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Artykuły w czasopismach na temat "Vellus hair":
Jalu, Jigisha, K. Haritha i Anchala Parthasaradhi. "Eruptive vellus hair cyst". Indian Journal of Paediatric Dermatology 17, nr 1 (2016): 76. http://dx.doi.org/10.4103/2319-7250.172473.
Torchia, Daniele, Janelle Vega i Lawrence A. Schachner. "Eruptive Vellus Hair Cysts". American Journal of Clinical Dermatology 13, nr 1 (luty 2012): 19–28. http://dx.doi.org/10.2165/11589050-000000000-00000.
Hornstein, Edmund, Carver Wilcox, Dennis Oberlies, Weldon Schott i Steven Hayne. "Eruptive Vellus Hair Cyst". International Journal of Dermatology 25, nr 6 (lipiec 1986): 395–96. http://dx.doi.org/10.1111/j.1365-4362.1986.tb03433.x.
Sexton, Mack, i David K. Murdock. "Eruptive Vellus Hair Cysts". American Journal of Dermatopathology 11, nr 4 (sierpień 1989): 364–68. http://dx.doi.org/10.1097/00000372-198908000-00011.
Almeida Jr, Hiram Larangeira de, Lisia Nudelmann, Joice Göebel, Nathália Janovik i Juliana Hein. "Vellus hair cysts presenting as an atypical acneiform eruption". Anais Brasileiros de Dermatologia 86, nr 4 (sierpień 2011): 789–90. http://dx.doi.org/10.1590/s0365-05962011000400027.
Benoldi, D., i F. Allegra. "Congenital Eruptive Vellus Hair Cysts". International Journal of Dermatology 28, nr 5 (czerwiec 1989): 340–41. http://dx.doi.org/10.1111/j.1365-4362.1989.tb01360.x.
Tran, Bryant, Ashley R. Curtis, Andrew D. Lee i Gil Yosipovitch. "Acquired eruptive vellus hair cysts". International Journal of Dermatology 50, nr 8 (22.07.2011): 1032–33. http://dx.doi.org/10.1111/j.1365-4632.2009.04445.x.
RODGERS, SARAH A., KEVIN KITAGAWA, M. A. SELIM i JANE S. BELLET. "Familial Eruptive Vellus Hair Cysts". Pediatric Dermatology 29, nr 3 (9.12.2011): 367–69. http://dx.doi.org/10.1111/j.1525-1470.2011.01411.x.
Hong, Sandy D., i Ilona J. Frieden. "Diagnosing Eruptive Vellus Hair Cysts". Pediatric Dermatology 18, nr 3 (maj 2001): 258–59. http://dx.doi.org/10.1046/j.1525-1470.2001.018003258.x.
YAMAMURA, Kazuhiko, Takeshi NAKAHARA, Yoichi MOROI i Masutaka FURUE. "Eruptive Vellus Hair Cysts on the Cheeks". Nishi Nihon Hifuka 72, nr 5 (2010): 443–44. http://dx.doi.org/10.2336/nishinihonhifu.72.443.
Rozprawy doktorskie na temat "Vellus hair":
Rushton, D. H., Gillian E. Westgate i Neste D. J. Van. "Following historical 'tracks' of hair follicle miniaturisation in patterned hair loss: Are elastin bodies the forgotten aetiology?" Wiley, 2021. http://hdl.handle.net/10454/18515.
Pattern Hair Loss (PHL) is a chronic regressive condition of the scalp, where follicular miniaturisation and decreased scalp hair coverage occurs in affected areas. In all PHL cases there is a measurable progressive shortening of the terminal hair growth duration, along with reduced linear growth rates. In both genders, PHL initially shows an increase in short telogen hairs ≤30mm in length, reflecting a cycle completion of under six months in affected terminal hair follicles. To understand the miniaturisation process, we re-examine the dynamics of miniaturisation and ask the question, 'why do miniaturised hair follicles resist treatment?' In the light of recent developments in relation to hair regeneration, we looked back in the older literature for helpful clues 'lost to time' and reprise a 1978 Hermann Pinkus observation of an array of elastin deposits beneath the dermal papilla following subsequent anagen/telogen transitions in male balding, originally described by Arao and Perkins who concluded that these changes provide a "morphologic marker of the entire biologic process in the balding scalp". Thus, we have reviewed the role of the elastin-like bodies in hair pathology and we propose that alterations in elastin architecture may contribute to the failure of vellus-like hair reverting back to their terminal status and may indicate a new area for therapeutic intervention.
Kamala, Ola. "A Comparison of Cultured Human Dermal Fibroblasts Derived from Terminal and Vellus Hair Bearing Skin. Differences in the expression of inhibitors of apoptosis proteins, oestrogen receptors, and responses to oestradiol under normal and wound induced conditions". Thesis, University of Bradford, 2014. http://hdl.handle.net/10454/13841.
Jorge, Aline Roberta Campos Donati. "Caracterização clínica e laboratorial do acometimento dos folículos velos e da epiderme da face, pescoço e região anterossuperior do tórax na alopecia frontal fibrosante". Universidade de São Paulo, 2018. http://www.teses.usp.br/teses/disponiveis/5/5133/tde-05122018-123917/.
INTRODUCTION: Frontal fibrosing alopecia (FFA) is a lymphocytic primary cicatricial alopecia first described in 1994. Its incidence has been rapidly rising worldwide, possibly related to an environmental trigger. The use of facial leave-on creams has been associated with the disease in a recent publication. Vellus follicles involvement and epidermal changes outside the scalp region have been described in FFA patients in the past few years and seem to be an early event in the disease course. OBJECTIVES: To evaluate vellus follicle and epidermal involvement over the facial, neck and upper chest skin in a series of FFA patients. METHODS: This study consisted of three parts. In the first part, prevalence of clinical and dermoscopic findings related to vellus follicle and epidermal involvement in 37 FFA patients was investigated. In part two, epidermal thickness in skin biopsies from 20 FFA patients was compared with 20 control biopsies from the same body site. In the last part, epidermal thickness and follicular density over the frontal hairline were investigated in a group of 21 FFA patients and 21 gender, age and phototype matched controls through \"in vivo\" reflectance confocal microscopy. RESULTS: Vellus follicle involvement in FFA is not restricted to frontal hairline and varies from 30 to 97% according to facial region, with greater frequencies observed on the upper face region. Facial papules were detected in 60% of our patients, most frequently over the temples (11/37 patients), malar (10/37 patients) or chin (6/37 patients) area. Half of our patients (51%) presented hyperchromic lesions compatible with FFA associated lichen planus pigmentosus. Hyperchromic lesions were observed over the face (18/19 patients), but also over the neck (7/19 patients) and upper chest (4/19 patients) skin. Hyperchromic lesions were less frequent in patients with lighter phototypes (p=0.022). Epidermal thickness of FFA patients did not differ from controls both in histology and \"in vivo\" evaluation. Frontal hairline follicular density lower than 3.56 follicles/mm2 on confocal microscopy examination presented 90.5% sensitivity, 90.5% specificity and OR = 90.24 (CI95% 9.5-1132; p < 0.001) for FFA diagnosis. CONCLUSIONS: Facial vellus follicle involvement is frequent and can be easily detected through dermoscopy in most patients. Facial papules are observed in 60% of our patients. Lichen planus pigmentosus lesions are less frequently observed in fair skin patients. Epidermal thinning is not observed in FFA patients when adequate control group is included. Frontal hairline follicular density measured by confocal microscopy has high accuracy for FFA diagnosis
Rotger, Moll Gemma. "Lifelike Humans: Detailed Reconstruction of Expressive Human Faces". Doctoral thesis, Universitat Autònoma de Barcelona, 2021. http://hdl.handle.net/10803/671306.
Desarrollar personajes digitales similares a los humanos es un reto, ya que los humanos estamos acostumbrados a reconocernos entre nosotros y a encontrar a los CGI poco humanos. Para cumplir con los estándares de las producciones de videojuegos y películas digitales, es necesario modelar y animar a estos personajes de la manera más parecida posible a los humanos. Sin embargo, es una tarea ardua y costosa, ya que se requiere a muchos artistas y especialistas trabajando en un solo personaje. Por lo tanto, para cumplir con estos requisitos, encontramos la creación automática de CGIs detallados a través de setups económicos una opción interesante para estudiar. En este trabajo, desarrollamos técnicas novedosas para conseguir personajes detallados combinando diferentes aspectos que se destacan al desarrollar el realismo como detalles de la piel, pelos faciales, expresiones y microexpresiones. Examinamos cada una de las áreas mencionadas con el objetivo de recuperar cada una de las partes automáticamente sin interacción del usuario ni datos para el aprendizaje. Estudiamos los problemas buscando su robustez, pero también la simplicidad de la configuración, prefiriendo soluciones que requieren una sola imagen con iluminación no controlada y cálculos que pueden obtenerse con la comodidad de un ordenador portátil estándar. Una cara detallada con arrugas y detalles de la piel es vital para desarrollar un personaje realista. En este trabajo, presentamos nuestro método para describir automáticamente las arrugas faciales en la imagen y transferirlas a la cara base recuperada. Luego proponemos la recuperación del vello facial resolviendo un problema de ajuste de parámetros con un nuevo modelo de vello facial parametrizable. Por último, introducimos una función de mapeo que permite transferir expresiones y microexpresiones entre diferentes mallas, lo que proporciona animaciones realistas a nuestra cara detallada. Cubrimos todos los puntos mencionados con el enfoque puesto en aspectos clave como (i) cómo describir las arrugas faciales de una manera simple y directa, (ii) cómo recuperar 3D a partir de las detecciones 2D, (iii) cómo recuperar y modelar el vello facial de 2D a 3D, (iv) cómo transferir expresiones entre modelos que contienen tanto el detalle de la piel como el vello facial, (v) cómo realizar todas las acciones descritas sin datos de entrenamiento ni interacción del usuario. En este trabajo, presentamos nuestras propuestas para resolver estos aspectos con una configuración eficiente y simple. Validamos nuestro trabajo con varios conjuntos de datos, tanto sintéticos como reales, demostrando resultados notables incluso en casos desafiantes como oclusiones por gafas, barbas densas y, incluso, trabajando con diferentes topologías faciales como cíclopes de un solo ojo.
Developing human-like digital characters is a challenging task since humans are used to recognizing our fellows, and find the computed generated characters inadequately humanized. To fulfill the standards of the videogame and digital film productions it is necessary to model and animate these characters the most closely to human beings. However, it is an arduous and expensive task, since many artists and specialists are required to work in a single character. Therefore, to fulfill these requirements we found an interesting option to study the automatic creation of detailed characters through inexpensive setups. In this work, we develop novel techniques to bring detailed characters by combining different aspects that stand out when developing realistic characters, skin detail, facial hairs, expressions, and microexpressions. We examine each of the mentioned areas with the aim of automatically recover each of the parts without user interaction nor training data. We study the problems for their robustness but also for the simplicity of the setup, preferring single-image with uncontrolled illumination and methods that can be easily computed with the commodity of a standard laptop. A detailed face with wrinkles and skin details is vital to develop a realistic character. In this work, we introduce our method to automatically describe facial wrinkles on the image and transfer to the recovered base face. Then we advance to the facial hair recovery by resolving a fitting problem with a novel parametrization model. As of last, we develop a mapping function that allows transfer expressions and microexpressions between different meshes, which provides realistic animations to our detailed mesh. We cover all the mentioned points with the focus on key aspects as (i) how to describe skin wrinkles in a simple and straightforward manner, (ii) how to recover 3D from 2D detections, (iii) how to recover and model facial hair from 2D to 3D, (iv) how to transfer expressions between models holding both skin detail and facial hair, (v) how to perform all the described actions without training data nor user interaction. In this work, we present our proposals to solve these aspects with an efficient and simple setup. We validate our work with several datasets both synthetic and real data, prooving remarkable results even in challenging cases as occlusions as glasses, thick beards, and indeed working with different face topologies like single-eyed cyclops.
Imperiali-Decker, Odile. "Le mythe de la Vierge Noire de Montserrrat : formation et instrumentalisations (IXe-XXIe siècle)". Phd thesis, Université Nice Sophia Antipolis, 2013. http://tel.archives-ouvertes.fr/tel-00954446.
Książki na temat "Vellus hair":
Sybert, Virginia P. Disorders of Epidermal Appendages. Oxford University Press, 2012. http://dx.doi.org/10.1093/med/9780195397666.003.0003.
Sybert, Virginia P. Disorders of Epidermal Appendages. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190276478.003.0003.
Części książek na temat "Vellus hair":
Plewig, Gerd, i Albert M. Kligman. "Eruptive Vellus Hair Cysts". W ACNE and ROSACEA, 519–20. Berlin, Heidelberg: Springer Berlin Heidelberg, 1993. http://dx.doi.org/10.1007/978-3-642-97234-8_63.
Plewig, Gerd, i Albert M. Kligman. "Eruptive Vellus Hair Cysts". W ACNE and ROSACEA, 543–44. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/978-3-642-59715-2_68.
Halata, Z. "Specific Nerve Endings in Vellus Hair, Guard Hair, and Sinus Hair". W Hair and Hair Diseases, 149–64. Berlin, Heidelberg: Springer Berlin Heidelberg, 1990. http://dx.doi.org/10.1007/978-3-642-74612-3_7.
"Vellus Hair Cyst". W Diagnostic Pathology: Neoplastic Dermatopathology, 14–15. Elsevier, 2017. http://dx.doi.org/10.1016/b978-0-323-44310-4.50012-9.
Baksaas, Kjell Magne, i Tonny Stenheim. "Regnskapsplikten for små foretak med forenklinger i fokus1". W Aktuelle temaer i regnskap og revisjon, 83–120. Cappelen Damm Akademisk/NOASP, 2020. http://dx.doi.org/10.23865/noasp.112.ch3.
Streszczenia konferencji na temat "Vellus hair":
LeGendre, Chloe, Loc Hyunh, Shanhe Wang i Paul Debevec. "Modeling vellus facial hair from asperity scattering silhouettes". W SIGGRAPH '17: Special Interest Group on Computer Graphics and Interactive Techniques Conference. New York, NY, USA: ACM, 2017. http://dx.doi.org/10.1145/3084363.3085057.
Huang, Xiyong, Michael D. Protheroe, Ahmed M. Al-Jumaily i Sharad P. Paul. "The Significance of Hair Thermal Diffusivity on Melanoma Incidence". W ASME 2017 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/imece2017-71693.