39,568 research outputs found
Martina Drijverová and her literary works for children (author´s portrait)
This thesis Martina Drijverova and her literatur for children (the author´s portrait) is engaged in work of writer and screenwriter Martina Drijeverová. She is an excellent writer of literature for children. In the first part of this work her story writing is mentioned and the second part deals with her fairy-tale writing. The other author´s work written for children is in the third part. The conclusion of this thesis appreciates the author´s credit in literature for chidlren. Analysis of some books are available. The supplementary part is composed of autor´s biography and her photograph, some book covers, list of the autor´s work {--} televiews, radio plays and serials, audio tapes and CDs, stage plays, books written in Braille
Alumni 100 : razgovor s umjetnicima (Nikša Bareza, Martina Filjak i Jadranka Gašparović, 16. 10. 2021.)
Snimka intervjua s dirigentom i solisticama održanog nakon koncerta Alumni 100. Koncert je održan 16. 10. 2021. u Koncertnoj dvorani Vatroslava Lisinskog. Izvođači: Simfonijski orkestar Muzičke akademije Sveučilišta u Zagrebu, solistice Jadranka Gašparović (violončelo) i Martina Filjak (klavir). Dirigent: Nikša Bareza. Program koncerta: 1. Stanko Horvat: Ljetni diptih za violončelo i orkestar (solistica: Jadranka Gašparović); 2. Milko Kelemen: Koncert za klavir i orkestar (solistica: Martina Filjak); 3. Natko Devčić: Istarska suita za orkestar
Exprese vybraných membránových transportérů v placentách těhotných žen s diagnostikovanou předčasnou rupturou plodových obalů
Univerzita Karlova Farmaceutická fakulta v Hradci Králové Katedra farmakológie a toxikológie Študentka: Martina Michalská Školiteľ: doc. PharmDr. Martina Čečková, Ph.D. Názov diplomovej práce: Expresia vybraných membránových transportérov v placentách tehotných žien s diagnostikovanou predčasnou ruptúrou plodových obalov Placenta je orgán, ktorý má kľúčovú úlohu počas tehotenstva. Jednou z jej hlavných funkcií je transport látok medzi matkou a plodom. Tento prestup je z veľkej časti uskutočňovaný pomocou membránových transportérov, nachádzajúcich sa na apikálnej alebo bazálnej strane trofoblastu. Ich množstvo je ovplyvňované celu radou fyziologických i patologickými faktorov, mimo iného jich pravdepodobe ovplyvňuje aj infekcia a zápalová reakcia. Zápal je tiež jedným z rizikových faktorov predčasných pôrodov, a preto sa dá domnievať, že počas nich dôjde ku zmene expresie placentárnych prenášačov. Tato štúdia bola uskutočňovaná na 51 placentách, získaných vo Fakultnej nemocnice v Hradci Králové od žien, u ktorých došlo k predčasnému pôrodu, a na 15 placentách žien s pôrodom v termíne. Na experiment bola použitá kvantitatívna RT-PCR metóda. Sledovala sa mRNA expresia membránových prenášačov ABCB1, ABCG2, OATP1A2, OATP1B3, OATP2A1, OATP2B1, OATP3A1, OATP4A1, pričom sa tieto výsledky porovnávali s...Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmacology & Toxicology Student: Martina Michalská Supervisor: doc. PharmDr. Martina Čečková, Ph.D. Title of diploma thesis: Expression of selected membrane transporters in placentas of pregnant women diagnosed for preterm rupture of membranes Placenta is a key organ for pregnancy maintenance. One of its main functions is transport of compounds between mother and her fetus. The transplacental penetration is ensured due to membrane transporters that are present in the apical or basal side of trophoblast. Their expression level is affected by many physiological and pathological factors, among others it can be influenced by infection and inflamatory reaction. Inflammation is also one of the risk factors of preterm deliveries and it can be therefore assumed that these pathological states are accompanied by changes in expression of placental transporters. This study was performed using 51 placentas obtained from Faculty hospital in Hradec Králové from women who underwent preterm delivery and on 15 placentas delivered in term. The study employed quantitative RT-PCR approach. The mRNA expression of membrane transporters ABCB1, ABCG2, OATP1A2, OATP1B3, OATP2A1, OATP2B1, OATP3A1, OATP4A1 was assessed and the results were compared to...Katedra farmakologie a toxikologieDepartment of Pharmacology and ToxicologyFarmaceutická fakulta v Hradci KrálovéFaculty of Pharmacy in Hradec Králov
Love Is Dances Waves Trees - Martina Almgren
EP-album publicerat på digitala plattformar samt i fysiskt format. Tre egna tonsättningar (Dances, Love is, Trees) med texter hämtade ur Rabindranath Tagore´s lyrik, samt en instrumentalimprovisation (Waves). Medverkande musiker: Karin Burman sång, Ahmad al Khatib oud, Owe Almgren akustisk basgitarr, Niclas Rydh trombon samt Martina Almgren slagverk, tvärflöjt och komposition. Fonogramstöd från Kulturrådet. Skivbolag Oh Yeah Records, www.ohyeahrecords.com. Distribution Border Music. Inspelning och mixning i Klangverket studio av Åke Linton 2023/24. Videoproduktion av Josefin Stacey. www.martinaalmgren.co
An Author´s Existence
This bachelor´s thesis represents a sort of personal looking back vhich goes in two parallel lines - looking for oneself in artistic circles and looking for one own creative approach to the life and pedagogy. The work is divided into three parts. First part maps the author´s (not only) family background, in the second part the author leads us through a period of searching and trying to understand oneself through studying artistic and psychosomatic disciplines and the third integrating part concentrates on the present moment as a point of departure for work with the voice and voice pedagogy
“Endogenous Managerial Contracts”, Csef Working Papers 148 , (con R. Martina e S. Piccolo), scaricabile da http://www.dise.unisa.it/WP/wp148.pdf
Csef Working Pape
HERStory Makers 2022: Martina Čagalj
Martina Čagalj is a PhD candidate at the University of Split studying seaweeds as a potential source of bioactive compounds. She took part in HERStory Makers 2022.What is HERStory Makers?HERStory Makers is a social media competition for female-identifying early career researchers to share their research, their career journeys, and to inspire the next generation. Winners are selected by public vote. HERStory Makers is also part of EXPLORATHON, Scotland's contribution to European Researchers' Night.In 2022-23, EXPLORATHON was supported by the Engineering & Physical Sciences Research Council [grant number EP/X020894/1].Author contributions to contentMartina Čagalj conceived, planned, and recorded the video content. Kirsty Ross edited the video content to insert HERStory Maker credits, add subtitles, and maintain video length below Twitter/X limit of 2 mins and 20 secs, prior to scheduling the social media posts.</p
Harold Martina, piano (Países Bajos) y Rony Rogoff, violín (Israel)
Concierto interpretado por Rony Rogoff y Harold Martina. Rogoff Comenzó estudios de violín con su padre, miembro fundador de la Orquesta Filarmónica de Israel, y con Rarni Shevelov; luego estudió con Iván Galamian y Dorothy de La y en la Julliard School de Nueva York y con Joseph Szigeti en Suiza.
Martina inició sus estudios musicales a los cinco años con el profesor inglés Newburn Patrick y los continuó con el maestro holandés Teun Don. Prosiguió su formación pianística con Annamaría Pennella en el Instituto de Bellas Artes de Medellín, donde obtuvo su grado Cum Laude como concertista.
En este concierto interpretaron obras de J. S. Bach, W. A. Mozart, César Franck
Advances in surface EMG signal simulation with analytical and numerical descriptions of the volume conductor
Surface electromyographic (EMG) signal modeling is important for signal interpretation, testing of processing algorithms, detection system design, and didactic purposes. Various surface EMG signal models have been proposed in the literature. In this study we focus on 1) the proposal of a method for modeling surface EMG signals by either analytical or numerical descriptions of the volume conductor for space-invariant systems, and 2) the development of advanced models of the volume conductor by numerical approaches, accurately describing not only the volume conductor geometry, as mainly done in the past, but also the conductivity tensor of the muscle tissue. For volume conductors that are space-invariant in the direction of source propagation, the surface potentials generated by any source can be computed by one-dimensional convolutions, once the volume conductor transfer function is derived (analytically or numerically). Conversely, more complex volume conductors require a complete numerical approach. In a numerical approach, the conductivity tensor of the muscle tissue should be matched with the fiber orientation. In some cases (e.g., multi-pinnate muscles) accurate description of the conductivity tensor may be very complex. A method for relating the conductivity tensor of the muscle tissue, to be used in a numerical approach, to the curve describing the muscle fibers is presented and applied to representatively investigate a bi-pinnate muscle with rectilinear and curvilinear fibers. The study thus propose an approach for surface EMG signal simulation in space invariant systems as well as new models of the volume conductor using numerical methods
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