Thematische Bibliographien / Skin-Stretch

Auswahl der wissenschaftlichen Literatur zum Thema „Skin-Stretch“

Autor: Grafiati
Veröffentlicht am 19. Oktober 2024

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Zeitschriftenartikel zum Thema "Skin-Stretch"

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Collins, D. F., K. M. Refshauge, G. Todd und S. C. Gandevia. „Cutaneous Receptors Contribute to Kinesthesia at the Index Finger, Elbow, and Knee“. Journal of Neurophysiology 94, Nr. 3 (September 2005): 1699–706. http://dx.doi.org/10.1152/jn.00191.2005.

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The neural mechanisms underlying the sense of joint position and movement remain controversial. While cutaneous receptors are known to contribute to kinesthesia for the fingers, the present experiments test the hypothesis that they contribute at other major joints. Illusory movements were evoked at the interphalangeal (IP) joints of the index finger, the elbow, and the knee by stimulation of populations of cutaneous and muscle spindle receptors, both separately and together. Subjects matched perceived movements with voluntary movements of homologous joints on the contralateral side. Cutaneous receptors were activated by stretch of the skin (using 2 intensities of stretch) and vibration activated muscle spindle receptors. Stimuli were designed to activate receptors that discharge during joint flexion. For the index finger, vibration was applied over the extensor tendons on the dorsum of the hand, to evoke illusory metacarpophalangeal (MCP) joint flexion, and skin stretch was delivered around the IP joints. The strong skin stretch evoked the illusion of flexion of the proximal IP joint in 6/8 subjects (12 ± 5°, mean ± SE). For the group, strong skin stretch delivered during vibration increased the perceived flexion of the proximal IP joint by eight times with a concomitant decrease in perceived flexion of the MCP joint compared with vibration alone ( P < 0.05). For the elbow, vibration was applied over the distal tendon of triceps brachii and skin stretch over the dorsal forearm. When delivered alone, strong skin stretch evoked illusory elbow flexion in 5/10 subjects (9 ± 4°). Simultaneous strong skin stretch and vibration increased the illusory elbow flexion for the group by 1.5 times compared with vibration ( P < 0.05). For the knee, vibration was applied over the patellar tendon and skin stretch over the thigh. Skin stretch alone evoked illusory knee flexion in 3/10 subjects (8 ± 4°) and when delivered during vibration, perceived knee flexion increased for the group by 1.4 times compared with vibration ( P < 0.05). Hence inputs from cutaneous receptors, muscle receptors, and combined inputs from both receptors likely subserve kinesthesia at joints throughout the body.
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Edin, B. B. „Quantitative analysis of static strain sensitivity in human mechanoreceptors from hairy skin“. Journal of Neurophysiology 67, Nr. 5 (01.05.1992): 1105–13. http://dx.doi.org/10.1152/jn.1992.67.5.1105.

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1. Microelectrode recordings from 15 slowly adapting (SA) cutaneous mechanoreceptor afferents originating in hairy skin were obtained from the radial nerve in humans. 2. Controlled skin stretch was applied to the back of the hand that encompassed the physiological range of skin stretch during movements at the metacarpophalangeal (MCP) joints. 3. Both SA Group I and II afferents showed exquisite dynamic and static sensitivity to skin stretch. The median static strain sensitivity was 1.0 imp.s-1 per percent skin stretch for SAI units and 1.8 for SAII units. 4. Translated into sensitivity to movements at the MCP joint, both SAI and SAII afferents in the skin of the back of the hand displayed a positional sensitivity that was comparable with that reported for muscle spindle afferents. 5. These data give quantitative support to suggestions that skin receptors in the human hairy skin provide information on nearby joint configurations and therefore may play a specific role in proprioception, kinesthesia, and motor control.
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Guo, Yaotao, Yajuan Song, Shaoheng Xiong, Tong Wang, Wei Liu, Zhou Yu und Xianjie Ma. „Mechanical Stretch Induced Skin Regeneration: Molecular and Cellular Mechanism in Skin Soft Tissue Expansion“. International Journal of Molecular Sciences 23, Nr. 17 (25.08.2022): 9622. http://dx.doi.org/10.3390/ijms23179622.

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Skin soft tissue expansion is one of the most basic and commonly used techniques in plastic surgery to obtain excess skin for a variety of medical uses. However, skin soft tissue expansion is faced with many problems, such as long treatment process, poor skin quality, high retraction rate, and complications. Therefore, a deeper understanding of the mechanisms of skin soft tissue expansion is needed. The key to skin soft tissue expansion lies in the mechanical stretch applied to the skin by an inflatable expander. Mechanical stimulation activates multiple signaling pathways through cellular adhesion molecules and regulates gene expression profiles in cells. Meanwhile, various types of cells contribute to skin expansion, including keratinocytes, dermal fibroblasts, and mesenchymal stem cells, which are also regulated by mechanical stretch. This article reviews the molecular and cellular mechanisms of skin regeneration induced by mechanical stretch during skin soft tissue expansion.
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Indria, Indria, und Asti Rahayu. „Effectiveness of Gotu Kola Extract Lotion (Centella Asiatica) in Reducing Stretch Marks“. Journal of Health Sciences 14, Nr. 3 (29.08.2021): 196–201. http://dx.doi.org/10.33086/jhs.v14i3.2066.

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Stretch marks result from mechanical factors, namely stretching of the skin due to the development of subcutaneous structures (interstitial adipose tissue) or biochemical factors (the presence of excessive glucocorticoids that inhibit fibroblast activity and proliferation). There is no truly effective treatment for removing striae once they have formed. This study evaluates the effectiveness of administering Gotu Kola Extract (Centella asiatica) on the stretch mark. This paper was a Quasi-Experimental study with a pretest-posttest design. This study was conducted at the Independent Practice Midwife (IMP) Zummatul Atika in October-December 2020. The population was postpartum mothers (days 0-6) with stretch marks. Meanwhile, there were 12 respondents by purposive sampling technique. The independent variable was Gotu kola extract lotion, while the dependent variable was stretch marks with ratio data. Collecting data with a structured interview to gather the characteristics of respondents and participant observation to evaluate changes (number of stretch marks, color, moisture, and skin condition) in stretch marks before and after intervention during one month. The Gotu kola extract lotion was made in the pharmacy laboratory of PGRI Adi Buana University Surabaya within several stages. The data analysis used the paired T-test, and the result showed p= 0.000, indicating a significant difference before and after the intervention. This study concludes that administering Gotu Kola Extract (Centella asiatica) lotion effectively reduces skin pigmentation and lines in stretch marks, increases skin moisture, and refines skin texture.
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Grigg, P. „Stretch sensitivity of mechanoreceptor neurons in rat hairy skin“. Journal of Neurophysiology 76, Nr. 5 (01.11.1996): 2886–95. http://dx.doi.org/10.1152/jn.1996.76.5.2886.

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1. Cutaneous mechanoreceptor neurons were recorded in a preparation of isolated rat skin while the skin was stretched with an apparatus that allowed the parameters of tensile stress and strain to be controlled. 2. SA2 afferents were strongly directionally selective in response to stretch. Their responses were correlated most strongly with the tensile stress along the unit's preferred direction and were related poorly to strain variables. Threshold tensile stresses required to activate SA2s were low, on the order of 5 kPa. 3. C-mechanoreceptors were stretch activated. They lacked directional selectivity and had tensile stress thresholds similar to SA2s. 4. Hair afferents had only dynamic responses to stretch. SA1 afferents were not stretch activated.
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Greve, Tanja M., Kristine B. Andersen, Ole F. Nielsen und Anders Engdahl. „FTIR imaging and ATR-FT-Far-IR synchrotron spectroscopy of pig ear skin“. Spectroscopy 24, Nr. 1-2 (2010): 105–11. http://dx.doi.org/10.1155/2010/716473.

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FTIR imaging was performed on pig ear skin samples cryo-sectioned perpendicular to the skin surface. The OH-stretch region revealed the distribution of water; the amide II band gave the protein distribution; the C═O stretch and C–H stretch regions showed the variation in lipids. Water and proteins were similarly distributed. Triglycerides were predominantly found in the deeper skin layers whereas free fatty acids and ceramides were more dominant in the upper layers. ATR-FT-Far-IR spectroscopy with synchrotron radiation was used on full thickness pig ear skin biopsies. The Far-IR spectra showed bands in the region from 100–150 cm–1due to hydrogen bonded proteins and a band around 180 cm–1arising from “free” water.
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Grigg, Peter, und Daniel R. Robichaud. „Rat Cutaneous RA Afferents Activated by Two-Dimensional Skin Stretch“. Journal of Neurophysiology 92, Nr. 1 (Juli 2004): 484–91. http://dx.doi.org/10.1152/jn.01011.2003.

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Skin develops biaxial stresses and strains when stretched. Rapidly adapting cutaneous mechanoreceptor neurons are known to be stretch sensitive, yet in the past, they have been studied using stretch stimuli applied along only a single direction. In this study, cutaneous rapidly adapting mechanoreceptors were studied in preparations of isolated skin in which the skin was stretched dynamically using biaxial stretch stimuli and in which loads and displacements were measured along two directions. Stretch stimuli followed a pseudo-Gaussian waveform and were applied along either one or two directions simultaneously. Associations between spikes and mechanical variables were determined using multiple logistic regression. When the skin was actuated along a single direction, holding the orthogonal axis fixed, spike responses were strongly associated with mechanical variables along the actuated direction. The variables were stress and its rate of change, the rate of change of strain, and the product of stress and its rate of change, which is proportional to strain energy density. When the skin was stretched along a single direction, spikes were very poorly associated with stress variables measured along the direction orthogonal to the stretch. Afferents showed weak directional selectivity: they were slightly more responsive to the variable stress along the circumferential direction of the hindlimb. When the skin was stretched biaxially (i.e., along both directions simultaneously) with identical pseudo-Gaussian noise stimuli, neuronal responses were associated with the same variables as above, but the associations were weaker.
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Novita, Mita, Nelva Karmila Jusuf und Imam Budi Putra. „Relationship between skin hydration and stretch marks“. Bali Medical Journal 10, Nr. 2 (31.08.2021): 935. http://dx.doi.org/10.15562/bmj.v10i2.2584.

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Shull, Peter B., Tian Tan, Heather Culbertson, Xiangyang Zhu und Allison M. Okamura. „Resonant Frequency Skin Stretch for Wearable Haptics“. IEEE Transactions on Haptics 12, Nr. 3 (01.07.2019): 247–56. http://dx.doi.org/10.1109/toh.2019.2917072.

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Guzelsu, Nejat, John F. Federici, Hee C. Lim, Hans R. Chauhdry, Art B. Ritter und Tom Findley. „Measurement of skin stretch via light reflection“. Journal of Biomedical Optics 8, Nr. 1 (2003): 80. http://dx.doi.org/10.1117/1.1527936.

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Dissertationen zum Thema "Skin-Stretch"

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Pasquero, Jérôme. „Stress : a tactile display using lateral skin stretch“. Thesis, McGill University, 2003. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=80132.

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This thesis describes a new tactile display device (Stimulator of Tactile Receptors by Skin Stretch or STReSS) exploiting lateral skin stretch of the fingertip to create tactile sensations. The device consists of an array of one hundred piezoelectric bending actuators applying local strain patterns on the user's fingertip. It was found that manufacturing the piezoelectric material in a comb shape facilitates the device's fabrication process, allows for a spatial resolution of one actuator per mm2, and guarantees high structural strength for the display. Simple but creative electronics drive the system at a 700 Hz refresh rate and keep the device compact and portable. The tactile display's manufacturing process and the controlling electronics are described. Finally, some tactile sensations experienced with the display are reported informally.
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Bark, Karlin Young Ju. „Rotational skin stretch feedback : a new approach to wearable haptic display /“. May be available electronically:, 2009. http://proquest.umi.com/login?COPT=REJTPTU1MTUmSU5UPTAmVkVSPTI=&clientId=12498.

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Liu, Yan. „Reduction of skin stretch induced motion artifacts in electrocardiogram monitoring using adaptive filtering“. College Park, Md. : University of Maryland, 2007. http://hdl.handle.net/1903/6764.

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Thesis (Ph. D.) -- University of Maryland, College Park, 2007.
Thesis research directed by: Mechanical Engineering. Title from t.p. of PDF. Includes bibliographical references. Published by UMI Dissertation Services, Ann Arbor, Mich. Also available in paper.
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Saudrais, Charlélie. „Augmentation of stiffness perception for laparoscopic surgery“. Electronic Thesis or Diss., Sorbonne université, 2024. https://accesdistant.sorbonne-universite.fr/login?url=https://theses-intra.sorbonne-universite.fr/2024SORUS205.pdf.

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La chirurgie minimalement invasive est connue pour ses avantages pour le patient, avec entre autre une douleur post-opératoire plus faible, un temps de convalescence réduit et une diminution des dommages causés aux organes. Ces avantages découlent principalement des incisions plus petites qu'elle nécessite comparées à celles d'une chirurgie dite ouverte. Ces incisions permettent l'insertion d'un endoscope et des instruments dans le corps du patient à travers des trocarts. Malgré ses avantages certains, la chirurgie minimalement invasive entraîne une plus grande complexité des gestes pour les chirurgiens. Cette difficulté accrue découle des limites que cette pratique engendre en termes de perception, en particulier de la dégradation de la perception visuelle et de la perception haptique. Plus précisément, la perception des efforts des tissus sur la pointe de l'outil est faussée par le fait qu'elle se fasse au travers d'un outil long en passant par un trocart. Le trocart plus ou moins rigide ajoute du frottement et du jeu, auquel s'ajoutent l'élasticité de la paroi abdominale et l'effet levier, faussant un peu plus les informations sensorielles qui auraient pu être intégrées. Ceci entraine notamment une faible précision lors de tâches de palpation. Dans cette thèse, nous nous intéressons aux systèmes d'augmentation sensorielle permettant de fournir l'information d'effort au chirurgien, ainsi qu'à leur intégration dans la pratique de l'utilisateur. L'objectif est de proposer et d'étudier un système de retour sensoriel portable sous forme de bracelet placé sur l'avant bras du chirurgien qui permettrait de renseigner le porteur sur l'effort mesuré en bout d'un outil laparoscopique, en venant appliquer des efforts tangentiels sur la peau, aidant à améliorer la perception de raideur en bout d'instrument. Cette approche est intéressante dans la mesure où elle combine les avantages de ne pas perturber le geste et de ne pas interférer avec les canaux sensoriels auditif et visuel déjà très chargés, avec la nature intuitive d'un retour par déformation tangentielle de la peau.Dans un premier temps, la preuve de concept du dispositif est faite en se focalisant sur la perception des efforts axiaux où les efforts et le stimulus fourni par le bracelet sont alignés. Les résultats sont ensuite étendus à la perception des efforts radiaux pour lesquels nous étudions l'influence de l'effet levier dans la perception assistée par notre bracelet. Ces études sont menées dans le cadre d'une tâche contrôlée de discrimination de raideur dans un contexte de chirurgie laparoscopique simulé. L'objectif principal est d'étudier les performances et l'intuitivité du retour proposé pour augmenter la perception d'effort en bout d'outil. Dans un second temps, les travaux précédents sont étendus à un contexte médical réaliste. Les performances du retour tactile sont évaluées dans le cadre de discrimination de raideur de fantômes
Minimally invasive surgery (MIS) is recognized for its patient benefits, including less post-operative pain, shorter recovery times, and reduced organ damage, primarily due to the smaller incisions required compared to open surgery. These incisions allow the insertion of an endoscope and instruments into the patient's body through sealed cannulas, named trocars. Nevertheless, these benefits must be weighed against the higher gesture complexity surgeons face. This increased difficulty arises from perceptual limitations, in particular, the degradation of both visual perception and haptic perception of forces. Specifically, tissue force perception at the tooltip is distorted due to its conveyance through a long instrument passing through a trocar. The backlash and non-linear friction introduced by the trocar, the stiffness of the abdominal wall, and the lever effect, among others, further skew the sensory information that could have been integrated. This leads to poor palpation precision.This thesis focuses on sensory augmentation systems that provide force information to the surgeon and their integration into user practice. The thesis aims to propose and investigate a wearable sensory feedback system in the form of a forearm wristband, conveying to the wearer the force measured at the tip of a laparoscopic tool by applying tangential skin stretch, thereby enhancing stiffness perception at the tooltip. This approach is promising as it combines the benefits of not disrupting the surgical gesture and not interfering with the already heavily solicited auditory and visual sensory channels with the intuitive nature of skin stretch feedback.Initially, the proof-of-concept of the device is demonstrated by focusing first on the perception of axial forces where the forces and the stimulus provided by the wristband are aligned. The results are then extended to the perception of radial forces for which alignment no longer exists, and we also study the interaction of the lever effect in the perception assisted by our wristband. The main objective is to study the ability of the proposed tactile feedback to increase force perception at the end of the tool and to evaluate its performance in a controlled stiffness discrimination task in a simulated laparoscopic surgery context. Secondly, the previous work is extended to a realistic medical context. The performance of the feedback is evaluated in the context of tissue phantom stiffness discrimination
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Chang, Hsien-Ming, und 張咸明. „A Study on the Stretch Forming of Aluminum Saddle-shaped Skin“. Thesis, 2004. http://ndltd.ncl.edu.tw/handle/98705684455203693782.

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碩士
逢甲大學
材料與製造工程所
92
ABSTRACT The contour of aircraft should satisfy the requirement of Aerodynamics. Some double curvature skins in forward and rear fuselage are suitable to use stretch forming. The contour of saddle-shaped skin, which joint the rear fuselage and vertical tail affects the performance of aircraft directly and belongs to high value and critical part. If the elongation of saddle-shaped skin were high would cause Lüders' lines in appearance, coarse grain and even material broken. If the elongation of were low would cause spring back and could not meet the requirement of Aerodynamics. Because of tough manufacturing process and high scrap rate, need to find the solution urgently. This study uses the FEM software to analysis the stretch forming of saddle-shaped skin. Select the ABAQUS nonlinear module to simulate the condition of forming process and analysis the results. Then, analysis the different material selection and heat treatment conditions during forming process. Determine the process parameters and provide to the production engineer and operator as the basis of process planning and parameter setup. Thus, it can keep the quality of skin contour and appearance in a better level.
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Ramoupi, Koketso. „The efficacy of thiosinaminum 1X cream on striae“. Thesis, 2012. http://hdl.handle.net/10210/7856.

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M.Tech.
Striae are linear scars in the dermis which arise from rapid stretching of the skin over weakened connective tissue (de Angelis & Adatto, 2010). Striae occur when collagen production cannot keep pace with a sudden growth of the underlying tissues. Striae have no medical consequences but are frequently distressing to those afflicted. These disfiguring marks are usually caused by excessive stretching of the skin that may occur with pregnancy, adolescent growth spurts, obesity and weightlifting (Kang & Arbor, 1998). Striae usually appear on the abdomen, thighs, buttocks, breasts and extremities. Patients’ quality of life can be enhanced with the effective management of these unsightly marks. Modalities of treatments that exist for the treatment of striae have been advocated with varying success and side effects (Manuskiatti et al., 2010). The aim of this study was to determine the efficacy of the topical application of a homoeopathic preparation Thiosinaminum 1X on the appearance of striae. The research was a double-blind placebo controlled study which took place at the Homoeopathy Health Centre which is located at the University of Johannesburg(Doornfontein campus). Forty female participants aged between eighteen and thirty-five were randomly selected to take place in the study. The study was conducted over a period of twelve weeks. On recruitment, the participants were required to read and sign the information sheet (Appendix A) and consent form (Appendix B) assisted by the researcher. Participants were asked to complete a questionnaire (Appendix C) to determine contributing factors e.g. duration of the stretch marks, the cause of the stretch marks and any disease that may contribute to the formation of stretch marks. A pertinent case and vital signs were taken at the initial consultation to eliminate any pathologies. All potential participants were required to present with stretch marks on the thighs or buttocks present for at least 6 months prior to the study. The stretch marks needed to have had a minimum length of 50mm and a maximum length of a 100mm. The researcher was responsible for choosing the designated area that was treated. The most distinct striae were selected by the researcher according to criteria for treatment. The researcher took photographs of the treatment areas at the commencement of the study and this was repeated at the end of the study (Appendix I). The length of the most prominent stretch mark (according to criteria) below was also measured on the commencement of the study. To physically iv measure the most prominent stretch mark a string and a ruler was utilized. The same ruler and ball of string was used each time to ensure validity of the results. A new piece of string was cut and tied in a knot at the tip and placed on the stretch mark itself to mould to its shape and thereafter it was placed on a ruler to determine the measurements in millimeters. To ensure that the same stretch mark was measured every time, the researcher measured out the distance between the stretch mark and a defined anatomical point for all the participants. The stretch mark was traced using plotting paper. The participants were required to apply the cream twice daily for the duration of the study. Participants were able to rate their satisfaction on a monthly basis by completing a questionnaire. The results of the study indicated that there was no improvement in the length of striae however there was more improvement in satisfaction ratings throughout the study from the experimental group.
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Bücher zum Thema "Skin-Stretch"

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Parker, Philip M., und James N. Parker. Stretch marks: A medical dictionary, bibliography, and annotated research guide to Internet references. San Diego, CA: ICON Health, 2004.

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Narse, Laurel. Skin Spot and Stretch Mark Removal. Lulu Press, Inc., 2020.

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Court, Amber Marie. Stretch Marks - Not Just Skin Deep. E-BookTime, LLC, 2006.

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simon, chapman. Ultimate Skincare Solution: DISCOVER the Step-By-step Easy to Make Homemade Treatments for Acne Dark Spots, Skin Thickness, Stretch Mark Removal, and Skin Rashes. Cleansing, Toning, and... Rec. Independently Published, 2022.

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Putnam, Russell. Cherokee Buckskin: How to Skin, Buck, Stretch, Flesh, Dehair, Brain Tan, and Smoke an Animal Pelt for Use As Clothing Material. a Little History. the American Holocaust. God and the Cherokee. Independently Published, 2018.

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The cellulite solution: A doctor's program for losing lumps, bumps, dimples, and stretch marks. New York: St. Martin's Press, 2005.

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Murad, Howard. Cellulite Solution: A doctor's programme for losing lumps, bumps, dimples and stretch Marks. Little, Brown Book Group Limited, 2006.

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Murad, Howard. The Cellulite Solution: A Doctor's Program for Losing Lumps, Bumps, Dimples, and Stretch Marks. St. Martin's Griffin, 2005.

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Murad, Howard. The Cellulite Solution: A Doctor's Program for Losing Lumps, Bumps, Dimples, and Stretch Marks. St. Martin's Press, 2005.

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Murad, Howard. The Cellulite Solution: A Doctor's Program for Losing Lumps, Bumps, Dimples, and Stretch Marks. St. Martin's Press, 2007.

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Buchteile zum Thema "Skin-Stretch"

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Girschick, Hermann. „When the Skin and Neck Stretch“. In Clinical Examples in Pediatric Rheumatology, 291–99. Berlin, Heidelberg: Springer Berlin Heidelberg, 2024. http://dx.doi.org/10.1007/978-3-662-68732-1_37.

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Seizova-Cajic, Tatjana, Kornelia Karlsson, Sara Bergstrom, Sarah McIntyre und Ingvars Birznieks. „Lateral Skin Stretch Influences Direction Judgments of Motion Across the Skin“. In Haptics: Neuroscience, Devices, Modeling, and Applications, 425–31. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-44193-0_53.

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Yem, Vibol, Mai Shibahara, Katsunari Sato und Hiroyuki Kajimoto. „Expression of 2DOF Fingertip Traction with 1DOF Lateral Skin Stretch“. In Lecture Notes in Electrical Engineering, 21–25. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4157-0_4.

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Gurari, Netta, Jason Wheeler, Amy Shelton und Allison M. Okamura. „Discrimination of Springs with Vision, Proprioception, and Artificial Skin Stretch Cues“. In Haptics: Perception, Devices, Mobility, and Communication, 160–72. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-31401-8_15.

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Guzererler, Ahmet, William R. Provancher und Cagatay Basdogan. „Perception of Skin Stretch Applied to Palm: Effects of Speed and Displacement“. In Haptics: Perception, Devices, Control, and Applications, 180–89. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-42321-0_17.

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Horie, Arata, Akito Nomura, Kenjiro Tadakuma, Masashi Konyo, Hikaru Nagano und Satoshi Tadokoro. „Enhancing Haptic Experience in a Seat with Two-DoF Buttock Skin Stretch“. In Lecture Notes in Electrical Engineering, 134–38. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-3194-7_30.

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Clark, Janelle P., Sung Y. Kim und Marcia K. O’Malley. „The Rice Haptic Rocker: Comparing Longitudinal and Lateral Upper-Limb Skin Stretch Perception“. In Haptics: Science, Technology, and Applications, 125–34. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-93399-3_12.

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Akhtar, Aadeel, Mary Nguyen, Logan Wan, Brandon Boyce, Patrick Slade und Timothy Bretl. „Passive Mechanical Skin Stretch for Multiple Degree-of-Freedom Proprioception in a Hand Prosthesis“. In Haptics: Neuroscience, Devices, Modeling, and Applications, 120–28. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-44196-1_16.

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Horie, Arata, Hikaru Nagano, Masashi Konyo und Satoshi Tadokoro. „Buttock Skin Stretch: Inducing Shear Force Perception and Acceleration Illusion on Self-motion Perception“. In Haptics: Science, Technology, and Applications, 135–47. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-93399-3_13.

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10

Manasrah, Ahmad, und Shahnaz Alkhalil. „A 2-DoF Skin Stretch Display on Palm: Effect of Stimulation Shape, Speed and Intensity“. In Haptics: Science, Technology, Applications, 12–24. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-58147-3_2.

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Konferenzberichte zum Thema "Skin-Stretch"

1

Nagano, Koki. „Skin stretch“. In SIGGRAPH '15: Special Interest Group on Computer Graphics and Interactive Techniques Conference. New York, NY, USA: ACM, 2015. http://dx.doi.org/10.1145/2745234.2745256.

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2

Guinan, Ashley L., Markus N. Montandon, Nathaniel A. Caswell und William R. Provancher. „Skin stretch feedback for gaming environments“. In 2012 IEEE International Workshop on Haptic Audio Visual Environments and Games (HAVE 2012). IEEE, 2012. http://dx.doi.org/10.1109/have.2012.6374430.

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3

Schorr, Samuel B., Zhan Fan Quek, Robert Y. Romano, Ilana Nisky, William R. Provancher und Allison M. Okamura. „Sensory substitution via cutaneous skin stretch feedback“. In 2013 IEEE International Conference on Robotics and Automation (ICRA). IEEE, 2013. http://dx.doi.org/10.1109/icra.2013.6630894.

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4

Xie Shaohui, Liu Yuqi, Du Ting und Zhang Zhibing. „Numerical method for simulating skin stretch forming“. In 2010 International Conference on Mechanic Automation and Control Engineering (MACE). IEEE, 2010. http://dx.doi.org/10.1109/mace.2010.5535785.

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5

Shull, Pete, Karlin Bark und Mark Cutkosky. „Skin nonlinearities and their effect on user perception for rotational skin stretch“. In 2010 IEEE Haptics Symposium (Formerly known as Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems). IEEE, 2010. http://dx.doi.org/10.1109/haptic.2010.5444675.

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6

Bark, Karlin, Jason Wheeler, Gayle Lee, Joan Savall und Mark Cutkosky. „A wearable skin stretch device for haptic feedback“. In World Haptics 2009 - Third Joint EuroHaptics conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems. IEEE, 2009. http://dx.doi.org/10.1109/whc.2009.4810850.

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7

Quek, Zhan Fan, Samuel B. Schorr, Ilana Nisky, Allison M. Okamura und William R. Provancher. „Sensory augmentation of stiffness using fingerpad skin stretch“. In 2013 World Haptics Conference (WHC 2013). IEEE, 2013. http://dx.doi.org/10.1109/whc.2013.6548453.

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8

Hayward, Vincent, und Juan Manuel Cruz-Hernández. „Tactile Display Device Using Distributed Lateral Skin Stretch“. In ASME 2000 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2000. http://dx.doi.org/10.1115/imece2000-2448.

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Abstract In the past, tactile displays were of one of two kinds: they were either shape displays, or relied on distributed vibrotactile stimulation. A tactile display device is described in this paper which is distinguished by the fact that it relies exclusively on lateral skin stretch stimulation. It is constructed from an array of 64 closely packed piezoelectric actuators connected to a membrane. The deformations of this membrane cause an array of 112 skin contactors to create programmable lateral stress fields in the skin of the finger pad. Some preliminary observations are reported with respect to the sensations that this kind of display can produce.
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9

Song, Ruibiao, Zezhong Chen und Rene Mayer. „Blank design for the stretch forming of aircraft skin“. In 2014 International Conference on Innovative Design and Manufacturing (ICIDM). IEEE, 2014. http://dx.doi.org/10.1109/idam.2014.6912717.

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10

Caswell, Nathaniel A., Ryan T. Yardley, Markus N. Montandon und William R. Provancher. „Design of a forearm-mounted directional skin stretch device“. In 2012 IEEE Haptics Symposium (HAPTICS). IEEE, 2012. http://dx.doi.org/10.1109/haptic.2012.6183816.

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