Готові списки джерел за темами / Skin Blood-vessels

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Добірка наукової літератури з теми "Skin Blood-vessels"

Автор: Grafiati
Опубліковано: 4 червня 2021
Оновлено: 31 січня 2023

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Статті в журналах з теми "Skin Blood-vessels"

1

Tellechea, Ana, Antonios Kafanas, Ermelindo C. Leal, Francesco Tecilazich, Sarada Kuchibhotla, Michael E. Auster, Iraklis Kontoes, et al. "Increased Skin Inflammation and Blood Vessel Density in Human and Experimental Diabetes." International Journal of Lower Extremity Wounds 12, no. 1 (February 26, 2013): 4–11. http://dx.doi.org/10.1177/1534734612474303.

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Systemic inflammation is associated with impaired wound healing in diabetes mellitus (DM) patients. Using immunohistochemistry techniques, the authors investigated changes in skin inflammation and skin blood vessels in human and experimental diabetes. Comparing to the non-DM human subjects, the total number of inflammatory cells per biopsy and the number of inflammatory cells around blood vessels, a strong indication of inflammation, were higher in DM subjects irrespective of their risk for developing diabetic foot ulcer. Inflammatory cell infiltration was robustly increased in all DM animal models compared with their non-DM controls. The number and density of blood vessels and CD31 positive proliferating endothelial cells around preexisting skin vessels was also higher in the DM patients. However, there were no differences in the skin blood flow between the non-DM and DM subjects. The number of skin blood vessels was also increased in the DM animals; however, these differences were less obvious than the ones observed for inflammatory cells. We conclude that skin inflammation and skin blood vessel density is increased in diabetic human subjects and in rodent and rabbit models of diabetes.
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2

YAMAOKA, Yoshihisa. "Visualization of Skin Blood Vessels by Photoacoustic Microscopy." Review of Laser Engineering 48, no. 12 (2020): 660. http://dx.doi.org/10.2184/lsj.48.12_660.

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3

KUROZAWA, Y., Y. NASU, and T. NOSE. "Response of capsaicin pretreated skin blood vessels to exercise." Acta Physiologica Scandinavica 141, no. 2 (February 1991): 181–84. http://dx.doi.org/10.1111/j.1748-1716.1991.tb09066.x.

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4

Silver, Frederick H., Tanmay Deshmukh, Nicole Ryan, Arielle Romm, and Hari Nadiminti. "“Fingerprinting” Benign and Cancerous Skin Lesions Using Vibrational Optical Coherence Tomography: Differentiation among Cancerous Lesion Types Based on the Presence of New Cells, Blood Vessels, and Fibrosis." Biomolecules 12, no. 10 (September 21, 2022): 1332. http://dx.doi.org/10.3390/biom12101332.

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In this study, we use vibrational optical coherence tomography (VOCT) to examine the morphology and stiffness of benign and cancerous lesions. Lesion images and 3D plots of weighted displacement versus frequency and depth were used to compare the cellular, dermal collagen, new blood vessels, and fibrotic composition of normal skin, actinic keratoses (AK), nodular and superficial basal cell carcinomas (BCCs), squamous cell carcinomas (SCCs), and melanomas. The results of this study suggest that benign and cancerous lesions differ based on the addition of new cells with increased resonant frequency and stiffness (80Hz, 1.8MPa), new blood vessel peaks (130Hz, 4.10MPa) that appear to be less stiff than normal blood vessels, and new fibrous tissue peaks (260Hz, 15–17 MPa) that are present in carcinomas but not in normal skin and only partially present (80Hz and 130Hz only) in AKs. Results obtained by creating images based on the location of the 80Hz, 130Hz, and 260Hz peaks of cancerous skin lesions suggest that the fibrous tissue appears to surround the new cells and new lesion blood vessels. The results of this study suggest that the morphology and location of the fibrous tissues in relation to the new cancer-associated cells and lesion blood vessels may provide information on the invasiveness and metastatic potential of skin cancers. The invasiveness and metastatic potential of melanomas may be a result of the cancer-associated cells laying down fibrous tissue that is used as a pathway for migration. The new cancer-associated blood vessels in the vicinity of the new cancer-associated cells may promote this migration and eventual metastasis. The ratios of peak heights 50/130Hz and 80/130Hz of normal cells, new lesion cells, new lesion blood vessels, and fibrotic tissue may be used as a “fingerprint” for detecting melanoma and to differentiate it from other skin cancers non-invasively using VOCT.
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5

Przhedetskiy, Yu V., V. V. Pozdnyakova, N. A. Maximova, O. V. Khokhlova, N. A. Zakharova, M. G. Ilchenko, and V. Yu Przhedetskaya. "Use of skin-fascial flaps on perforating vessels in the surgical treatment of skin melanoma." South Russian Journal of Cancer 1, no. 3 (August 27, 2020): 18–26. http://dx.doi.org/10.37748/2687-0533-2020-1-3-2.

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Purpose of the study. Improving the results of surgical treatment of melanoma of the skin of the extremities by using skin-fascial flaps on perforating vessels.Patients and methods. In 42 patients with limb skin melanoma T1–3N0M0, the closure of a skin defect was performed by islet flaps on perforating vessels. Perforating vessels of the donor zone were detected with an assessment of the blood supply of the flaps in the pre- and postoperative period using ultrasound and marking of perforants with adjustment of the preliminary marking of the flaps.Results. Permanent perforating vessels with a diameter of more than 1 mm were used. After excision of the tumor, on the opposite sides of the wound defect, taking into account the location of the perforating vessels, flaps were taken, with further mobilization by excision of the fiber and muscle fascia, they were separated from the underlying tissues while maintaining the integrity of the supply vessels. The circulatory state of the selected flaps was determined by skin color and capillary response to digital pressure. The flaps were displaced to the center, covered the area of the defect and sutured with single sutures, the edges of the donor wound were mobilized, sutured with single sutures until light tension appeared and sutured into the remaining wound defect. In the postoperative period, the determination of the parameters of the blood flow of perforating vessels showed the absence of hemodynamically significant violations of the blood flow during the movement of the flap. Transient ischemia of one of the oncoming flaps after surgery developed in 11.9%, marginal necrosis of the distal flap — in 7.1% of cases. A normotrophic scar was formed, with a width of not more than 0.3 cm, which aesthetically satisfied 92.8% of patients. Assessment of two-year relapse-free survival showed a complete absence of local relapses.Conclusion. The flaps vascularized by perforating vessels have high viability, are identical in color and texture to the skin of the recipient area, and the close proximity to the receiving area contributes to minimal deformation of the donor area, which increases the radicality of the operation, reduces the incidence of postoperative complications and improves аesthetic and functional results.
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6

Rossi, Antonella, Francesca Sozio, Piersante Sestini, Elisabetta A. Renzoni, Korsa Khan, Christopher P. Denton, David J. Abraham, and Elisabetta Weber. "Lymphatic and blood vessels in scleroderma skin, a morphometric analysis." Human Pathology 41, no. 3 (March 2010): 366–74. http://dx.doi.org/10.1016/j.humpath.2009.08.009.

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7

Esta�ol, Bruno, Marco Vinicio Corona, Yolanda El�as, Jos� Francisco T�llez-Zenteno, Oscar Infante, and Guillermo Garc�a-Ramos. "Sympathetic co-activation of skin blood vessels and sweat glands." Clinical Autonomic Research 14, no. 2 (April 1, 2004): 107–12. http://dx.doi.org/10.1007/s10286-004-0170-6.

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8

Abreu Velez, Ana Maria, Bruce R. Smoller, and Michael S. Howard. "Leukocytoclastic vasculitis induced by medications displaying colocalizing lesional deposits for CD15, myeloperoxidase and HLA-DPDQDR: A Yin and Yang?" Our Dermatology Online 13, no. 4 (October 1, 2022): 426–29. http://dx.doi.org/10.7241/ourd.20224.16.

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Leukocytoclastic vasculitis is an inflammatory disease of small blood vessels; circulating immune complexes are part of the disease. A 57-year-old female presented with a sudden appearance of palpable purpura with petechial hemorrhages on the lower limbs after taking multiple medications. Skin biopsies were stained for H&E, direct immunofluorescence (DIF) and immunohistochemistry (IHC). The DIF revealed strong staining with multiple immunoglobulins and other markers in small dermal blood vessels, including those around skin appendices The IHC was positive for myeloperoxidase. CD15, myeloperoxidase and HLA-DPDQDR on the upper dermal blood vessels, as well as on inflammatory cells and debris around the vessels. These findings have not been previously documented and may indicate that circulating immune complexes activate the neutrophils.
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9

Tohya, Kazuo, Shiori Urabe, Jun Igarashi, Taro Tomura, Akemi Take, and Michio Kimura. "Appearance of Peculiar Vessels with Immunohistological Features of High Endothelial Venules in the Dermis of Moxibustion-Stimulated Rat Skin." American Journal of Chinese Medicine 28, no. 03n04 (January 2000): 425–33. http://dx.doi.org/10.1142/s0192415x00000507.

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Morphological changes of the dermal blood vessels of moxibustion-stimulated rat skin were examined with reference to the lymphocyte migration. After long-term stimulation with direct moxibustion to the acupoint Tsu-San-Li (St-36), peculiar vessels that possess immunohistological features of high endothelial venules could be observed in the moxa-stimulated acupoint dermis. Endothelial cells of the vessels had well-developed Golgi apparatus in their plump cytoplasms, and they strongly expressed intercellular adhesion molecule-l on the luminal surface. These data suggest that the appearance of the peculiar vessels in the dermis acts toward the active infiltration of blood-lymphocytes into the acupoint skin.
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10

Lackovic, Vesna, M. Bajcetic, Nadezda Sternic, V. Kostic, Jasna Zidverc, Aleksandra Pavlovic, Maja Lackovic, and Mladen Kocica. "Ultrastructural analysis of small blood vessels in skin biopsies in CADASIL." Archives of Biological Sciences 60, no. 4 (2008): 573–80. http://dx.doi.org/10.2298/abs0804573l.

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Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is an inherited small- and medium-artery disease of the brain caused by mutation of the Notch3 gene. Very often, this disease is misdiagnosed. We examined skin biopsies in two members of the first discovered Serbian family affected by CADASIL. Electron microscopy showed that skin blood vessels of both patients contain numerous deposits of granular osmiophilic material (GOM) around vascular smooth muscle cells (VSMCs). We observed degeneration of VSMCs, reorganization of their cytoskeleton and dense bodies, disruption of myoendothelial contacts, and apoptosis. Our results suggest that the presence of GOM in small skin arteries represents a specific marker in diagnosis of CADASIL.
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Дисертації з теми "Skin Blood-vessels"

1

Barton, Jennifer Kehlet. "Predicting dosimetry for laser coagulation of in vivo cutaneous blood vessels /." Digital version accessible at:, 1998. http://wwwlib.umi.com/cr/utexas/main.

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2

Wong, Brett James. "Histamine receptors and substance P in cutaneous active vasodilation and thermal hyperemia in humans." view abstract or download file of text, 2005. http://www.oregonpdf.org.

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Thesis (Ph. D.)--University of Oregon, 2005.
Includes bibliographical references (leaves 195-207). Also available online (PDF file) by a subscription to the set or by purchasing the individual file.
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3

Simmons, Grant H. "Cutaneous vasodilation at simulated high altitude : impacts on human thermoregulation and vasoconstrictor function/." Connect to title online (Scholars' Bank) Connect to title online (ProQuest), 2008. http://hdl.handle.net/1794/9495.

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4

HOSHINO, TAKESHI, and KANSHO YAMADA. "AN EXAMINATION OF THE CLOSE RELATIONSHIP BETWEEN LYMPHATIC VESSELS AND NERVE FIBERS CONTAINING CALCITONIN GENE-RELATED PEPTIDE AND SUBSTANCE P IN RAT SKIN." Nagoya University School of Medicine, 1996. http://hdl.handle.net/2237/16168.

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5

Wilkins, Brad W. "Cutaneous active vasodilation in humans : contribution of nitric oxide and vasoactive intestinal peptide /." view abstract or download file of text, 2003. http://wwwlib.umi.com/cr/uoregon/fullcit?p3095286.

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Анотація:
Thesis (Ph. D.)--University of Oregon, 2003.
Typescript. Includes vita and abstract. Includes bibliographical references (leaves 137-145). Also available for download via the World Wide Web; free to University of Oregon users.
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6

Freire, Maria Cristina Gomes Souza. "Estudo histológico comparativo entre laser de baixa potência, própolis e associação de ambos sobre lesões de pele de Rattus norvegicus albinus." Universidade Jose do Rosario Vellano, 2010. http://tede2.unifenas.br:8080/jspui/handle/jspui/80.

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Made available in DSpace on 2016-05-02T13:54:47Z (GMT). No. of bitstreams: 1 MariaCristinaGomesSouzaFreire-dissertacao.pdf: 2236739 bytes, checksum: 70bf01d25f055de68fe07a8b82e35a80 (MD5) Previous issue date: 2010-08-05
Wound treatment involves local and systemic aspects developed by professionals from different fields, such as low power laser and propolis. The purpose of this study was to identify and histologically compare the effects of the application of 3 treatments on surgically induced skin wounds in rats: 658 nm low power laser (LPL); propolis; and LPL laser + propolis. One hundred and forty-four male Wistar albino rats (Rattus norvegicus albinus), aged 16 weeks, weighing 350-500g, from the Unifenas Central Biotherium, were used. After general anesthesia with ketamine® (ketamine hydrochloride) / Rompun® (xylazine) (0.2 mL per 100g of animal weight: 50% ketamine and 50% Rompun), the rats were shaved on the back between the shoulder blades, and then submitted to the punch excision of the skin. The animals were divided into seven groups: GL: treated with 15 mW 658 nm LPL, with radiant energy density of 3 J/cm2, with spot-type application in the center of the excision, during 3 (three), 7 (seven), 14 (fourteen) and 21 (twenty-one) consecutive days; GP5%: treated with 5% propolis; GP10%: treated with 10% propolis; GCL (Control Laser): control rats underwent the same procedures, but with the laser device off; GCP: control rats underwent the same procedures, but treated with a solution of sterile deionized water and 15% alcohol; GLP5%: treated with LPL associated with 5% propolis; GLP10%: treated with LPL associated with 10% propolis. The animals were sacrificed and histologically processed for the quantitative analysis of fibroblasts and blood vessels by means of light microscopy. Statistical tests were applied by the mean and the standard deviation in each group, based on the program SPSS 15.0, version 2007. The results showed statistical differences (Kruskal-Wallis, p≤0.01 and p≤0.05) in LPL treatment on day 3; 5% propolis treatment on day 7; LPL + 10% propolis on days 14 and 21, when compared with the other groups. No significant statistical difference was found on days 3, 7, 14 and 21 with the LPL and 5% propolis, but, when compared with the other groups, the results were significant. In face of the results, especially on days 3 and 7, both laser and propolis contributed to a faster wound healing.
O tratamento de feridas envolve aspectos sistêmicos e locais desenvolvidos por profissionais de diferentes áreas, destacando-se o laser de baixa potência e a própolis. Objetivou-se identificar e comparar histologicamente os efeitos da aplicação do laser de baixa potência (LBP) 658 nanômetros (nm), da própolis e associação de ambas sobre lesões de pele de Rattus norvegicus albinus, induzidas cirurgicamente, por meio de estudo histológico. Utilizaram-se 140 ratos albinos, machos da linhagem WISTAR (Rattus novergicus albinus), com 16 semanas, peso 350 a 500g, provenientes do Biotério Central da Universidade José do Rosário Vellano UNIFENAS. Após a anestesia geral com uso de ketamina® (cloridrato de cetamina)/ Rompun® (cloridrato de xilazina) (0,2 mL para cada 100g de peso por animal, sendo 50% de ketamina e 50% de Rompun), os ratos foram submetidos à tricotomia no dorso (região entre as escápulas) e, posteriormente, à excisão cirúrgica circular da epiderme, com uso do punch devidamente milimetrado (0,5 cm de diâmetro). Os animais foram distribuídos em 7 grupos: GL: aplicando-se o laser de baixa potência 658 nm, 15 mW de potência, com densidade de energia radiante de 3 J/cm2, com aplicação do tipo pontual, no centro da excisão, durante 03 (três), 07 (sete), 14 (catorze) e 21 (vinte e um) dias consecutivos; GP5%: os ratos foram submetidos à aplicação da própolis a 5%; GP10%: os ratos foram submetidos à aplicação da própolis a 10%; GCL (Controle Laser): os ratos controle foram submetidos aos mesmos procedimentos, porém com o aparelho de laser desligado; GCP: os ratos controle foram submetidos aos mesmos procedimentos, porém com o uso de solução composta por água deionizada estéril e álcool a 15%; GLP5%: os ratos foram submetidos à aplicação de laser de baixa potência associado a própolis 5%; GLP10%: os ratos foram submetidos à aplicação de laser de baixa potência associado a própolis 10% . Após o sacrifício dos animais, procedeu-se à análise histológica para análise quantitativa do número de fibroblastos e vasos sanguíneos, por meio de microscopia de luz. Processaram-se os resultados e, por meio da média e desvio padrão em cada grupo, foram aplicados os testes estatísticos, alicerçados pelo programa SPSS 15.0, versão 2007. Os resultados evidenciaram que aos 3 dias com tratamento laser; aos 7 dias com tratamento própolis a 5%; aos 14 e 21 dias com tratamento associado de laser e própolis a 10% diferiram estatisticamente (Kruskal-Wallis, p≤0,01 e p≤0,05) quando comparados aos demais grupos. Não houve diferença estatisticamente significante aos 3, 7, 14 e 21 dias com tratamento associado de laser e própolis a 5%, porém, ao comparar os grupos associados com demais grupos, seus resultados foram significativos. Diante dos resultados, principalmente aos 3 e 7 dias, observou-se que tanto o laser quanto a própolis contribuíram para um reparo mais rápido da lesão.
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Weiner, Juliane, Konstanze Zieger, Jan Pippel, and John T. Heiker. "Molecular mechanisms of vaspin action: from adipose tissue to skin and bone, from blood vessels to the brain." 2020. https://ul.qucosa.de/id/qucosa%3A38022.

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Visceral adipose tissue derived serine protease inhibitor (vaspin) or SERPINA12 according to the serpin nomenclature was identified together with other genes and gene products that  were specifically expressed or overexpressed in the intra abdominal or visceral adipose tissue  (AT) of the Otsuka Long-Evans Tokushima fatty rat. These rats spontaneously develop visceral  obesity, insulin resistance, hyperinsulinemia and ‐glycemia, as well as hypertension and thus represent a well suited animal model of obesity and related metabolic disorders such as type  2 diabetes.  The follow-up study reporting the cloning, expression and functional characterization of  vaspin suggested the great and promising potential of this molecule to counteract obesity induced insulin resistance and inflammation and has since initiated over 300 publications, clinical and experimental, that have contributed to uncover the multifaceted functions and molecular mechanisms of vaspin action not only in the adipose, but in many different cells, tissues and organs. This review will give an update on mechanistic and structural aspects of vaspin with a focus on its serpin function, the physiology and regulation of vaspin expression, and will summarize the latest on vaspin function in various tissues such as the different adipose tissue depots as well as the vasculature, skin, bone and the brain.
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Duncan, Henry J. (Henry John). "An isotope washout technique to study skin perfusion pressure and vascular resistance in diabetes, hypertension and peripheral vascular disease." 1986. http://web4.library.adelaide.edu.au/theses/09MD/09mdd911.pdf.

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Duncan, Henry J. (Henry John). "An isotope washout technique to study skin perfusion pressure and vascular resistance in diabetes, hypertension and peripheral vascular disease / by Henry J. Duncan." Thesis, 1986. http://hdl.handle.net/2440/38294.

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Книги з теми "Skin Blood-vessels"

1

Salmon, Michel. Arteries of the skin. Edited by Taylor G. Ian and Tempest Michael N. London: Churchill Livingstone, 1988.

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Ian, Taylor G., and Tempest Michael N, eds. Arteries of the skin. London: Churchill Livingstone, 1988.

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3

Enzo, Berardesca, Elsner Peter 1955-, and Maibach Howard I, eds. Bioengineering of the skin: Cutaneous blood flow and erythema. Boca Raton: CRC Press, 1995.

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4

H, Lamberty B. George, ed. The arterial anatomy of skin flaps. Edinburgh: Churchill Livingstone, 1986.

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5

H, Lamberty B. George, ed. The arterial anatomy of skin flaps. 2nd ed. Edinburgh: Churchill Livingstone, 1994.

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6

Cormack, George C. The arterial anatomy of skin flaps. Edinburgh: Churchill Livingstone, 1986.

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7

The three-edged sword: Being ill in America. Lanham, MD: University Press of America, 1992.

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8

T, Tan Oon, ed. Management and treatment of benign cutaneous vascular lesions. Philadelphia: Lea & Febiger, 1992.

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9

Luis, Requena, ed. Pathology of vascular skin lesions: Clinicopathological correlations. Totowa, N.J: Humana Press, 2003.

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10

National Conference on the Diabetic Foot (1st 1986 Malvern, Worcestershire). The foot in diabetes: Proceedings of the 1st National Conference on the Diabetic Foot, Malvern, May 1986. Chichester: Wiley, 1987.

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Частини книг з теми "Skin Blood-vessels"

1

Montagna, William, Albert M. Kligman, and Kay S. Carlisle. "Blood Vessels." In Atlas of Normal Human Skin, 155–89. New York, NY: Springer New York, 1992. http://dx.doi.org/10.1007/978-1-4613-9202-6_5.

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Zaidi, Zohra, Khalid Hussain, and Simi Sudhakaran. "Diseases of the Blood Vessels and Lymphatics." In Treatment of Skin Diseases, 235–44. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-89581-9_16.

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3

Shiratsuchi, Eri, Misako Nakaba, Yasutaka Shigemura, Michio Yamada, and Kenji Sato. "Fish-elastin Hydrolysate: Development and Impact on the Skin and Blood Vessels." In Marine Proteins and Peptides, 467–86. Chichester, UK: John Wiley & Sons, Ltd, 2013. http://dx.doi.org/10.1002/9781118375082.ch23.

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4

Niu, Xing-Tao, Hong-Ye Qu, Yu-Liang Sun, Xin Liu, Xue-Yu Li, Gui-Ming Shen, and Ji-Heng Liu. "Observation on Morphologic Changes in Blood Vessels in Experimental Random Pattern Skin Tubes." In Recent Advances in Burns and Plastic Surgery — The Chinese Experience, 185–91. Dordrecht: Springer Netherlands, 1985. http://dx.doi.org/10.1007/978-94-009-4900-3_25.

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5

Mendes, Hugo Abreu, Emery Cleiton C. C. Lins, Joelle F. de França, Andrea T. Dantas, Mardoqueu M. da Costa, and Vinícius G. da Silva. "Development of a DOI Equipment Using NIR Radiation for Skin Lesions Diagnosis and Blood Vessels Recognition." In XXVI Brazilian Congress on Biomedical Engineering, 779–84. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-2517-5_119.

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6

Weiner, Juliane, Konstanze Zieger, Jan Pippel, and John T. Heiker. "Molecular Mechanisms of Vaspin Action – From Adipose Tissue to Skin and Bone, from Blood Vessels to the Brain." In Protein Reviews – Purinergic Receptors, 159–88. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/5584_2018_241.

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7

Hollman, Arthur. "War injuries used as research models · The triple response of the skin to injury, the H substance · Monograph on blood vessels of the human skin · Physiology and medicine · Third edition of The Mechanism · Nobel Prize for Einthoven · Death of Mackenzie · Controversy over dog experiments." In Sir Thomas Lewis, 109–24. London: Springer London, 1997. http://dx.doi.org/10.1007/978-1-4471-0927-3_8.

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8

Pasyk, Krystyna, George Cherry, and Barbara Jakobczak. "Endothelial Cells of Blood and Lymphatic Vessels." In Skin Immune System, 211–35. CRC Press, 2004. http://dx.doi.org/10.1201/b14248-12.

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9

Chattopadhyay, SP. "Chapter-10 Disorders of Blood Vessels." In Common Skin Diseases�A Clinical Approach, 38–39. Jaypee Brothers Medical Publishers (P) Ltd, 2014. http://dx.doi.org/10.5005/jp/books/12025_10.

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10

Chattopadhyay, SP. "Chapter-10 Disorders of Blood Vessels." In Common Skin Diseases�A Clinical Approach, 38–39. Jaypee Brothers Medical Publishers (P) Ltd, 2014. http://dx.doi.org/10.5005/jp/books/12275_10.

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Тези доповідей конференцій з теми "Skin Blood-vessels"

1

Aizu, Yoshihisa, Izumi Nishidate, Naomichi Yokoi, Tomonori Yuasa, and Hiromichi Mishina. "Diffuse reflectance spectra of skin blood vessels and their color analysis." In Second International Conference on Experimental Mechanics, edited by Fook S. Chau and Chenggen Quan. SPIE, 2001. http://dx.doi.org/10.1117/12.429623.

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2

Aizu, Yoshihisa, Masaki Isokawa, Tomonori Yuasa, Hiromichi Mishina, and Toshimitsu Asakura. "Diffuse reflectance spectra of blood vessels within a skin tissue model." In BiOS '99 International Biomedical Optics Symposium, edited by Alexander V. Priezzhev and Toshimitsu Asakura. SPIE, 1999. http://dx.doi.org/10.1117/12.348363.

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3

Asimov, Mustafo M., Rustam M. Asimov, and Anatoly N. Rubinov. "Action spectrum of laser radiation on hemoglobin of human skin blood vessels." In BiOS Europe '97, edited by Tiina I. Karu and Anthony R. Young. SPIE, 1997. http://dx.doi.org/10.1117/12.297994.

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4

Asimov, Mustafo M., Rustam M. Asimov, and Anatoly N. Rubinov. "Efficiency of laser action on hemoglobin and oxyhemoglobin in skin blood vessels." In BiOS '98 International Biomedical Optics Symposium, edited by Steven L. Jacques. SPIE, 1998. http://dx.doi.org/10.1117/12.308190.

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5

Aizu, Yoshihisa, Masaki Isokawa, Tomonori Yuasa, Hiromichi Mishina, and Toshimitsu Asakura. "Spectrophotometric investigation of skin blood vessels on the basis of color perception." In ICO XVIII 18th Congress of the International Commission for Optics, edited by Alexander J. Glass, Joseph W. Goodman, Milton Chang, Arthur H. Guenther, and Toshimitsu Asakura. SPIE, 1999. http://dx.doi.org/10.1117/12.354982.

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6

Pfefer, T. Joshua, Jennifer K. Barton, Eric K. Chan, Mathieu G. Ducros, Brian S. Sorg, Thomas E. Milner, J. Stuart Nelson, and Ashley J. Welch. "Adaptable three-dimensional Monte Carlo modeling of imaged blood vessels in skin." In BiOS '97, Part of Photonics West, edited by Steven L. Jacques. SPIE, 1997. http://dx.doi.org/10.1117/12.275468.

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7

FUJIWARA, Masaru, Shun SATO, Pradeep K. W. Abeygunawardhana, Satoru SUZUKI, Akira NISHIYAMA, Kenji Wada, and Ichiro ISHIMARU. "Spectroscopic imaging of blood vessels only near the skin surface for non-invasive blood glucose measurement." In European Conference on Biomedical Optics. Washington, D.C.: OSA, 2015. http://dx.doi.org/10.1364/ecbo.2015.953714.

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8

Fujiwara, Masaru, Shun Sato, Pradeep K. W. Abeygunawardhana, Satoru Suzuki, Akira Nishiyama, Kenji Wada, and Ichiro Ishimaru. "Spectroscopic imaging of blood vessels only near the skin surface for non-invasive blood glucose measurement." In European Conferences on Biomedical Optics, edited by J. Quincy Brown and Volker Deckert. SPIE, 2015. http://dx.doi.org/10.1117/12.2183671.

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9

Nishidate, Izumi, Yoshihisa Aizu, Naomichi Yokoi, Tomonori Yuasa, and Hiromichi Mishina. "Color appearance of skin tissues and blood vessels: in-vitro and in-vivo experiments." In Optical Engineering for Sensing and Nanotechnology (ICOSN '01), edited by Koichi Iwata. SPIE, 2001. http://dx.doi.org/10.1117/12.427089.

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10

Salman, Huseyin E., and Yigit Yazicioglu. "Investigation of on skin surface response due to acoustic radiation from stenosed blood vessels." In 170th Meeting of the Acoustical Society of America. Acoustical Society of America, 2015. http://dx.doi.org/10.1121/2.0000128.

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