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81	The active compression wave cochlear amplifier Flax, Matthew Raphael, Electrical Engineering & Telecommunications, Faculty of Engineering, UNSW January 2008 (has links) This thesis investigates hair cell (He) homeostasis and the compression wave cochlear amplifier. In the first part of the thesis, an accurate physiological treatment of a generic HC is conducted using a nonlinear distributed parameter physical model. This model includes the major ionic species (sodium, potassium and chlorine), defining the active cellular homeostatic properties. This model is used for transient response analysis. Resting state and transient responses of the HC model are in excellent agreement with the experimental literature. HCs in this model are most simply classified as instantaneous nonlinear transduction devices (i. e. their homeostatic mechanisms are not significantly frequency selective). A compression wave cochlear amplifier (CW-CA) is defined and modelled for the first time in the second part of the thesis. It is a physiological model that addresses three main elements present in the peripheral hearing circuit: cochlear mechanics, HC nonlinearity, and neurology. The actual physiological feedback mechanism of the CW-CA is realistic. A passive travelling wave (or other mechanical) vibration is the input to the system. Whilst the travelling wave wiggles the Organ of Corti, the compression wave pulsates it. The CW-CA is an alternative to the physiologically ill-defined locally active travelling wave cochlear feedback amplifier proposed by others. The new CW-CA model results in a cycle-by-cycle amplifier with nonlinear response. It is capable of assuming an infinite number of different operating states. The stable and first few amplitude-limited unstable states are significant in describing the operation of the peripheral hearing system. The CW-CA model can explain a large number of hearing phenomena. Several of these are investigated by means of a system analysis for both the stable and unstable cases. The system is studied and the tone, two-tone suppression and distortion product responses are found to align well with published results. Explanations for various mechanical, HC and neurological phenomena are discussed and presented. For example, previously poorly understood phenomena such as otoacoustic emissions and neural spontaneous rates are accounted for. Homeostasis Amplifiers (Electronics) Hair cells
82	Biochemical studies on trichohyalin : the origin of the citrulline-containing proteins in the hair follicle / by Joseph Attila Rothnagel Rothnagel, Joseph Attila January 1985 (has links) Offprints of the author's articles inserted / Bibliography: leaves [122]-145 / vii, 147 leaves, [22] leaves of plates : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Biochemistry, 1985 574.19245 19 Hair follicles. Proteins.
83	Construction and validation of a self-report measure of trichotillomania distress : the hairpulling distress and impairment scale (HDIS) / Larson, Christine M. January 2007 (has links) Dissertation (Ph.D.)--University of Toledo, 2007. / Typescript. "Submitted as partial fulfillment of the requirements for the Doctor of Philosophy degree in Psychology." Bibliography: 76-83.
84	The Taxonomic Significance of the Foliar Epidermal Hairs of Several Families of Dicotyledons McCarty, Faye A. January 1945 (has links) The present investigation deals with the study of non-glandular epidermal hairs from the leaves of two hundred representative dicotyledons of forty-eight families in the Central North Texas area. Special attention has been given to the Compositae and Leguminosae in an effort to find a possible correlation between epidermal hair morphology and the taxonomic position of the plants concerned. biology dicotyledon plant hair Dicotyledons.
85	Skin, Hair, and Nails Merriman, Carolyn 01 January 2013 (has links) No description available. skin hair nails College of Nursing
86	Stress, Dying, and Disease: Hair Cortisol Concentration in the Study of Stress at the End of Life in the Past and Present / HAIR CORTISOL CONCENTRATION ANALYSIS IN THE STUDY OF THE DEAD AND DYING East, Kaitlin January 2021 (has links) Dying produces human remains and is a unique period of human lives that remains poorly understood. The aims of this research were to validate the use of hair cortisol concentration (HCC) analysis in the study of stress at the end of life and to explore the effects of biocultural factors on stress experience in the last months of life. This study examined the dead from the 1st century CE Egypt, 19th-20th century Missouri, and 21st century Florida. A framework of embodiment and the good death was employed to interpret lived experience from HCC and examine the relationships between HCC, death, cause of death, duration of disease, and medical care and treatment. HCC in the dead is higher than in the living, varies considerably between individuals, and can fluctuate across the last months of life. High HCC at the end of life cannot be easily accounted for by medications, serious disease, or decomposition; are within possible biological ranges; and are dynamic. However, leaching of cortisol from the archaeological samples is likely. Duration of disease or presence of multiple medical conditions does not influence HCC. While modern medical advancements do not improve stress levels in the dead, a reduction in stress is observed following hospital entry in the past. HCC is a valid measure of stress at the end of life. The last months of life are periods of significant stress but dying is an inherently personal and dynamic experience that varies between individuals and over many months leading up to death due to the interaction of multiple biocultural factors. These findings contribute to the understanding of a unique period of individual lives, suggest that studies of HCC in bioarchaeology must focus on the dying period and be wary of leaching, and highlight the potential of HCC in palliative care research. / Dissertation / Doctor of Philosophy (PhD) / Today, death is often regarded with uncertainty and even fear, yet little is known about the experience of dying, especially in the past. Dying is difficult to study in modern people because of communication challenges and the number of complex factors at play while studies of the past are limited because human remains do not reveal how individuals felt. A better understanding of the dying experience can help bioarchaeologists clarify the relationship between dying, death, and skeletal remains and could help improve the care of dying people today. This research evaluated a new method of stress assessment to study experiences in the last months of life in archaeological, historic, and modern samples. Hair cortisol concentration (HCC) analysis measures stress hormones in human hair to reconstruct stress experience at the time the hair was growing. High levels of HCC in dead individuals from 1st century AD Egypt, 19th-20th century Missouri, and 21st century Florida indicate that dying is stressful across time and place. HCC values from the Egyptian sample were higher than most living people but were lower than other archaeological samples which may be a result of cortisol leaching out of the hair shaft after death. Although higher than living people, HCC levels still differed between individuals and across individual hair shafts, indicating that stress experience can be different between individuals and change over an individual’s final months. These differences are not a result of biological factors such as duration of disease or the presence of certain preexisting conditions suggesting that stress at the end of life is complex. Despite advancements in medicine, the modern sample displayed similar HCC levels to those from earlier historic periods and for a number of individuals from the historic sample, hospital entry led to a temporary reduction in HCC levels. Together, these findings suggest that, while modern medical advancements have not improved stress levels at the end of life, some aspects of care could reduce stress. The results of this study indicate that dying is a stressful, complex, and dynamic phenomenon that modern medical treatment alone may not be able to improve. Furthermore, studies of HCC in archaeology must focus on the effects of dying and be wary of leaching. Ultimately, HCC analysis could contribute to a greater knowledge of the dying experience, the understanding of past peoples, and improvement of the experience of dying. hair cortisol dying bioarchaeology stress
87	Obtaining Unique Fingerprints from Human Hair Samples Using Proteomic Data Beasley, Maryssa 27 April 2017 (has links) No description available. Chemistry Hair Proteomics PCA SIMCA
88	Hair Bundle Stiffness in the Turtle Utricle: Structural and Regional Variations Spoon, Corrie E. 21 December 2007 (has links) Vestibular hair cells are mechanotransducing sensory receptors in the vertebrate inner ear that detect movement and orientation of the head with respect to gravity. The morphologies of their ciliary bundles vary greatly for different species, endorgans, and within the same endorgan. Bundle morphology in the turtle utricle, like other species, demonstrates highly organized regional variations. These structural differences in bundles impact their mechanical behavior and the process of mechanotransduction. To further understanding of the mechanical behavior of hair bundles, this work experimentally measured the stiffness of bundles with differing morphology, the stiffness contribution of interciliary links and the mechanical properties of the kinocilium in the turtle utricle. The stiffness of hair bundles of varying structure and location along a medial to lateral transect of the utricle was examined. Bundle stiffness was greatest in the striola and demonstrated a systematic decline with location from the line of polarity reversal. The average stiffness of bundles in the striola and extrastriola were 82 ± 46 (n=48) and 9 ± 5 (n=25) ÂµN/m, respectively. The stiff and weak bundles demonstrated characteristic morphologies. The stiffest bundles have short kinocilium, tall stereocilia, and ratios of kinocilium to tallest stereocilia height (KS) close to 1. In contrast, the compliant bundles have tall kinocilium, short stereocilia, and KS ratios ranging from 1.6 – 8. The stiffer bundles also tend to have longer array lengths and steeper slopes. Measurements of bundle stiffness in the turtle utricle are lower than those previously reported which may be attributed to morphological differences between species. The stiffness contributions of the interciliary links were also examined through their selective removal with exposure to the Ca²⁺ chelator BAPTA and the protease subtilisin. BAPTA treatment reportedly breaks tip, kinocilial and ankle links while subtilisin breaks the shaft and ankle links. Following BAPTA and subtilisin treatments, bundle stiffness reduced by 65 ± 10% and 63 ± 11%, respectively. The mechanical properties of the kinocilium were measured with novel techniques. Flexural rigidity (EI) was measure while the kinocilium was fixed at the height of the tallest stereocilia using a glass supporting probe. Through both force deflection and a high speed video technique, measured values of EI ranged from 1460 – 6150 pN·µm2. The rotational stiffness of the kinocilium about its apical insertion was also measured. Bundles were treated with BAPTA to break the kinocilial links and separate the kinocilium from neighboring stereocilia. Using a force deflection technique, the rotational stiffness of the kinocilium was measured as 120 ± 17 pN·µm/rad. / Ph. D. kinocilium utricle hair bundle stiffness
89	Histological correlates of postmortem DNA damage in degraded hair Janaway, Robert C., Cooper, A., Gilbert, M.T.P., Tobin, Desmond J., Wilson, Andrew S. January 2006 (has links) No / We have assessed the histological preservation of naturally degraded human hair shafts, and then assayed each for levels of amplifiable mitochondrial DNA and damage-associated DNA miscoding lesions. The results indicate that as sample histology is altered (i.e. as hairs degrade) levels of amplifiable mitochondrial DNA decrease, but no correlation is seen between histology and absolute levels of mitochondrial DNA miscoding lesions. Nevertheless, amplifiable mitochondrial DNA could be recovered across the complete range of the histological preservation spectrum. However, when template copy number is taken into consideration, a correlation of miscoding lesions with histology is again apparent. These relationships indicate that a potential route for the generation of misleading mitochondrial sequence data exists in samples of poor histology. Therefore, we argue that in the absence of molecular cloning, the histological screening of hair may be necessary in order to confirm the reliability of mitochondrial DNA sequences amplified from hair, and thus represents a useful tool in forensic mitochondrial DNA analyses. Damage Hair Histology Mitochondrial DNA
90	The condition of the Deer Park Farms hair and its potential for stable isotope investigation Wilson, Andrew S. January 2009 (has links) No Deer park farms Isotope Hair

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