study. HCA and PCA analysis indicated that emissions from the ships and vehicles, and fuel used were the main sources of combustion-derived PAHs, while during special events, such as dust storm and Ghost Month, suggesting a different source of PAHs.

dry deposition

PCA

wet deposition

HCA

polycyclic aromatic hydrocarbons

The effect of growth temperature and doping for quantum dots-in-a-well laser

Fu, Hsueh

24 July 2012

The purpose of this thesis is to fabricate 12-layer InxGa1-xAs quantum dots grown on 2-nm In0.1Ga0.9As quantum wells (DWell) laser structures grown by molecular-beam epitaxy (MBE) on GaAs substrats. We expect to optimum the lasers performance by tune the epitaxial recipe and fabrication condition. For the carrier injection efficiency, DWell structure of quantum dots grown on quantum wells is proposed to enhance the carrier capture rate. So we analyze a series of DWell structure in this work. In the epitaxial recipe, we investigate the influences of p-type doping and change the quantum wells growth temperature for the laser structures. In the laser fabrication, to transport the light wave in smaller dispersion loss single mode waveguide, dry etching photolithography processes are adapted in this study to fabricate 2.2mm width ridge waveguide. The as-cleaved facets are used as Fabry-Perot laser mirrors in ridge waveguide lasers. The pattern can be transferred effectively with less under-cut by dry etching compare with wet etching. Finally, the P-type doping DWell laser exhibits high power/facet of 24mW, slope efficiency of 0.209W/A. The maximum power/facet of PWell580 laser reach to 24mW, slope efficiency of 0.238W/A after raising the growth temperature to 580oC.

Quantum dot

GaAs

P-type doping

MBE

dry etching

The Effect of Transaction Costs on Greenhouse Gas Emission Mitigation for Agriculture and Forestry

Kim, Seong Woo

2011 May 1900

Climate change and its mitigation is rapidly becoming an item of social concern. Climate change mitigation involves reduction of atmospheric greenhouse gas concentrations through emissions reduction and or sequestration enhancement (collectively called offsets). Many have asked how agriculture and forestry can participate in mitigation efforts. Given that over 80 percent of greenhouse gas emissions arise from the energy sector, the role of agriculture and forestry depends critically on the costs of the offsets they can achieve in comparison with offset costs elsewhere in the economy. A number of researchers have examined the relative offset costs but have generally looked only at producer level costs. However there are also costs incurred when implementing, selling and conveying offset credits to a buyer. Also when commodities are involved like bioenergy feedstocks, the costs of readying these for use in implementing an offset strategy need to be reflected. This generally involves the broadly defined category of transaction costs. This dissertation examines the possible effects of transactions costs and storage costs for bioenergy commodities and how they affect the agriculture and forestry portfolio of mitigation strategies across a range of carbon dioxide equivalent prices. The model is used to simulate the effects with and without transactions and storage costs. Using an agriculture and forestry sector model called FASOMGHG, the dissertation finds that consideration of transactions and storage costs reduces the agricultural contribution total mitigation and changes the desirable portfolio of alternatives. In terms of the portfolio, transactions costs inclusion diminishes the desirability of soil sequestration and forest management while increasing the bioenergy and afforestation role. Storage costs diminish the bioenergy role and favor forest and sequestration items. The results of this study illustrate that transactions and storage costs are important considerations in policy and market design when addressing the reduction of greenhouse gas concentrations in climate change related decision making.

transaction cost

storage cost

dry matter loss

emission reduction

FASOMGHG

Evaluation of Seafood Processing Wastes in Prepared Feeds for Red Drum (Sciaenops ocellatus)

Pernu, Benjamin Mark

2011 May 1900

High feed costs and increasing demand for fishmeal have intensified the search for alternative protein sources which are needed to allow world aquaculture to continue expanding. A severely underused marine resource is processing wastes of various types of seafood, which are often disposed of at great cost. Therefore, this study was conducted to evaluate three different types of seafood processing wastes as potential feed ingredients for the red drum (Sciaenops ocellatus). The three processing wastes evaluated were heads and shells from Penaeid shrimp, and viscera and skeletal remains from filleted black drum (Pogonias cromis) and channel catfish (Ictaluras punctatus). These wastes were blended with soybean meal in a 40:60 ratio, dry extruded and dried to produce stable ingredients. All three byproduct meals produced had crude protein levels ranging from 45 to 50 percent. Two feeding trials were conducted to evaluate the different processing waste byproduct meals in comparison to menhaden fishmeal. A digestibility trial was conducted with sub-adult red drum which led to the computation of apparent digestibility coefficients (ADCs) for organic matter, protein, lipid and energy for each of the byproduct meals. Each byproduct meal had relatively high ADC values that were generally similar to those of menhaden fishmeal. A comparative growth trial with red drum was then conducted in which experimental diets were formulated with the three byproduct meals replacing menhaden fishmeal on an equal-digestible-protein basis at levels of 65 percent, 80 percent, or 95 percent. Juvenile red drum were fed the various diets for 8 weeks in a brackish (6 plus/minus 1 ppt) water recirculating system after which weight gain, survival, feed efficiency, as well as whole-body proximate composition and condition indices were measured. All three of the byproduct meals could replace up to 65 percent of the protein provided by fishmeal without adversely affecting performance of red drum. However, the shrimp byproduct consistently provided the highest performance values at 80 percent replacement. The catfish byproduct yielded the lowest fish performance at all levels. This study indicates that dry extrusion of seafood processing wastes can be used to replace a considerable amount of fishmeal in feeds for red drum.

aquaculture

red drum

nutrition

seafood processing waste

dry extrusion

William Faulkner's Three Short Stories:Chinese Translations with an Introduction

Chen, Mei-ting

18 July 2001

William Faulkner undoubtedly ranks one of the best and most influential writers both in America and in history. Among his various works of art, the most famous ones are those set in his fictional Yoknapatawpha County, which is molded out of his ¡§native soil.¡¨ Despite their Southern setting, these works convey something universally true. As Faulkner often claims, he is just a story-teller, telling about man in conflict, about how he ¡§endures and prevails.¡¨ Before he received due recognition, Faulkner wrote quite a few short stories which he expected would help him improve his economic condition, so that he could write novels at ease. Nevertheless, although he was motivated by economic interests, many of these short stories turned out very prominent. In my thesis, I translate and discuss three of his outstanding short stories--¡§Dry September,¡¨ ¡§Red Leaves,¡¨ and ¡§An Odor of Verbena.¡¨ By so doing, I hope I can introduce Faulkner¡¦s world to his Taiwan readers, who might too easily reject his major novels for their complexity and long-winding sentences, but would be glad to savor the more accessible short stories. The introductory part is divided into three chapters, beginning with a brief account of the author¡¦s life and fiction. In the second chapter I discuss mainly the theme of ¡§conflict¡¨ and the stylistic features in these three stories. Then, in the last chapter, giving some instances from my own translations and those by three translators in Mainland China, I try to demonstrate why translation is a demanding task.

William Faulkner

An Odor of Verbena

Translation

Red Leaves

Dry September