Design of an Analog VLSI Cochlea

Shiraishi, Hisako

January 2003

The cochlea is an organ which extracts frequency information from the input sound wave. It also produces nerve signals, which are further analysed by the brain and ultimately lead to perception of the sound. An existing model of the cochlea by Fragni`ere is first analysed by simulation. This passive model is found to have the properties that the living cochlea does in terms of the frequency response. An analog VLSI circuit implementation of this cochlear model in CMOS weak inversion is proposed, using log-domain filters in current domain. It is fabricated on a chip and a measurement of a basilar membrane section is performed. The measurement shows a reasonable agreement to the model. However, the circuit is found to have a problem related to transistor mismatch, causing different behaviour in identical circuit blocks. An active cochlear model is proposed to overcome this problem. The model incorporates the effect of the outer hair cells in the living cochlea, which controls the quality factor of the basilar membrane filters. The outer hair cells are incorporated as an extra voltage source in series with the basilar membrane resonator. Its value saturates as the input signal becomes larger, making the behaviour rather closer to that of a passive model. The simulation results show this nonlinear phenomenon, which is also seen in the living cochlea. The contribution of this thesis is summarised as follows: a) the first CMOS weak inversion current domain basilar membrane resonator is designed and fabricated, and b) the first active two-dimensional cochlear model for analog VLSI implementation is developed.

Beauty and Aesthetics : A study of the Professional Hair Care Industry in Sweden / Skönhet och Estetik : En studie om den professionella hårvårdsindustrin i Sverige

Kristoffersson, Rickard, Silickaitė, Auksė

January 2010

<p>Background: Beauty is a subject which is not easy to grasp especially as it is perceived differently. In advertising it is expressed through aesthetic messages and images which we relate to symbolic and social meanings. The professional hair care industry in Sweden serves as a good example where the creation of aesthetic experience influences consumer purchasing behaviour.</p><p>Purpose: The purpose of our thesis is to study how consumers´ subjective view on beauty and aesthetics can be influenced by the professional hair care industry and how a market is created for products which mainly satisfy emotional needs rather than fulfil utilitarian function.</p><p>Research Method: In our study we have applied an abductive research method approach. The empirical findings were based on 3 interviews with P&G Salon Professional representatives and 15 end consumers combined with a survey, conducted in 25 hair salons in the city of Linköping.</p><p>Conclusion: Consumers act in a socially constructed world in which products are shaped around impulse and feeling rather than their rationality. When buying a professional hair care product people receive much more than the actual product itself. People improve not only physical appearance but they also feel beautiful from within. While the utilitarian function is basically the same in both professional hair care and retail products, the former contributes to higher degree of satisfaction.</p>

beauty

aesthetics

hair care

purchasing behaviour

marketing

skönhet

estetik

hårvård

köpbeteende

marknadsföring

Business studies

Företagsekonomi

Beauty and Aesthetics : A study of the Professional Hair Care Industry in Sweden / Skönhet och Estetik : En studie om den professionella hårvårdsindustrin i Sverige

Kristoffersson, Rickard, Silickaitė, Auksė

January 2010

Background: Beauty is a subject which is not easy to grasp especially as it is perceived differently. In advertising it is expressed through aesthetic messages and images which we relate to symbolic and social meanings. The professional hair care industry in Sweden serves as a good example where the creation of aesthetic experience influences consumer purchasing behaviour. Purpose: The purpose of our thesis is to study how consumers´ subjective view on beauty and aesthetics can be influenced by the professional hair care industry and how a market is created for products which mainly satisfy emotional needs rather than fulfil utilitarian function. Research Method: In our study we have applied an abductive research method approach. The empirical findings were based on 3 interviews with P&amp;G Salon Professional representatives and 15 end consumers combined with a survey, conducted in 25 hair salons in the city of Linköping. Conclusion: Consumers act in a socially constructed world in which products are shaped around impulse and feeling rather than their rationality. When buying a professional hair care product people receive much more than the actual product itself. People improve not only physical appearance but they also feel beautiful from within. While the utilitarian function is basically the same in both professional hair care and retail products, the former contributes to higher degree of satisfaction.

beauty

aesthetics

hair care

purchasing behaviour

marketing

skönhet

estetik

hårvård

köpbeteende

marknadsföring

Business studies

Företagsekonomi

Next Generation Sequencing Reveals Gene Expression Patterns in the Zebrafish Inner Ear Following Growth Hormone Injection

Rajadinakaran, Gopinath

01 August 2012

Loss of hair cells due to acoustic trauma results in the loss of hearing. In humans, unlike other vertebrates, the mechanism of hair cell regeneration is not possible. The molecular mechanisms that underlie this regeneration in nonmammalian vertebrates remain elusive. To understand the gene regulation during hair cell regeneration, our previous microarray study on zebrafish inner ears found that growth hormone (GH) was significantly upregulated after noise exposure. In this current study, we utilized Next Generation Sequencing (NGS) to examine the genes and pathways that are significantly regulated in the zebrafish inner ear following sound exposure and GH injection. Four groups of 20 zebrafish each were exposed to a 150 Hz tone at 179 dB re 1μPa RMS for 40 h. Zebrafish were injected with either salmon GH, phosphate buffer or zebrafish GH antagonist following acoustic exposure, and one baseline group received no acoustic stimulus or injection. RNA was extracted from ear tissues at 1 and 2 days post-trauma, and cDNA was synthesized for NGS. The reads from Illumina Pipeline version SCS 2.8.0 were aligned using TopHat and annotated using Cufflinks. The statistically significant differentially expressed transcripts were identified using Cuffdiff for six different pairwise comparisons and were analyzed using Ingenuity Pathway Analysis. I found significant regulation of growth factors such as GH, prolactin and fibroblast growth factor receptor 2, different families of solute carrier molecules, cell adhesion molecules such as CDH17 and CDH23, and other transcription factors such as Fos, FosB, Jun that regulate apoptosis. Analysis of the cell proliferation network in the GH-injected condition compared to buffer-injected day 1 showed significant up-regulation of GH while downregulation of apoptotic transcription factors was found. In contrast, the antagonist-injected condition compared to the GH-injected condition showed an opposite pattern in which up-regulation of apoptotic transcription factors were found while GH was down-regulated. A number of other transcripts (e.g., POMC, SLC6A12, TMEM27, HNF4A, CDH17 and FGFR2) that showed up-regulation in GH-injected condition showed down-regulation in antagonist-injected condition. These results strongly suggest that injection of exogenous GH potentially has a protective role in the zebrafish inner ear following acoustic trauma.

Danio rerio

hair cell

transcriptome

apoptosis

acoustic trauma

Behavior and Ethology

Cell Biology

Developmental Biology

Disease mechanisms in the C3H/HeJ Mouse Model of Alopecia

Barekatain, Armin

05 1900

Alopecia areata (AA) is a chronic inflammatory disease of hair follicles manifesting as patchy areas of hair loss on the scalp and body. Development of AA is associated with pen- and intra-follicular inflammation of anagen stage hair follicles, primarily by CD4+ and CD8+ cells. We hypothesized that if cell-mediated cytotoxicy against hair follicles is to be a component of the hair loss disease mechanism, increased expression of genes and products typical of cytotoxic cells, as well as increased apoptosis activity within affected hair follicles, would be expected to occur in the lesional skin compared to the normal skin. Furthermore, we studied gene expression levels of multiple cytokines and characteristic chemokines, using the C3FI/HeJ mouse model of AA. mRNA expression levels of granzyme A, granzyme B, perform Fas, Fas ligand, TNF-cL, TNF-aRl and R2, TRAIL, TRAILR, TRAMP, Thi-, Th2-, and Th17-associated cytokines, as well as multiple chemokines were compared between the skin, draining lymph nodes, thymus and spleens of normal and AA-affected mice using quantitative reverse transcriptase PCR. FasL, granzyme A, granzyme B, pro- and anti-inflammatory cytokines were all highly up-regulated in the skin of AA-affected mice. Immunohistochemical studies of the skin revealed that, although greater numbers of granzyme B and FasL expressing cells were present in AA affected skin, the cells were morphologically diffusely distributed and not exclusively located within the focal pen- and intrafollicular infiltrate. The majority of these cells were further characterized as mast cells, which were also found in substantially greater numbers in the skin of mice with AA compared to their normal haired controls. Almost no perform expressing cells were identified in AA affected mouse skin and TUNEL staining suggested relatively limited apoptosis activity in hair follicle keratinocytes. In conclusion, while granzymes and FasL may play important roles in disease development, the profiles and patterns of expression are not consistent with direct cell-mediated cytotoxic action against the follicular epithelium in chronic mouse AA. Potentially, hair growth inhibiting cytokines may play a more dominant role in AA development than previously thought. Furthermore, mast cells, with their increased presence around hair follicles in the AA affected mouse skin and their ability to express granzyme B and FasL, are suggested as potential key players in the pathogenesis of AA.

Alopecia areata

Hair follicles

Autoimmunity

Cell-mediated cytotoxicity

Cytokines

Mast cells

The development of the neurosensory elements of the inner car: the role of sox2and notch signalling

Mendes Neves, Joana

11 December 2009

The experiments described in this thesis report were aimed at studying the functions of Sox2 and Serrate1 during the development of the neurosensory elements of the inner ear. First, we have described the expression pattern of Sox2 during inner ear development and compared to that of Sox3 and Serate1. Secondly, we have shown the results of plasmid based in ovo electroporation experiments, designed to manipulate gene expression exogenously, and to study the gain of function of Sox2 and Serrate1. Effects on cell fate and downstream targets were assessed by in situ hybridization immunohistochemistry and quantitative real-time PCR (qRT-PCR).The results show that Sox2 is expressed in the neurosensory domain of the otic epithelium during the neurogenic period of otic development and, later on, during the development of the prosensory patches and sensory organs. As differentiation proceeds, Sox2 is excluded from differentiated neurones and hair cells, but remains expressed in the supporting cells of the sensory organs. Sox3 is co-expressed with Sox2 in the neurogenic domain of the otic cup. But Sox3 is then down-regulated and only Sox2 expression persists in the sensory precursors, where it is co-expressed with the Notch ligand Serrate1. The expression domain of Serrate1 is initially nested within Sox2, however, later in development Sox2 becomes restricted within the boundaries of Serrate1 expression, a process that is concomitant to the formation of the sensory patches. These expression patterns suggest: 1) that Sox2 correlates with neurosensory fate in the otic placode, 2) that neurogenesis is associated with Sox2 and Sox3 and 3) that sensory development is associated with Sox2 and Serrate1.Gain of function studies show that Serrate1 regulates prosensory fate and sensory organ development by maintaining Sox2 expression in restricted domains of the otocyst, without affecting neurogenesis. Serrate1 operates in a Notch-dependent manner, consistently with a mechanism of lateral induction that includes the induction of its own expression and downstream targets of the Notch signalling pathway Hes1, Hey1 and Hey2. Similar studies on Sox2 indicate that it specifies neurosensory fate in the otic epithelium. However, high concentrations of Sox2 suppress sensory fate and promote neuronal fate. Besides, Sox2 prevents cell differentiation though the cooperation with Notch and BMP signalling pathways.We like to propose a model in which an extended neural competence is early established in the otic placode with the early expression of Sox2 and Sox3 genes. The cooperation between Sox2 and Sox3 then provides a high concentration of SoxB1 protein and promote neuronal fate. In parallel, Serrate1 maintains Sox2 expression in restricted domains, after Sox3 down-regulation. These domains retain the neurosensory competence and thereby develop as sensory patches. / Los experimentos descritos en esta tesis tuvieron por objetivo estudiar la función de Sox2 y Serrate1 en el desarrollo de los elementos neurosensoriales del oído. En primer lugar describimos el patrón de expresión de Sox2 durante el desarrollo del oído y lo comparamos con el de Sox3 y Serrate1. En segundo lugar, mostramos los resultados de experimentos de electroporación in ovo, diseñados para manipular exógenamente la expresión génica y estudiar la ganancia de función de Sox2 y Serrate1. Los efectos sobre el destino celular y las dianas moleculares se analizaron mediante hibridación in situ, inmunocitoquímica y real-time PCR (qRT-PCR).Los resultados muestran que Sox2 se expresa en el dominio neurosensoerial del epitelio ótico durante la fase de neurogénesis y, más adelante, durante el desarrollo de los parches prosensoriales y los órganos sensoriales. Con la diferenciación, Sox2 es excluido de las neuronas diferenciadas y las células ciliadas, pero permanece expresado en las células de soporte. Sox3 se coexpresa con Sox2 en el dominio neurogénico de la copa ótica. Pero entonces, la expresión de Sox3 se reduce y sólo Sox2 persiste en los precursores sensoriales, en donde se co-expresa con el ligando de Notch Serrate1. El dominio de expresión de Serrate1 está inicialmente contenido en el de Sox2, sin embargo, más adelante, Sox2 se restringe dentro de los límites de Serrate1, un proceso que es concomitante con la formación de los parches sensoriales. Estos experimentos sugieren que : 1) Sox2 se correlaciona con el destino neurosensorial de la placoda ótica, 2) la neurogénesis está asociada con Sox2 y Sox3, y 3) el desarrollo sensorial está asociado a la expresión de Sox2 y Serrate1Los estudios de ganancia de función muestran que Serrate1 regula el destino prosensorial y el desarrollo de los órganos sensoriales mediante el mantenimiento de la expresión de Sox2 en dominios restringidos del otocisto, sin afectar a la neurogénesis. Serrate1 opera en un modo dependiente de Notch, consistente con un mecanismo de inducción lateral que comprende la inducción de su propia expresión y la de las dianas de Notch Hes1, Hey1 and Hey2. Estudios similares sobre Sox2 indican que Sox2 especifica el destino neurosensorial en el epitelio ótico. Sin embargo, las concentraciones altas de Sox2 suprimen el destino sensorial y promueven el destino neuronal. Además, Sox2 previene la diferencoiación celular mediante la cooperación con Notch y Bmp. Se propone un modelo en el cual la competencia neural se establece tempranamente en la placoda ótica mediante la expresión temprana de Sox2 y Sox3. La cooperación entre Sox2 y Sox3 provee una alta concentración de factores SoxB1 que promueven el destino neuronal de los progenitores. En paralelo, Serrate1 mantiene la expresión de Sox2 en dominios restringidos tras la supresión de Sox3. Estos dominios, retienen el potencial neurosensorial y, más adelante, se desarrollan como parches sensoriales.

Notch

Serrate1

Sox2

célula ciliada

Hair cell

oído interno

Inner ear

57

Negotiating Beauty Ideals: Perceptions of Beauty Among Black Female University Students

Swain, Fiana O

01 April 2012

This thesis explores the college lives of Black women who attend or recently attended majority white colleges and universities in the United States. Emphasis is placed on how Black women’s college experience is influenced by the way they define beauty, as well as how they perceive their White peers to define beauty. Through the collection of ten in-depth interviews, I examine how Black women’s perceptions of beauty compare with those of mainstream United States standards and those of the dominant culture of their schools. I explored how the Black women I interviewed responded when confronted with these mainstream beauty standards and how these standards influence their social and academic lives on campus.

Beauty perceptions

Beauty standards

Body image

Skin color

Hair Black

African-American

Women

Identity

College students

Biophysical Interactions of the OHC Motor Protein Prestin: A Study at the Single Molecule Level

January 2011

The exquisite frequency selectivity and amplification characteristics of mammalian hearing intimately depend on the fast electromechanical motion of the outer hair cells in the cochlea. This membrane based process, termed electromotility, is driven by the protein prestin which is uniquely present in the OHC lateral wall. Voltage dependent motility, in OHCs and mammalian cells expressing prestin, is accompanied by intramembranous charge movement which is widely considered a signature of electromotility and prestin function. How prestin converts changes in membrane potential into axial length changes of OHCs is currently not understood at the molecular level. Many electromotility models predict that prestin conformational changes are the underlying mechanism connecting charge movement and motility. Currently, however, only indirect evidence for a prestin conformational change is available. Various experiments have indicated that the oligomeric states of prestin may be an important determinant of function. Numerous reports have provided varying estimates of prestin oligomeric state. However, estimates have been based on measurements performed outside the membrane making, firm biophysical conclusions difficult. Biophysical studies of prestin function have demonstrated its dependence on membrane properties. Alterations of membrane cholesterol affect voltage dependence of charge movement and motility. In addition cholesterol manipulations cause spatial redistribution of prestin and possibly change prestin oligomeric state. However, the underlying cause for prestin sensitivity to cholesterol and its relation to membrane distribution is unknown. We have applied single molecule fluorescence (SMF) imaging, single particle tracking (SPT), and Förster resonance energy transfer (FRET) to investigate prestin interactions at the molecular level. The results of our SMF experiments have suggested that prestin forms mainly tetramers and dimers in the cell membrane. Using SPT to map the trajectories of prestin in the membrane, we have found that prestin undergoes diffusion in and hops between membrane confinements of varying size. In addition, we have found that cholesterol affects the size and confinement strength of the compartments but does not affect the diffusivity within the compartments. Finally, using a combination of electrophysiology and FRET we have demonstrated that prestin undergoes voltage dependent structural changes. In total, our results refine our molecular understanding of prestin function.

Biological sciences

Outer hair cells

Motor proteins

Prestin

Conformational change

Biophysics

Evaluation of Hair Modeling, Simulation and Rendering Algorithms for a VFX Hair Modeling System

Hedberg, Vilhelm

January 2011

Creating realistic virtual hair consists of several major areas: creating the geometry, moving the hair strands realistically and rendering the hair. In this thesis, a background survey covering each one of these areas is given. A node-based, procedural hair system is presented, which utilizes the capabilities of modern GPUs. The hair system is implemented as a plugin for Autodesk Maya, and a user interface is developed to allow the user to control the various parameters. A number of nodes are developed to create effects such as clumping, noise and frizz. The proposed system can easily handle a variety of hairstyles, and pre-renders the result in real-time using a local shading model.

hair modeling

hardware rendering

light scattering

physically-based simulation

TECHNOLOGY

TEKNIKVETENSKAP

The Effects of Growth Hormone in the Inner Ear of Zebrafish (<i>Danio rerio</i>) during Hair Cell Regeneration

Lin, Chia-Hui

01 August 2010

Although deafness is a universal problem, effective treatments have remained elusive. In order to develop potential treatments, an overall understanding of the cellular process of auditory hair cell regeneration, which occurs in fish but not mammals, must be established. A previous microarray analysis and qRT-PCR validation of noise-exposed zebrafish showed that growth hormone (GH) was significantly upregulated during the process of auditory hair cell regeneration. Thus, GH may play an important role during hair cell regeneration. However, cellular effects of exogenous GH in the zebrafish auditory hair cell regeneration have not been examined after noise exposure. To understand the effect of GH in hair cell regeneration, adult zebrafish were exposed to a 150 Hz pure tone at a source level of 179 dB re 1 μPa RMS for 36 hours. Afterward the fish were immediately injected intraperitoneally with carp recombinant GH (20 μg/gram of body mass) or buffer (0.1 M, pH 7.4 phosphate buffer) and then placed in a recovery tank. The effect of GH on apoptosis in fish inner ear end organs were examined using TUNEL-labeling. Cell proliferation was measured by BrdU incorporation assay. Hair cell regeneration was determined by phalloidin-labeling to allow visualization of hair cell stereociliary bundles. After GH injection, the numbers of TUNEL-labeled cells showed a significant decrease in all three inner ear end organs (saccule, lagena, utricle), suggesting GH may suppress hair cell death induced by acoustic trauma. Higher levels of cell proliferation were also observed in the ears of GH-injected fish, indicating that GH is capable of activating cell mitosis in the zebrafish auditory system. Following sound exposure, the GH-injected group exhibited greater numbers of saccular hair cell bundles compared to the buffer-injected group. These results indicate that GH promotes hair cell regeneration following acoustic damage. Future studies are needed to examine the potential therapeutic benefits of GH in the mammalian ear.

Zebra danio

regeneration (biology)

sensory receptors regeneration

hair cells generation

Aquaculture and Fisheries

Cell Biology

Genetics