Thematische Bibliographien / Tishre

Auswahl der wissenschaftlichen Literatur zum Thema „Tishre“

Autor: Grafiati
Veröffentlicht am 25. Juli 2024
Zuletzt aktualisiert am 26. Juli 2024

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Zeitschriftenartikel zum Thema "Tishre"

1

Tabacaru, Ionel, Andrei Giurginca und Serban M. Sarbu. „Contribution to the study of the tribe Typhlotricholigioidini Roja, 1953 (Isopoda, Oniscidea, Trichoniscidae)“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2022, Nr. 61 (2022): 9–58. http://dx.doi.org/10.59277/tiser.2022.01.

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Following a historical review of the tribe Typhlotricholigioidini, we define the tribe and the genera which, according to our view, are included in it. The genus Brackenphiloscia Ortiz, Garcia Debraz and Lalana, 1999 we interpret as part of this tribe. The examination of the holotype of the species Caucasonethes borutzkyi Verhoeff, 1932, the type species of the genus Caucasonethes, as well as individuals from the type series of several species attributed to the genus Amerigoniscus Vandel, 1950, allowed us to endorse the viability of the synonymy established by Vandel (1953a): Caucasonethes Verhoeff, 1932 syn. Amerigoniscus Vandel, 1950.
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Giurginca, Andrei. „Julus scanicus Lohmander, 1925 – a new species for the Romanian fauna“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2022, Nr. 61 (2022): 101–12. http://dx.doi.org/10.59277/tiser.2022.04.

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Giurginca, Andrei, und Ionel Tabacaru. „Caucasonethes borutzkyi Verhoeff, 1932: New characters to the original description“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2022, Nr. 61 (2022): 59–72. http://dx.doi.org/10.59277/tiser.2022.02.

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Nitzu, Eugen. „The occurence of non-obligate cave dwelling beetles (Insecta, Coleoptera) in the biospeleological provinces of Romania: A faunal and zoogeographic analysis“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2022, Nr. 61 (2022): 73–100. http://dx.doi.org/10.59277/tiser.2022.03.

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Beside 143 specialized (obligate) and other 85 non-obligate cave dwelling species of Coleoptera (also named troglobitic species), previously inventoried by us in the Romanian fauna, in this article we present a list of 156 of non-obligate cave dwelling species which occur in different associations in the Romanian caves, for the first time grouped on biospeleological provinces and zones. In the context of the new studies which showed that the “non-obligate” cave dwelling species do not occur randomly in the caves, but having a proved selectivity for caves, this study is focused on biogeographical aspects of non-specialized cave dwelling species.
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BABA, ȘTEFAN, RALUCA BĂNCILĂ, RODICA PLĂIAȘU, IONUȚ POPA und ANDREI GIURGINCA. „Comparative study on the performance of sampling methods for Myriapoda (Diplopoda, Chilopoda, Symphyla) and Oniscidea from Buzău mountains“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2023, Nr. 62 (Dezember 2023): 91–113. http://dx.doi.org/10.59277/tiser.2023.07.

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In this paper we focus on some edaphic macroinvertebrates, Oniscidea, Diplopoda, Chilopoda and Symphyla, and their activity-density in relation with a short-term sampling protocol and a series of environmental factors. Our case study targeted the invertebrate community from Ivăneţu Massif near the Rupestral Assembly of Bozioru Mountains and tested the performance of direct sampling using tweezers, sifting leaf-litter with the Winkler sieve, extracting soil samples and using pitfall traps. In order to achieve a more realistic understanding of oniscidean and myriapod diversity patterns we recommend a combination of the abovementioned sampling methods.
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GIURGINCA, ANDREI, CEZARA TUDOSE und GETA RÂȘNOVEANU. „The Diplopoda from the middle course of Argeş river“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2023, Nr. 62 (Dezember 2023): 79–89. http://dx.doi.org/10.59277/tiser.2023.06.

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23 species of Diplopoda are recorded from the poorly investigated region of the middle basin of the Argeş River, several species being recorded for the first time in this region while for other species like Rumaniulus mammosus it expands the known distribution.
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TABACARU, IONEL, und ANDREI GIURGINCA. „The genus Karamanoniscus Tabacaru, 2021 and the tribus Spelaeonethini Schmölzer, 1956 (Isopoda, Oniscidea, Trichoniscidae)“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2023, Nr. 62 (Dezember 2023): 3–32. http://dx.doi.org/10.59277/tiser.2023.01.

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The synonymy of Macedonethes Buturović, 1955, described as a subgenus of Alpioniscus and subsequently considered by Tabacaru as a distinct genus, with Alpioniscus Racovitza, 1908 is argued, while Macedonethes skopjensis Buturović, 1955, considered as the type species of the genus, belongs to the genus Alpioniscus, as Alpioniscus skopjensis Buturović, 1955. Moreover, the authors argue that Macedonethes Buturović, 1955 sensu Ivo Karaman, 2003 (partim) = Alpioniscus Racovitza, 1908 while Macedonethes castellonensis (CRUZ & DALENS, 1989) = Alpioniscus castellonensis (CRUZ & DALENS, 1989). The validity of the genus Karamanoniscus Tabacaru, 2021, with the type species Macedonethes stankoi Karaman, 2023, is again endorsed based on differential characters in comparison with the other genera of the Trichoniscidae. The structure of the tribe Spelaeonethini Schmölzer, 1965 is analyzed.
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GIURGINCA, ANDREI, und FLORIN-ROBERT OPRAN. „A new species of Trichoniscus (Crustacea, Isopoda, Oniscidea) with glandular-piliferous organ from Romania“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2023, Nr. 62 (Dezember 2023): 45–54. http://dx.doi.org/10.59277/tiser.2023.03.

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NAE, IOANA, und MARK MARAUN. „First record of Jugatala cribelliger = Mycobates (Calyptozetes) cribelliger (Berlese, 1904) (Acari: Oribatida) in the Romanian fauna“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2023, Nr. 62 (Dezember 2023): 67–77. http://dx.doi.org/10.59277/tiser.2023.05.

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The authors present one oribatid mite species new for the Romanian fauna, found in Piatra Craiului Mountains. Jugatala cribelliger = Mycobates (Calyptozetes) cribelliger (BERLESE, 1904) is described using scanning electronic microscope images, with notes on its morphology, taxonomic status and distribution.
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NITZU, EUGEN. „Contribution to the knowledge of the Romanian Sphodrina (Order Coleoptera, Family Carabidae, Subfamily Platyninae, Tribus Sphodrini)“. Travaux de l`Institut de Spéologie "Émile Racovitza" 2023, Nr. 62 (Dezember 2023): 33–44. http://dx.doi.org/10.59277/tiser.2023.02.

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The taxa included in Subtribus Sphodrina (Tribus Sphodrini) were very rarely mentioned in articles or faunal catalogues published for the Romanian fauna, some of them being recorded in underground environments (natural or artificial cavities). Other taxa were erroneously recorded for the Romanian fauna (Laemostenus capitaus, L. janthinus coeruleus), and others were omitted to be cited for the Romanian fauna (Taphoxenus gigas) in recent faunal catalogues. The presence of other species, which must be confirmed for the Romanian fauna (Laemostenus janthinus), or recorded in new geographical regions (L. janthinus, L. euxinicus) is discussed. In this article we made a brief analysis of the Romanian Sphodrinae fauna in a zoogeographical context, trying to highlight the systematic, faunal and protection problems raised by this interesting taxonomic group.
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Dissertationen zum Thema "Tishre"

1

Halse, Tore Egil, und Thomas Tøkje. „Tissue“. Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for teknisk kybernetikk, 2012. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-18790.

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In this thesis, the development of a web application for designing electronic circuits has been initiated and documented.The application will feature some unique features regarding the design process of electronic circuits.Among them are interface based routing, a plugin-friendly environment and a collaborative resource database.At the start of working on this thesis, there were no known web-based EDA software available.This provided an unique opportunity to fill this gap.The application has been implemented using HTML5 and JavaScript for the interactive front-end (The web browser),and Google Go and MongoDB for the backend (The Server).The basic building blocks of this application has been implemented, and together serves as an tech demo, available under a GPL licence.
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Shazly, Tarek (Tarek Michael). „Tissue-material interactions : bioadhesion and tissue response“. Thesis, Massachusetts Institute of Technology, 2009. http://hdl.handle.net/1721.1/54577.

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Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 2009.
Cataloged from PDF version of thesis.
Includes bibliographical references (p. 159-162).
Diverse interactions between soft tissues and implanted biomaterials directly influence the success or failure of therapeutic interventions. The nature and extent of these interactions strongly depend on both the tissue and material in question and can presumably be characterized for any given clinical application. Nevertheless, optimizing biomaterial performance remains a challenge in many implant scenarios due to complex relationships between intrinsic material properties and tissue response. Soft tissue sealants are clinically-relevant biomaterials which impart therapeutic benefit through adhesion to tissue, thus exhibiting a direct functional dependence on tissue-material reactivity. Because adhesion can be rigorously quantified and correlated to the local tissue response, sealants provide an informative platform for studying material properties, soft tissues, and their interplay. We developed a model hydrogel sealant composed of aminated polyethylene glycol and dextran aldehyde (PEG:dextran) that can possess a wide range of bulk and adhesive properties by virtue of constituent polymer modifications. Through comparison to traditional sealants, we established that highly viscoelastic adhesion promotes tissue-sealant interfacial failure resistance without compromising underlying tissue morphology.
(cont.) We analyzed multiple soft tissues to substantiate the notion that natural biochemical variability facilitates the design of tissue-specific sealants which have distinct advantages over more general alternatives. We confirmed that hydrogel-based materials are an attractive material class for ensuring sealant biocompatibility, but found that a marked reduction in adhesive strength following characteristic swell can potentially limit clinical efficacy. To mitigate the swell-induced loss of hydrogel-based sealant functionality, a biomimetic conjugation strategy derived from marine mussel adhesion was applied to PEG:dextran and shown to favorably modulate adhesion. In all phases of this research, we defined material design principles that extend beyond the immediate development of PEG:dextran with potential to enhance the clinical performance of a range of biomaterials.
by Tarek Shazly.
Ph.D.
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Tam, Y. Y. A. „Connective tissue growth factor in tissue fibrosis“. Thesis, University College London (University of London), 2014. http://discovery.ucl.ac.uk/1448702/.

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Systemic Sclerosis (SSc) is a connective tissue disease characterised by inflammation and autoimmunity, vasculopathy, and interstitial remodelling and fibrosis. This thesis focuses on CTGF (CCN2), a member of the CCN family of matricellular proteins, as elevated CTGF expression is a hallmark of chronic fibrotic diseases such as SSc. In addition to the association of CTGF expression and fibrosis in human disease, experimentally, fibroblast-specific overexpression of CTGF has been shown to induce a fibrotic phenotype, as demonstrated in the Col1a2-CTGF transgenic mice. Prominent features of fibrosis included a thickened dermis, as well as excess collagen deposition in the skin and lung. This CTGF overexpression also provoked changes in the alveolar epithelium. In the lung of Col1a2-CTGF mice, immunostaining revealed a marked increase in the number of cells co-expressing the epithelial marker, TTF-1 and mesenchymal cell markers α-SMA and Snai1, indicative of epithelial-to-mesenchymal transition (EMT)-like changes. This suggested a role for the paracrine effects of CTGF in promoting the phenotypic switching of alveolar epithelial cells. EMT is likely to contribute, at least in part, to the accumulation of interstitial fibroblasts during fibrosis. Complementary in vitro studies in alveolar epithelial cells (AECs) showed that CTGF knockdown using siRNA suppressed TGF-β-induced mesenchymal cell proteins while inducing redistribution of the epithelial cell marker E-cadherin. Immunostaining and Western blotting showed that recombinant CTGF induced EMT-like morphological changes and expression of α-SMA in AECs. Finally, we were interested in whether the reduction or absence of CTGF could abrogate fibrosis. Knockdown of CTGF suppressed the induction of fibrotic proteins in TGF-β-treated control fibroblasts and SSc lung fibroblasts. Deletion of the CTGF gene showed reduced bleomycin-induced pulmonary fibrosis in mice. Overall, these results support that CTGF plays a pivotal role in fibrosis and blocking CTGF activity may be useful as a specific target of attenuating fibrosis in SSc.
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Le, Thua Trung Hau. „Multimodality Treatment of Soft Tissue and Bone Defect: from Tissue Transfer to Tissue Engineering“. Doctoral thesis, Universite Libre de Bruxelles, 2015. http://hdl.handle.net/2013/ULB-DIPOT:oai:dipot.ulb.ac.be:2013/220961.

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In the first part of these studies, we have performed standard microsurgical procedures provide a solution for long standing bone and soft tissue defects, even in cases of longstanding osteomyelitis of long bones. When long bony segments are missing, the microvascular bone transfer provides a reliable method. In smaller soft tissue and bone defects, the application of a descending genicular osteomyocutaneous flap provides an option with low donor site morbidity. In the second part, we have focussed on reducing the donor site morbidity and expanded on the application of tissue engineering methods. MSCs derived from bone marrow can be injected percutaneous or be combined with an autologous bony scaffold for treatment of delayed union and nonunion. The outcome of our studies, however, limited in number of patients, clearly showed the possibilities and advantages of this new approach. A multimodality approach is essential, but it can provide promising solutions. Well-established microvascular and modern biotechnology methods will improve patient satisfaction and functional recovery in severe limb trauma, often the result of high-energy motorcycle accidents.
Doctorat en Sciences médicales (Médecine)
info:eu-repo/semantics/nonPublished
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Dean, Drew W. Kane Robert R. „Meniscal tissue bonding and exploration of sonochemical tissue modification“. Waco, Tex. : Baylor University, 2008. http://hdl.handle.net/2104/5291.

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Ghezzi, Chiara Elia. „Dense collagen-based tubular tissue constructs for airway tissue engineering“. Thesis, McGill University, 2013. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=114489.

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To date, only engineered tissues of planar geometry, such as epidermal and dermal layer substitutes, have successfully reached the market, mainly due to their relative low complexity and simple geometry. In contrast, the mechanical and functional requirements of tubular tissues are more stringent compared to planar tissues. Tubular tissues, which are the main components of several biological systems (e.g. circulatory, urinary or respiratory), not only present an increased complexity in geometry and tissue architecture, they are also populated by mixed cell types. In addition, these are continuously exposed to cyclic mechanical stimuli, which modulate cellular responses and ultimately the functionality of the tissues. Therefore, the understanding and the ability to reproduce physiologically equivalent environments are critical to generate mechanically and biologically functional neo-tissues or tissue models. The aim of this doctoral research was to produce and characterize 3D DC-based tubular constructs as tissue models for airway tissue engineering in physiologically relevant culture conditions. The first objective was to develop DC-based constructs and evaluate, in real-time, the responses of seeded fibroblasts to PC and to culturing with the DC environment; the fabrication and characterization of mesenchymal stem cell (MSC) seeded multilayered DC-SF-DC hybrids; and to evaluate the differentiation of MSCs cultured within multilayered DC-SF-DC hybrids.The second objective was to develop and characterize cell-seeded tubular dense collagen constructs (TDCCs) with bioinspired mechanical properties.The third objective was to implement tubular dense collagen-based constructs as an airway tissue model through the evaluation of airway smooth muscle cell (ASMC) responses within TDCC under physiological mechanical stimuli, and the development of a multilayered tubular dense collagen-silk fibroin construct (TDC-SFC) that mimicked airway tract architecture in order to study MSC responses under physiological mechanical stimulation.By providing ASMCs with a physiologically equivalent niche, and through pulsatile flow stimulation, in vitro, ASMCs exhibited their native orientation, maintained their contractile phenotype and enhanced the mechanical properties of the TDCC through matrix remodelling. The ability of TDC-SFC to transfer physiological pulsatile stimulation to resident MSCs resulted in native-like cell orientation (i.e. parallel to circumferential strain), and induced MSC contractile phenotype expression.In conclusion, the tubular dense collagen-based constructs developed and implemented, in this doctoral dissertation, effectively provided an in vitro airway tissue model for potential preclinical studies to mimic physiological and pathological conditions (e.g. inflammatory and degenerative diseases) in a relevant biomechanical environment, as alternatives to simple tissue culture techniques or complex animal models.
À ce jour, seuls les tissus synthétisés de forme plane, comme les substituts dermiques et épidermiques, ont réussi à percer le marché, surtout en raison de leur complexité relativement faible et de leur géométrie simple. À l'opposé, les exigences mécaniques et fonctionnelles des tissus tubulaires imposent un plus grand nombre de contraintes que les tissus planaires. Principales composantes de plusieurs systèmes biologiques (circulatoire, urinaire ou respiratoire), les tissus tubulaires sont non seulement plus complexes sur le plan de la géométrie et de l'architecture tissulaire, mais ils sont aussi composés de cellules de différents types. De plus, ils sont continuellement exposés à des stimuli mécaniques cycliques. Voilà pourquoi il est essentiel de comprendre les milieux physiologiquement équivalents et de pouvoir les reproduire si on veut obtenir des néotissus ou des modèles tissulaires fonctionnels sur le plan mécanique et biologique.La présente recherche de doctorat visait donc à produire et à caractériser des constructions tubulaires 3D à base de CD, les tissus des voies respiratoires dans des conditions de culture physiologiquement pertinentes. Le premier objectif était de concevoir des constructions à base de CD et d'évaluer la réaction des fibroblastes ensemencés à la CP et à la culture dans un milieu à base de CD; de fabriquer et de caractériser des hybrides multicouches CD-fibroïne-CD ensemencés de cellules souches mésenchymateuses (CSM); et d'évaluer la différenciation.Le deuxième objectif de la présente recherche était de concevoir et de caractériser des constructions tubulaires faites de collagène dense (CTCD). Le troisième objectif était d'implanter des constructions tubulaires à base de CD comme modèle tissulaire des voies respiratoires par l'évaluation de la réponse des cellules musculaires lisses (CML) des voies respiratoires dans les CTCD en présence de stimuli mécaniques physiologiques.En leur fournissant une niche physiologiquement équivalente, et grâce à la stimulation de l'écoulement pulsatoire, in vitro, les CML des voies respiratoires ont pris leur orientation naturelle, maintenu leur phénotype contractile et amélioré les propriétés mécaniques de la CTCD grâce au remodelage matriciel. La capacité de la CTCD à transférer la stimulation physiologique pulsatile aux CSM résidentes a donné une orientation des cellules s'apparentant à leur orientation naturelle et induit l'expression phénotypique.En conclusion, les constructions tubulaires à base de collagène dense qui ont été développées et implantées sont parvenues à fournir in vitro un modèle tissulaire des voies respiratoires pour d'éventuelles études précliniques visant à reproduire les conditions physiologiques et pathologiques.
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Chik, Tsz-kit, und 戚子傑. „Fabrication of multi-component tissue for intervertebral disc tissue engineering“. Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2012. http://hub.hku.hk/bib/B47849447.

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Intervertebral disc tissue engineering is challenging because it involves the integration of multiple tissues with distinct structures and compositions such as lamellar annulus fibrosus, gel?like nucleus pulposus and cartilage endplate. Each of them has different compositions and different structures. It is hypothesized that integration of tissues can be enhanced with appropriate mechanical and biological stimuli. Meanwhile, effect of torsional stimulus on cell re?orientation in mesenchymal stem cell?collagen tubular constructs is investigated in this study. Furthermore, it is proposed that these findings can be used to fabricate a multicomponent unit for intervertebral disc tissue engineering. It has been demonstrated that mechanical and biological stimuli can stabilize the interface between osteogenic and chondrogenic differentiated constructs with enhanced ultimate tensile stress while the phenotype of osteogenic and chondrogenic differentiated constructs were maintained. Scanning electronic microscopic images have shown aligned collagen fibrils and presence of calcium at the interface, indicating the possibility of the formation of a calcified zone. In addition, it is proven that torsional stimulus triggered re?orientation of mesenchymal stem cells in collagen lamellae towards a preferred angle. Cell alignments were confirmed by using a MatLab?based program to analyze the actin filament and the cell alignment via Phalloidin and Hematoxylin staining, respectively. Cells and actin filaments were inclined around 30o from the vertical axis, while cells and filaments in the control group (static loading) aligned along the vertical axis. Furthermore, a double?layers bioengineered unit was fabricated, with intact osteogenic differentiated parts at both ends. Comparatively higher cell density was observed at the interface between layers, demonstrating the interactions between layers, while the phenotype of each part was maintained in 14 days culture. This study concludes that a multi?components bioengineered unit with preferred cell alignments can be fabricated. This provides new insights to future development of bioengineered spinal motion segment for treating late stage disc degeneration.
published_or_final_version
Mechanical Engineering
Doctoral
Doctor of Philosophy
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Banani, M. A., M. Rahmatullah, N. Farhan, Zoe Hancox, Safiyya Yousaf, Z. Arabpour, Moghaddam Z. Salehi, M. Mozafari und Farshid Sefat. „Adipose tissue-derived mesenchymal stem cells for breast tissue regeneration“. Future Medicine, 2021. http://hdl.handle.net/10454/18391.

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With an escalating incidence of breast cancer cases all over the world and the deleterious psychological impact that mastectomy has on patients along with several limitations of the currently applied modalities, it's plausible to seek unconventional approaches to encounter such a burgeoning issue. Breast tissue engineering may allow that chance via providing more personalized solutions which are able to regenerate, mimicking natural tissues also facing the witnessed limitations. This review is dedicated to explore the utilization of adipose tissue-derived mesenchymal stem cells for breast tissue regeneration among postmastectomy cases focusing on biomaterials and cellular aspects in terms of harvesting, isolation, differentiation and new tissue formation as well as scaffolds types, properties, material–host interaction and an in vitro breast tissue modeling.
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Killich, Markus. „Tissue Doppler Imaging“. Diss., lmu, 2007. http://nbn-resolving.de/urn:nbn:de:bvb:19-67089.

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Heidegger, Simon. „Tissue-specific migration“. Diss., lmu, 2010. http://nbn-resolving.de/urn:nbn:de:bvb:19-131476.

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Bücher zum Thema "Tishre"

1

Ḥayim, Aviner Shelomoh. Ḥage Tishre. Bet El: Sifriyat Ḥaṿah, 2009.

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Karmon, Meʼir. Retsaḥ be-Tishre. Hertseliyah: M. Karmon, 1995.

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Shor, Rachel. Geshamim be-Tishre. [Tel Aviv]: Raḥel Shor, 2005.

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Karmon, Meʾir. Retsaḥ be-Tishre. Hertseliyah: M. Karmon, 1995.

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(Jerusalem), Mekhon Zohar ha-Ḥasidut. Yeme malkhut: Ḥodesh Tishre. Yerushalayim: Mekhon Zohar ha-Ḥasidut, 1997.

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ʻOz, Aryeh. Shemaʻ Yiśraʼel--: Tishre, Ḥeshṿan, Kisleṿ. Yehud Monoson: Ofir bikurim, 2011.

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Tauber, Ezriel. Sefer Pirḳe maḥashavah: Elul-Tishre. Yerushalayim: [ḥ. mo. l], 2002.

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Israel, Bajurim Tiferet. Tishre 5761 2000: Horarios y comentarios. Buenos Aires: Bajurim Tiferet Israel, 2000.

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Hendel, Ṭ. Elul-Tishre: Dinim, minhagim ṿe-sipure Ḥasidim. 8. Aufl. Kefar Ḥabad: Reshet Ohole Yosef Yitsḥaḳ, 2006.

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Wagschal, S. Sefer Shaʻare Elul Tishre: Shaʻare Elul, shaʻare Tishre, darkhe ha-teshuvah le-khol ha-shanah ; Ṿe-sefer Shaʻare musar li-yeme Elul ṿe-Tishre ʻal pi luaḥ yomi. 8. Aufl. [Jerusalem?]: Shaul Ṿagshal, 2007.

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Buchteile zum Thema "Tishre"

1

Lim, Diana, Anthony Atala und James J. Yoo. „Tissue Engineered Renal Tissue“. In Organ Tissue Engineering, 1–25. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-18512-1_12-1.

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Lim, Diana, Anthony Atala und James J. Yoo. „Tissue-Engineered Renal Tissue“. In Organ Tissue Engineering, 233–57. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-44211-8_12.

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Bährle-Rapp, Marina. „tissue“. In Springer Lexikon Kosmetik und Körperpflege, 559. Berlin, Heidelberg: Springer Berlin Heidelberg, 2007. http://dx.doi.org/10.1007/978-3-540-71095-0_10568.

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Han, Seung-Kyu. „Injectable Tissue-Engineered Soft Tissue“. In Innovations and Advances in Wound Healing, 263–87. Berlin, Heidelberg: Springer Berlin Heidelberg, 2016. http://dx.doi.org/10.1007/978-3-662-46587-5_12.

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Mahyudin, Ferdiansyah, und Heri Suroto. „Tissue Bank and Tissue Engineering“. In Advanced Structured Materials, 207–34. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-14845-8_9.

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Adeniran, Adebowale J., und David Chhieng. „Parathyroid Tissue Versus Thyroid Tissue“. In Common Diagnostic Pitfalls in Thyroid Cytopathology, 309–21. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-31602-4_19.

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7

Zhang, Lu, und Myron Spector. „Tissue Engineering of Musculoskeletal Tissue“. In Tissue Engineering, 597–624. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-02824-3_27.

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Han, Seung-Kyu. „Injectable Tissue-Engineered Soft Tissue“. In Innovations and Advances in Wound Healing, 369–98. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-9805-8_14.

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9

Borges, J., E. M. Lang und G. B. Stark. „Tissue engineering und regenerative Medizin in der rekonstruktiven Chirurgie“. In Tissue Engineering, 3–10. Heidelberg: Steinkopff, 2003. http://dx.doi.org/10.1007/978-3-642-57353-8_1.

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Rudert, M., U. Wilms und C. J. Wirth. „Vergleich kokultivierter synthetischer und biologischer Trägermaterialien bei der Behandlung osteochondraler Defekte“. In Tissue Engineering, 87–99. Heidelberg: Steinkopff, 2003. http://dx.doi.org/10.1007/978-3-642-57353-8_10.

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Konferenzberichte zum Thema "Tishre"

1

Zharkikh, Elena V., Yulia I. Loktionova, Igor O. Kozlov, Angelina I. Zherebtsova, Victor V. Sidorov, Evgenii A. Zherebtsov, Andrey V. Dunaev und Edik U. Rafailov. „Wearable laser Doppler flowmetry for the analysis of microcirculatory changes during intravenous infusion in patients with diabetes mellitus“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2552464.

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Chervinsky, Leonid. „The ways and effects of ultraviolet radiation on the human and animal body“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2552719.

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Shukla, Shivam, Pankaj P. Singh, Prabodh K. Pandey und Asima Pradhan. „Extraction of thickness and fluorophore concentration of the upper layer in a two-layered solid phantom using spatially resolved fluorescence spectroscopy“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2552978.

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Lengenfelder, Benjamin, Martin Hohmann, Margarete Röhm, Michael Schmidt, Azhar Zam, Zeev Zalevsky und Florian Klämpfl. „Image reconstruction for remote photoacoustic tomography using speckle-analysis“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2553080.

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Ohulchanskyy, Tymish Y. „Near-infrared phototheranostics: optical imaging and light induced therapy (Conference Presentation)“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2553677.

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Dremin, Viktor V., Dmytro Anin, Oleksii Sieryi, Mariia A. Borovkova, Juha Näpänkangas, Igor V. Meglinski und Alexander V. Bykov. „Imaging of early stage breast cancer with circularly polarized light“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2554166.

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Van Eeckhout, Albert, Enric Garcia-Caurel, Razvigor Ossikovski, Angel Lizana, Carla Rodríguez, Emilio González und Juan Campos. „Depolarizing spaces for biological tissue classification based on a wavelength combination“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2554416.

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Chernomyrdin, Nikita V., Irina N. Dolganova, Gleb M. Katyba, Vladimir N. Kurlov, Igor V. Reshetov, Valery V. Tuchin und Kirill I. Zaytsev. „Terahertz microscopy of biological tissues with the spatial resolution beyond the Abbe diffraction limit (Conference Presentation)“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2554704.

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Filina, Mariya A., Elena V. Potapova, Anna K. Koroleva, Dmitry D. Stavtsev, Nikita B. Margaryants, Natalia Y. Yakushkina und Andrey V. Dunaev. „A multimodal approach to monitoring the state of microvasculature in patients with psoriasis in the course of treatment“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2554711.

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Carneiro, Isa, Sónia Carvalho, Rui Henrique, Luís Oliveira und Valery V. Tuchin. „Measurement of optical properties of normal and pathological human liver tissue from deep-UV to NIR“. In Tissue Optics and Photonics, herausgegeben von Zeev Zalevsky, Valery V. Tuchin und Walter C. Blondel. SPIE, 2020. http://dx.doi.org/10.1117/12.2554877.

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Berichte der Organisationen zum Thema "Tishre"

1

Robinson, David Gerald. Tissue Classification. Office of Scientific and Technical Information (OSTI), Januar 2015. http://dx.doi.org/10.2172/1177377.

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2

Diebold, Gerald J. Electroacoustic Tissue Imaging. Fort Belvoir, VA: Defense Technical Information Center, April 2006. http://dx.doi.org/10.21236/ada456398.

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3

Diebold, Gerald J. Electroacoustic Tissue Imaging. Fort Belvoir, VA: Defense Technical Information Center, April 2005. http://dx.doi.org/10.21236/ada435025.

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4

Diebold, Gerald J. Electroacoustic Tissue Imaging. Fort Belvoir, VA: Defense Technical Information Center, April 2003. http://dx.doi.org/10.21236/ada415818.

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5

Lee, Gordon K., und John Paro. Breast Tissue Expander. Touch Surgery Simulations, Mai 2014. http://dx.doi.org/10.18556/touchsurgery/2014.s0023.

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6

Liu, Jinhua, und Meiqin Luo. Biological Tissue Sensors. Fort Belvoir, VA: Defense Technical Information Center, April 1990. http://dx.doi.org/10.21236/ada222817.

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7

Spence, Jody L. A study of a tissue equivalent gelatine based tissue substitute. Office of Scientific and Technical Information (OSTI), November 1992. http://dx.doi.org/10.2172/10110474.

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Spence, J. L. A study of a tissue equivalent gelatine based tissue substitute. Office of Scientific and Technical Information (OSTI), November 1992. http://dx.doi.org/10.2172/6833705.

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9

Iglehart, J. D. Breast Cancer Tissue Repository. Fort Belvoir, VA: Defense Technical Information Center, September 1998. http://dx.doi.org/10.21236/ada360856.

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10

Inglehart, J. D. Breast Cancer Tissue Repository. Fort Belvoir, VA: Defense Technical Information Center, September 1995. http://dx.doi.org/10.21236/ada300629.

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