- About
-
The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
provided by the
Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
Search results
Showing 1 to 9 of 9 (0.043 seconds)Spelling suggestions: "subject:"toksičnosti""
| 1 |
Prognostički značaj mijelotoksičnosti u toku hemioterapije za preživljavanje bolesnika sa uznapredovalim nemikrocelularnim karcinomom bronha / Prognostic significance of myelotoxicity during chemotherapy on the survival of patients with advanced Non-small Cell Lung cancerTepavac Aleksandar 25 February 2015 (has links)
<p dir="rtl" style="text-align: left;">Karcinom bronha je važna i široko rasprostranjena bolest koja predstavlja veliki problem javnog zdravlja. Kod osoba muškog pola se nalazi na prvom mestu kako po učestalosti obolevanja tako i kao uzrok smrti među svim malignim tumorima, dok se kod osoba ženskog pola nalazi na trećem ili četvrtom mestu po obolevanju, a po umiranju uglavnom na drugom mestu. Kod najvećeg broja bolesnika bolest se otkriva u uznapredovalom ili metatstaskom stadijumu, a hemioterapija predstavlja jedan od vidova lečenja uznapredovale ili metastatske bolesti. Pored toga što produžava preživljavanje i poboljšava kvalitet života obolelih praćena je istovremeno i brojnim neželjenim događajima. Iako hemioterapijski protokoli bazirani na preparatima platine ostvaruju najveću efektivnost kod bolesnika sa uznapredovalim nemikrocelularnim karcinomom bronha toksičnost koja je prati predstavlja najveći problem sa kojim se susrećemo. Ali, uprkos ovoj činjenici veliki broj studija je pokazao da je upravo odsustvo mijelotoksičnosti tokom hemioterapije udruženo sa lošijim ishodom lečenja kod obolelih od karcinoma bronha. Iz tog razloga je i predloženo da se hematološka toksičnost koristi kao mera biološke aktivnosti citotoksičnih lekova, njen prognostički značaj je evaluiran i proučavan u velikom broju studija. Ciljevi ove doktorske disertacije su bili da se utvrditi uticaj leukopenije, anemije i trombocitopenije kao nezavisnih prognostičkih faktora na preživljavanje bolesnika sa nemikrocelularnim karcinomom bronha; da se utvrditi učestalost hematološke toksičnosti lečenih hemioterapijskim protokolima Cisplatin/Vepezid i Gemcitabin/Cisplatin i da se utvrdite razlike u preživljavanju bolesnika lečenih hemioterapijskim protokolima Cisplatin/Vepezid i Gemcitabin/Cisplatin. U uzorku je analizirano 200 bolesnika, 76% muškog i 24% ženskog pola, prosečne starosti 61.4 godine. Najzastupljenji su bili bolesnici u IV stadijumu 50.5%, a najčešći patohistološki tip karcinoma u uzorku je bio adenokarcinom sa 51.5%. Nije utvrđeno postojanje statistički značajne razlike u gradusima leukopenije, anemije i trombocitopenije između posmatranih grupa, (<em>X</em><sup>2</sup>=2.908, <em>X</em><sup>2</sup>=2.264, <em>X</em><sup>2</sup>=3.403, p>0.05). U obe grupe je univarijantnom analizom dokazanao da stadijum bolesti i terapijski odgovor imaju statistički značaj kao „ne - hematološki“ prognostički faktori (p<0.01). U obe grupe su takođe univarijentnom analizom leukopenija, anemija i trombocitopenija identifikovane kao prognostički faktori kod obolelih od NSCLC, dok multivarijantnom analizom ni jedan od analiziranih faktora nije identifikovan kao prognostički. U obe grupe su bolesnici sa leukopenijom, anemijom i trombocitopenijom gradusa 3 i 4 imali statistički značajno duže preživljavanje u odnosu na bolesnike sa gradusom 0. Nije postojala razlika u preživljavanju bolesnika lečenih hemioterapijskim protokolima cisplatin/etopozid I gemcitabin/cisplatin (F=0.069; p>0.05). Nije postojala razlika u preživljavanju bolesnika sa anemijom, leukopenijom i trombocitopenijom između grupa A i B za graduse 0, 3 i 4</p> / <p>Lung cancer is an important and widespread disease which represents a major public health problem. It is the most frequent disease among all malignant diseases at males, among women it is on the third or fourth place among malignant diseases. In most cases the disease is detected at an advanced or metastatic stage and chemotherapy is one of the therapy options of. Despite the fact that chemotherapy prolongs survival and improves quality of life of patients, at the same time chemotherapy causes a number of different adverse events. Although chemotherapy protocols based platinum achieve maximum effectiveness in patients with advanced non-small cell lung cancer, toxicity that accompanies represents a big problem. But despite this fact, a number of studies have shown that the absence of myelotoxicity during chemotherapy is associated with poorer treatment outcomes in patients with bronchial carcinoma. For this reason, it is proposed that hematological toxicity may be used as a measure of the biological activity of the cytotoxic drug, and its prognostic significance was studied and evaluated in a number of studies. The objectives of this dissertation were to determine the effect of leucopenia, anemia andthrombocytopenia as an independent prognostic factor in the survival of patients with Non Small Cell Lung lung cancer, to determine the incidence of hematological toxicity treated with chemotherapy protocols cisplatin/etoposid and gemcitabine/cisplatin and to determine differences in survival patients treated with chemotherapy protocols cisplatin/etoposid and gemcitabine/ cisplatin. We analyzed 200 patients, 76% male and 24% female, mean age 61.4 years. The most frequent were patients in stage IV 50.5%, and the most common histopathological type was adenocarcinoma with 51.5%. We did not find statistically significant differences in grade of leukopenia, anemia and thrombocytopenia between the groups (<em>X</em><sup>2</sup>=2.908,<em> X</em><sup>2</sup>=2.264, <em>X</em><sup>2</sup>=3.403, p>0.05). In both groups, the univariant analysis has shown that the stage of disease and response rate as a non-hematological prognostic factor had statistical significance (p <0.01). In both groups of patients with NSCLC leucopenia, anemia and trombocitopenia has identified with univariant analysis as a prognostic factors, but multivariant analysis did not show that any of analyzed factors are prognostic. In both groups, patients with grade 3 and 4 of leucopenia, anemia and trombocitopenia had statistically longer survival than patients with grade 0. We did not find statistically significant difference in overall survival of patients treated with cisplatin/etoposid i gemcitabin/cisplatin regimes (F=0.069; p>0.05). We did not find any statistically differences in overall survival between group A and B for leucopenia, anemia and trombocitopenia grade 0, 3 and 4.</p>
|
| 2 |
Dizajniranje, fizičko-hemijska karakterizacija, toksičnost i primena nove klase funkcionalizovanih jonskih tečnosti / Design, physico-chemical characterisation, toxicity and application of newly class of functionalized ionic liquidsAleksandar Tot 03 July 2019 (has links)
<p>U ovoj doktorskoj disertaciji sintetisane su dve različite klase jonskih tečnosti, na bazi imidazolijuma i holinijuma, sa ciljem snižavanja toksičnosti. Imidazolijumove jonske tečnosti su funkcionalizovane hidroksilnom i etarskom grupom u bočnom lancu. Uspešnost sinteza jonskih tečnosti potvrđena je snimanjem IC i NMR spektara. Izmerene su gustine, viskoznosti i provodljivosti čistih imidazolijumovih i holinijumskih jonskih tečnosti. Na osnovu dobijenih eksperimentalnih rezultata,potpomognutim računarskim simulacijama diskutovana je strukturna organizacija između katjona i anjona. Utvrđeno je da prisustvo hidroksilne grupe u bočnom lancu imidazolovog katjona, značajno utiče na lokaciju anjona i samim tim na makroskopska svojstva. U nastavku su izmerene gustine i viskoznosti vodenih rastvora sa ciljem dobijanja informacija o uticaju dodatka holinijumskih i imidazolijumovih jonskih tečnosti na strukturu vode. Na osnovu B koeficijenta iz<br />viskoznosti, ekspanzibilnosti i rezultata simulacija molekulske dinamike, utvrđeno je da sve jonske tečnosti imaju structure making osobine. Takođe, na osnovu izračunatih specifičnih molarnih zapremina i doking analize na receptoru za gorak ukus,<br />ustanovljeno je da vodeni rastvori holinijumskih jonskih tečnosti imaju gorak ukus.<br />Toksičnost funkcionalizovanih imidazolijumovih jonskih tečnosti ispitana je na nekoliko biljnih vrsta (pšenica, ječam i krastavac), kao i na larvama <em>A. salina</em> i ćelijskoj liniji MRC-5. Potvrđeno jeda uvođenje hidroksilne grupe u alkil niz najviše se redukuju<br />toksičnosti imidazolijumovih jonskih tečnosti, dok je uticaj etarske grupe na smanjenje toksičnosti značajno manji. Ispitivanje citotoksičnosti i antibakterijske aktivnosti ukazalo je da holinijumske jonske tečnosti se mogu smatrati netoksičnima, i<br />pokazuju beningnije dejstvo u poređenju sa njihovim polaznim komponentama (askorbinska kiselina, biotin i nikotinska kiselina).</p> / <p><!--[if gte mso 9]><xml> <w:WordDocument> <w:View>Normal</w:View> <w:Zoom>0</w:Zoom> <w:TrackMoves/> <w:TrackFormatting/> <w:PunctuationKerning/> <w:ValidateAgainstSchemas/> <w:SaveIfXMLInvalid>false</w:SaveIfXMLInvalid> <w:IgnoreMixedContent>false</w:IgnoreMixedContent> <w:AlwaysShowPlaceholderText>false</w:AlwaysShowPlaceholderText> <w:DoNotPromoteQF/> <w:LidThemeOther>EN-US</w:LidThemeOther> <w:LidThemeAsian>X-NONE</w:LidThemeAsian> <w:LidThemeComplexScript>X-NONE</w:LidThemeComplexScript> <w:Compatibility> <w:BreakWrappedTables/> <w:SnapToGridInCell/> <w:WrapTextWithPunct/> <w:UseAsianBreakRules/> <w:DontGrowAutofit/> <w:SplitPgBreakAndParaMark/> <w:DontVertAlignCellWithSp/> <w:DontBreakConstrainedForcedTables/> <w:DontVertAlignInTxbx/> <w:Word11KerningPairs/> <w:CachedColBalance/> </w:Compatibility> <w:BrowserLevel>MicrosoftInternetExplorer4</w:BrowserLevel> <m:mathPr> <m:mathFont m:val="Cambria Math"/> <m:brkBin m:val="before"/> <m:brkBinSub m:val="--"/> <m:smallFrac m:val="off"/> <m:dispDef/> <m:lMargin m:val="0"/> <m:rMargin m:val="0"/> <m:defJc m:val="centerGroup"/> <m:wrapIndent m:val="1440"/> <m:intLim m:val="subSup"/> <m:naryLim m:val="undOvr"/> </m:mathPr></w:WordDocument></xml><![endif]--><!--[if gte mso 9]><xml> <w:LatentStyles DefLockedState="false" DefUnhideWhenUsed="true" DefSemiHidden="true" DefQFormat="false" DefPriority="99" LatentStyleCount="267"> <w:LsdException Locked="false" Priority="0" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Normal"/> <w:LsdException Locked="false" Priority="9" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="heading 1"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 2"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 3"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 4"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 5"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 6"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 7"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 8"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 9"/> <w:LsdException Locked="false" Priority="39" Name="toc 1"/> <w:LsdException Locked="false" Priority="39" Name="toc 2"/> <w:LsdException Locked="false" Priority="39" Name="toc 3"/> <w:LsdException Locked="false" Priority="39" Name="toc 4"/> <w:LsdException Locked="false" Priority="39" Name="toc 5"/> <w:LsdException Locked="false" Priority="39" Name="toc 6"/> <w:LsdException Locked="false" Priority="39" Name="toc 7"/> <w:LsdException Locked="false" Priority="39" Name="toc 8"/> <w:LsdException Locked="false" Priority="39" Name="toc 9"/> <w:LsdException Locked="false" Priority="35" QFormat="true" Name="caption"/> <w:LsdException Locked="false" Priority="10" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Title"/> <w:LsdException Locked="false" Priority="1" Name="Default Paragraph Font"/> <w:LsdException Locked="false" Priority="11" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Subtitle"/> <w:LsdException Locked="false" Priority="22" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Strong"/> <w:LsdException Locked="false" Priority="20" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Emphasis"/> <w:LsdException Locked="false" Priority="59" SemiHidden="false" UnhideWhenUsed="false" Name="Table Grid"/> <w:LsdException Locked="false" UnhideWhenUsed="false" Name="Placeholder Text"/> <w:LsdException Locked="false" Priority="1" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="No Spacing"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 1"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 1"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 1"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 1"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 1"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 1"/> <w:LsdException Locked="false" UnhideWhenUsed="false" Name="Revision"/> <w:LsdException Locked="false" Priority="34" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="List Paragraph"/> <w:LsdException Locked="false" Priority="29" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Quote"/> <w:LsdException Locked="false" Priority="30" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Intense Quote"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 1"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 1"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 1"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 1"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 1"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 1"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 1"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 1"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 2"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 2"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 2"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 2"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 2"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 2"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 2"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 2"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 2"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 2"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 2"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 2"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 2"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 2"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 3"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 3"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 3"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 3"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 3"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 3"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 3"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 3"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 3"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 3"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 3"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 3"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 3"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 3"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 4"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 4"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 4"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 4"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 4"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 4"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 4"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 4"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 4"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 4"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 4"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 4"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 4"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 4"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 5"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 5"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 5"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 5"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 5"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 5"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 5"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 5"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 5"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 5"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 5"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 5"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 5"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 5"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 6"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 6"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 6"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 6"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 6"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 6"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 6"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 6"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 6"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 6"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 6"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 6"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 6"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 6"/> <w:LsdException Locked="false" Priority="19" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Subtle Emphasis"/> <w:LsdException Locked="false" Priority="21" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Intense Emphasis"/> <w:LsdException Locked="false" Priority="31" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Subtle Reference"/> <w:LsdException Locked="false" Priority="32" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Intense Reference"/> <w:LsdException Locked="false" Priority="33" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Book Title"/> <w:LsdException Locked="false" Priority="37" Name="Bibliography"/> <w:LsdException Locked="false" Priority="39" QFormat="true" Name="TOC Heading"/> </w:LatentStyles></xml><![endif]--><!--[if gte mso 10]><style> /* Style Definitions */ table.MsoNormalTable{mso-style-name:"Table Normal";mso-tstyle-rowband-size:0;mso-tstyle-colband-size:0;mso-style-noshow:yes;mso-style-priority:99;mso-style-qformat:yes;mso-style-parent:"";mso-padding-alt:0in 5.4pt 0in 5.4pt;mso-para-margin-top:0in;mso-para-margin-right:0in;mso-para-margin-bottom:10.0pt;mso-para-margin-left:0in;line-height:115%;mso-pagination:widow-orphan;font-size:11.0pt;font-family:"Calibri","sans-serif";mso-ascii-font-family:Calibri;mso-ascii-theme-font:minor-latin;mso-fareast-font-family:"Times New Roman";mso-fareast-theme-font:minor-fareast;mso-hansi-font-family:Calibri;mso-hansi-theme-font:minor-latin;mso-bidi-font-family:"Times New Roman";mso-bidi-theme-font:minor-bidi;}</style><![endif]--></p><p class="MsoNormal">In this doctoral thesis, ionic liquids based on imidazolium and cholinium cation were synthesized, in order to obtain new class of ILs with reduced toxicity. Imidazolium based ionic liquids were functionalized with hydroxyl and ether group in order to reduce their lipophilicity. All newly synthesized compounds were confirmed by measuring IR and NMR spectra. For pure ionic liquids, density, conductivity and viscosity were measured. Based on the obtained experimental results supported with results of molecular simulations, it was concluded that presence of oxygen in alkyl side chain of imidazolium ionic liquids significantly contribute to position of anion. Further, density and viscosity of diluted aqueous ILs solutions were measured with a purpose to investigate their influence on water structure. Based on obtained values for viscosicty B coefficient, expansibility and from MD simulations, all ionic liquids express structure making tendency. From calculated specific apparent molar volumes for cholinium ionic liquids it was noted bitter taste. The toxicity of functionalized imidazolium ionic liquids was investigated on different plant species (wheat , barley and cucumber), on larvae of <em><span style="font-family:"Calibri","sans-serif";mso-ascii-theme-font:minor-latin;mso-hansi-theme-font:minor-latin;mso-bidi-font-family:"Times New Roman";mso-bidi-theme-font:minor-bidi"> A. salina</span></em> and cell line MRC-5. From<br />obtained results it was concluded that introduction of hydroxyl group in alkyl side chain reduce toxicity significantly more than ether group. Experiments on cytotoxicicity and antibacterial effects allowed to conclude that those newly synthesized cholinium ionic liquids can be considered as non-toxic.</p>
|
| 3 |
Kardiotoksični efekat hemioterapije kod obolelih od nemikrocelularnog karcinoma bronha sa uznapredovalim stadijumom bolesti / Cardiotoxic effects of chemotherapy in patients with advanced non-small cell lung cancerBursać Daliborka 24 March 2015 (has links)
<p>Hemioterapija koja se koristi za lečenje karcinoma utiče i na kardiovaskularni sistem. Ciljevi istraživanja su: u tvrditi uticaj kardiotoksičnosti na reživljavanje bolesnika sa uznapredovalim stadijumom NSCLC; utvrditi učestalost pojave kardiotoksičnosti kod bolesnika koji su lečeni hemioterapijom prve linije (gemcitabin/cisplatin i paclitaxel/carboplatin) sa i bez prethodnih kardiovaskularnih oboljenja i utvrditi učestalost pojave kardiotoksičnosti u toku primene protokola docetaxel/cisplatin kao hemioterapije druge linije, u odnosu na primenu protokola gemcitabin/ cisplatin i paclitaxel/carboplatin, kao terapije prve linije. Istraživanjem je obuhvaćeno 270 bolesnika sa citološki ili patohistološki dokazanim NSCLC kliničkog stadiju ma III i IV. Dobijeni su rezultati koji ukazuju da je preživljavanje bolesnika u III i IV stadijumu NSCLC koji su imali pojavu kardiotoksičnosti tokom hemioterapije prve i druge linije kraće u odnosu na bolesnike bez pojave kardiotoksičnosti, sa statističkom značajnošću nakon prvog, drugog, četvrtog ciklusa hemioterapije i nakon šest meseci (p=0.004, p=0.020, p=0.030 i p<0.0005. respektivno). Kardiotoksičnost kod bolesnika u III i IV stadijumu NSCLC koji su primali hemioterapiju prve linije prema protokolu gemcitabin/cisplatin se češće javila ukoliko su imali prethodne kardiovaskularne bolesti, ali statistička značajnost nije utvrđena. Kardiotoksičnost kod bolesnika u III i IV stadijumu NSCLC koji su primali hemioterapiju prve linije prema protokolu paclita xel/carboplatin se češće javila ukoliko su imali prethodne kardiovaskularne bolesti, a statistička značajnost utvrđena prilikom prvog kontrolnog pregleda kod bolesnika u III stadijumu (p=0.037). Kod bolesnika u III i IV stadijumu NSCLC koji su primali hemioterapiju prve linije prema protokolima gemcitabin/cisplatin paclitaxel / carboplatin kardiotoksičnost se češće javila ukoliko su imali prethodna kardiovaskularna oboljenja, ali je statistička značajnost ustanovljena samo pri prvom kontrolnom pregledu , (p=0.022). Kod bolesnika koji su primali hemioterapiju druge linije kardiotoksičnost značajno češće javila u toku prvog ciklusa hemioterapije (p=0.049) u odnosu na bolesnike koji su primali hemioterapiju prve linije. Kod bolesnika koji su imali prethodne kardiovaskularne bolesti u toku druge linije hemioterapije kardiotoksičnost se statistički značajno češće javila u odnosu na prvu liniju hemioterapije u toku četvrtog ciklusa hemioterapije (p=0.020). Uspostavljanje ravnoteže između efektivnosti hemioterapije i rizika od oštećenja kardiovaskularnog sistema zahteva blisku saradnju onkologa i kardiologa , sa ciljem kreiranja individualne terapije za svakog bolesnika.</p> / <p>Lung cancer chemotherapy affects the cardiovascular system as well. The research objectives were to establish: the effects of cardiotoxicity on the survival of advanced NSCLC patients; the frequency of cardiotoxicity in the patients treated with the first - line chemotherapy (gemcitabine/cisplatin and paclitaxel/carboplatin), with or without the history of cardiovascular comorbidities, and the frequency of cardiotoxicity registered in the course of the second - line chemotherapy with docetaxel/cisplatin, as compared to the first - line chemotherapy with gemcitabine/cisplatin and paclitaxel/carboplatin. The investigation included 270 patients with citologically or histopathologically confirmed NSCLC at the clinical stages III and IV. The obtained research results suggest the patients with stage III and IV NSCLC who developed cardiotoxicity in the course of the first – and second - line chemotherapy had a shorter survival than those without cardiotoxicity, with the statistical significance registered after the first, second, and fourth chemotherapy course, as well as six months later (p=0.004, p=0.020, p=0.030 and p<0.0005 respectively). Stage III and IV NSCLC patients receiving the first - line chemotherapy with gemcitabine/cisplatin developed cardiotoxicity more frequently if they had a former history of cardiovascular diseases, but with no statistical significance registered. Stage III and IV NSCLC patients on the first - line chemotherapy protocol with paclitaxel/carboplatin developed cardiotoxicity more frequently if they had a former history of cardiovascular diseases, and the statistical significance was registered at the first control examination in stage III NSCLC patients (p=0.037). Stage III and IV NSCLC patients receiving the first-line chemotherapy protocols with gemcitabine/cisplatin and paclitaxel/carboplatin developed cardiotoxicity more frequently if they had former cardiovascular diseases, but the statistical significance was registered at the first control examination only, one month after chemotherapy application (p=0.022). The patients receiving the second - line chemotherapy developed cardiotoxicity much more often during the first chemotherapy course (p=0.049), as compared to the patiens receiving the first - line chemotherapy. Among the patients with a former history of cardiovascular diseases, those receiving the second – line chemotherapy developed cardiotoxicity during the fourth chemotherapy course significanly more freequently than the patients on the same course of the first-line chemotherapy (p=0.020). To achieve the balance between chemotherapy efficacy and the risk of the cardiovascular system damage requires a close cooperation of an oncologist and a cardiologist, aimed at designing a unique, individual therapy for each patient.</p>
|
| 4 |
Histomorfološke, imunohistohemijske i biohemijske karakteristike oštećenja bubrega kod miševa u modelu toksične nefropatije izazvane aristolohičnom kiselinom I / Histolomorphological, immunohistochemical and biochemical characteristics of kidney injury in mouse model of aristolochic acid nephropathyMiljković Dejan 18 February 2019 (has links)
<p><!--[if gte mso 9]><xml> <w:WordDocument> <w:View>Normal</w:View> <w:Zoom>0</w:Zoom> <w:TrackMoves/> <w:TrackFormatting/> <w:PunctuationKerning/> <w:ValidateAgainstSchemas/> <w:SaveIfXMLInvalid>false</w:SaveIfXMLInvalid> <w:IgnoreMixedContent>false</w:IgnoreMixedContent> <w:AlwaysShowPlaceholderText>false</w:AlwaysShowPlaceholderText> <w:DoNotPromoteQF/> <w:LidThemeOther>EN-US</w:LidThemeOther> <w:LidThemeAsian>X-NONE</w:LidThemeAsian> <w:LidThemeComplexScript>X-NONE</w:LidThemeComplexScript> <w:Compatibility> <w:BreakWrappedTables/> <w:SnapToGridInCell/> <w:WrapTextWithPunct/> <w:UseAsianBreakRules/> <w:DontGrowAutofit/> <w:SplitPgBreakAndParaMark/> <w:DontVertAlignCellWithSp/> <w:DontBreakConstrainedForcedTables/> <w:DontVertAlignInTxbx/> <w:Word11KerningPairs/> <w:CachedColBalance/> </w:Compatibility> <w:BrowserLevel>MicrosoftInternetExplorer4</w:BrowserLevel> <m:mathPr> <m:mathFont m:val="Cambria Math"/> <m:brkBin m:val="before"/> <m:brkBinSub m:val="--"/> <m:smallFrac m:val="off"/> <m:dispDef/> <m:lMargin m:val="0"/> <m:rMargin m:val="0"/> <m:defJc m:val="centerGroup"/> <m:wrapIndent m:val="1440"/> <m:intLim m:val="subSup"/> <m:naryLim m:val="undOvr"/> </m:mathPr></w:WordDocument></xml><![endif]--></p><p><!--[if gte mso 9]><xml> <w:LatentStyles DefLockedState="false" DefUnhideWhenUsed="true" DefSemiHidden="true" DefQFormat="false" DefPriority="99" LatentStyleCount="267"> <w:LsdException Locked="false" Priority="0" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Normal"/> <w:LsdException Locked="false" Priority="9" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="heading 1"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 2"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 3"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 4"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 5"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 6"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 7"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 8"/> <w:LsdException Locked="false" Priority="9" QFormat="true" Name="heading 9"/> <w:LsdException Locked="false" Priority="39" Name="toc 1"/> <w:LsdException Locked="false" Priority="39" Name="toc 2"/> <w:LsdException Locked="false" Priority="39" Name="toc 3"/> <w:LsdException Locked="false" Priority="39" Name="toc 4"/> <w:LsdException Locked="false" Priority="39" Name="toc 5"/> <w:LsdException Locked="false" Priority="39" Name="toc 6"/> <w:LsdException Locked="false" Priority="39" Name="toc 7"/> <w:LsdException Locked="false" Priority="39" Name="toc 8"/> <w:LsdException Locked="false" Priority="39" Name="toc 9"/> <w:LsdException Locked="false" Priority="35" QFormat="true" Name="caption"/> <w:LsdException Locked="false" Priority="10" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Title"/> <w:LsdException Locked="false" Priority="1" Name="Default Paragraph Font"/> <w:LsdException Locked="false" Priority="11" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Subtitle"/> <w:LsdException Locked="false" Priority="22" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Strong"/> <w:LsdException Locked="false" Priority="20" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Emphasis"/> <w:LsdException Locked="false" Priority="59" SemiHidden="false" UnhideWhenUsed="false" Name="Table Grid"/> <w:LsdException Locked="false" UnhideWhenUsed="false" Name="Placeholder Text"/> <w:LsdException Locked="false" Priority="1" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="No Spacing"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 1"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 1"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 1"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 1"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 1"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 1"/> <w:LsdException Locked="false" UnhideWhenUsed="false" Name="Revision"/> <w:LsdException Locked="false" Priority="34" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="List Paragraph"/> <w:LsdException Locked="false" Priority="29" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Quote"/> <w:LsdException Locked="false" Priority="30" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Intense Quote"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 1"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 1"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 1"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 1"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 1"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 1"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 1"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 1"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 2"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 2"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 2"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 2"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 2"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 2"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 2"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 2"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 2"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 2"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 2"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 2"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 2"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 2"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 3"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 3"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 3"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 3"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 3"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 3"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 3"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 3"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 3"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 3"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 3"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 3"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 3"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 3"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 4"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 4"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 4"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 4"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 4"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 4"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 4"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 4"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 4"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 4"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 4"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 4"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 4"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 4"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 5"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 5"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 5"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 5"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 5"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 5"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 5"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 5"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 5"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 5"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 5"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 5"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 5"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 5"/> <w:LsdException Locked="false" Priority="60" SemiHidden="false" UnhideWhenUsed="false" Name="Light Shading Accent 6"/> <w:LsdException Locked="false" Priority="61" SemiHidden="false" UnhideWhenUsed="false" Name="Light List Accent 6"/> <w:LsdException Locked="false" Priority="62" SemiHidden="false" UnhideWhenUsed="false" Name="Light Grid Accent 6"/> <w:LsdException Locked="false" Priority="63" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 1 Accent 6"/> <w:LsdException Locked="false" Priority="64" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Shading 2 Accent 6"/> <w:LsdException Locked="false" Priority="65" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 1 Accent 6"/> <w:LsdException Locked="false" Priority="66" SemiHidden="false" UnhideWhenUsed="false" Name="Medium List 2 Accent 6"/> <w:LsdException Locked="false" Priority="67" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 1 Accent 6"/> <w:LsdException Locked="false" Priority="68" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 2 Accent 6"/> <w:LsdException Locked="false" Priority="69" SemiHidden="false" UnhideWhenUsed="false" Name="Medium Grid 3 Accent 6"/> <w:LsdException Locked="false" Priority="70" SemiHidden="false" UnhideWhenUsed="false" Name="Dark List Accent 6"/> <w:LsdException Locked="false" Priority="71" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Shading Accent 6"/> <w:LsdException Locked="false" Priority="72" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful List Accent 6"/> <w:LsdException Locked="false" Priority="73" SemiHidden="false" UnhideWhenUsed="false" Name="Colorful Grid Accent 6"/> <w:LsdException Locked="false" Priority="19" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Subtle Emphasis"/> <w:LsdException Locked="false" Priority="21" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Intense Emphasis"/> <w:LsdException Locked="false" Priority="31" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Subtle Reference"/> <w:LsdException Locked="false" Priority="32" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Intense Reference"/> <w:LsdException Locked="false" Priority="33" SemiHidden="false" UnhideWhenUsed="false" QFormat="true" Name="Book Title"/> <w:LsdException Locked="false" Priority="37" Name="Bibliography"/> <w:LsdException Locked="false" Priority="39" QFormat="true" Name="TOC Heading"/> </w:LatentStyles></xml><![endif]--><!--[if gte mso 10]><style> /* Style Definitions */ table.MsoNormalTable{mso-style-name:"Table Normal";mso-tstyle-rowband-size:0;mso-tstyle-colband-size:0;mso-style-noshow:yes;mso-style-priority:99;mso-style-qformat:yes;mso-style-parent:"";mso-padding-alt:0in 5.4pt 0in 5.4pt;mso-para-margin-top:0in;mso-para-margin-right:0in;mso-para-margin-bottom:10.0pt;mso-para-margin-left:0in;line-height:115%;mso-pagination:widow-orphan;font-size:11.0pt;font-family:"Calibri","sans-serif";mso-ascii-font-family:Calibri;mso-ascii-theme-font:minor-latin;mso-fareast-font-family:"Times New Roman";mso-fareast-theme-font:minor-fareast;mso-hansi-font-family:Calibri;mso-hansi-theme-font:minor-latin;}</style><![endif]--></p><p class="MsoNormal" style="text-align:justify">Uvod: Aristolohična kiselina I je nefrotoksična i kancerogena supstanca koja je odgovorna za nefropatiju koja nastaje usled korišćenja herbalnih preparata i čajeva za mršavljenje. S obzirom da se ova supstanca može naći u korovskim biljkama, smatra se jednim od glavnih ekotoksikoloških uzroka za nastanak balkanske endemske nefropatije čiji definitivan uzrok još uvek nije otkriven. Toksičnost ove supstance je dokazana na brojnim animalnim modelima, međutim mehanizmi koji dovode do oštećenja bubrežnog parenhima još u potpunosti nisu razjašnjeni.<span style="mso-spacerun:yes"> </span>Cilj: Doktorska disertacija je koncipirana sa ciljem da se utvrdi uticaj toksičnog jedinjenja aristolohične kiseline I na histopatološke i imunohistohemijske karakteristike tubulointersticijuma i glomerula bubrega kod miševa, kao i na biohemijske parametre krvi i urina koji ukazuju na oštećenje bubrega. Materijal i metode: U ekperimentu je korišćeno 64 miša soja NMRI koji su podeljeni u tri grupe: eksperimentalna grupa (n=32) koja je dobijala aristolohičnu kiselinu I rastvorenu u polietilen glikolu (2,5% PEG 400) u dozi od 10 mg/kg telesne mase, negativna kontrolna grupa koja je dobijala 2,5% PEG 400 (n=16) i kontrolna grupa koja je dobijala fiziološki rastovor (n=16). Sve životinje su tretirane intraperitonealno svakodnevno tokom sedam dana. Tokom eksperimenta 8., 17., 29. i 59. dana sakupljan je dvadesetčetvoročasovni urin 8 životinja iz eksperimentalne grupe, 4 životinje iz negativne kontrolne i 4 životinje iz kontrolne grupe. Životinje su žrtvovane 9., 18., 30. i 60. dana, uzeta im je krv, dok su bubrezi posebno odvojeni radi histopatološke analize. Na bubrežnom tkivu sprovedene su histohemijske, imunohistohemijske i morfometrijske analize, dok su na uzorcima seruma i urina sprovedene biohemijske analize. Dobijeni rezultati su testirani adekvatnim statističkim metodama i prikazani su tabelarno i grafički. Rezultati: Nefrotoksin aristolohična kiselina I nakon 7 dana aplikacije izaziva značajno oštećenje bubrežnog parenhima. Pri aplikaciji 2,5% PEG 400 i fiziološkog rastvora ne dolazi do vidljivog oštećenja bubrežnog parenhima. Histopatološku sliku u ranoj fazi eksperimenta (9. i 18. dan) karakteriše akutna tubulska nekroza proksimalnih tubula. U kasnijoj fazi (30. i 60. dana) uočava se histopatološka slika hroničnog intersticijalnog nefritisa sa obilnim mononuklearnim ćelijskim infiltratima limfocitnog porekla kao i postojanje blage intersticijalne fibroze. Kod eksperimentalnih životinja je morfometrijskim metodama utvrđen veći stepen bubrežnog oštećenja tubulointersticijuma i smanjen broj podocita u glomerulu u odnosu na kontrolne grupe. Biohemijske analize kod većine eksperimentalnih životinja su pokazale veće koncentracije serumske uree nego kod kontrolnih grupa. Takođe je dokazana albuminurija u kasnijoj fazi eksperimenta koja je veća kod životinja izloženih aristolohičnoj kiselini I nego kod životinja iz kontrolnih grupa. Zaključak: Korišćenjem morfometrijskih metoda u okviru histopatoloških i imunohistohemijskih ispitivanja, uz adekvatne biohemijske analize, može se zaključiti da je aristolohična kiselina I izuzetno nefrotoksično jedinjenje koje izaziva izrazite<span style="mso-spacerun:yes"> </span>promene tubulointersticijuma i glomerula. Podaci ovog istraživanja predstavljaju polaznu osnovu za dalja istraživanja dijagnostike u ranoj fazi nefropatija izazvanih aristolohičnim kiselinama.<span style="mso-spacerun:yes"> </span></p> / <p>Introduction: Aristolochic acid I is a nephrotoxic and carcinogenic substance responsible for nephropathy caused by the use of herbal preparations and teas for slimminng regimen. Since this substance can be found in plants, it is considered one of the major ecotoxicological causes for the emergence of balkan endemic nephropathy whose definitive cause has not yet been revealed. The toxicity of this substance has been proven on numerous animal models, but pathophysiological mechanisms of kidney injury still remain unclear. Aim: The doctoral dissertation was designed to determine the influence of aristolochic acid on the histopathological and immunohistochemical characteristics of tubulointerstitium and glomerulus in mice, as well as the biochemical parameters of blood and urine that indicate kidney injury. Material and methods: For this study, 64 mouse of NMRI strain is used. They are divided into three groups: an experimental group (n=32) that received aristolochic acid I dissolved in polyethylene glycol (2.5% PEG 400) at a dose of 10 mg/kg of body weight, a negative control group that received 2.5% PEG 400 (n=16) and a control group that received only saline (n=16). All animals were treated intraperitoneally daily for seven days. During the experiment on the 8th, 17th, 29th and 59th day, twenty-four-hour urine was collected from 8 animals from the experimental group, 4 animals from the negative control and 4 animals from the control group. Animals were sacrificed on the 9th, 18th, 30th and 60th days, their blood was taken, while the kidneys were taken for histopathological analysis. Histochemical, immunohistochemical and morphometric analyzes were performed on renal tissue, while biochemical analyzes were performed on serum and urine samples. Obtained results were tested with adequate statistical methods and presented in a tables and graphs. Results: After 7 days of application nefrotoxin aristolochic acid I causes significant kidney injury. After application of 2.5% PEG 400 and saline, there was no visible damage to kidney parenchyma. Histopathological changes at the early stage of the experiment (9th and 18th day) were characterized by acute tubular necrosis of proximal tubules. At a later stage (30th and 60th day), chronic interstitial nephritis was observed in kidneys, with abundant mononuclear cell infiltrates in interstitium and presence of mild interstitial fibrosis. In experimental animals, a higher tubulointerstitial score of kidney injury and a decrease in the number of the podocytes in glomerulus were determined by morphometric methods, compared to the control groups. Biochemical analyzes in most experimental animals showed higher blood urea nitrogen concentrations than in control groups. High concentration of albumin in urine can be found in later stages of the experiment, and those concentrations were higher in animals exposed to aristolochic acid I than in animals from control groups. Conclusion: Using morphometric, histopathological and immunohistochemical methods, with adequate biochemical analysis, aristolochic acid I is proven to be an extremely nephrotoxic compound that causes drastic changes in tubulointerstitium and glomeruli of kidney parenhyma. Data from this study can be used for further research into early diagnosis of aristolochic acid nephropathy.</p>
|
| 5 |
Razvoj animalnog modela nefrotoksične tubulointersticijalne lezije / The development of animal model of nephrotoxic tubulointerstitial lesionŽivojinov Srđan 08 April 2016 (has links)
<p>U eksperimantalnom postupku disertacije miševi NMRI soja su tretirani infuzom biljke Aristolochia clematitis. Sasušeni listovi, grane i plodovi biljke potopljeni su u ključalu vodu i ostavljeni 3-5 sati da stoje, a potom su profiltrirani kroz filter papir. Pravljen je rastvor biljke/vode od 10g/ 1000ml (1%), 20g/ 1000ml (2%) i 40g/ 1000ml (4%). Različite koncentracije infuza su date miševima da piju u neograničenoj količini u periodu od 7 nedelja. Tako su formirane tri ispitne grupe, prva koja je primala 1% infuz, druga 2% infuz i treća 4% infuz i kontrolna grupa koja je dobijala samo vodu da pije. U svakoj grupi je bilo 20 životinja. Tako je razvijen animalni model hronične toksičnosti. Na kraju eksperimenta je urađena patohistološka analiza bubrega, makroskopski pregled organa i merenje diureze tokom trajanja eksperimenta. Urađena je kompletna analiza urina koja podrazumeva utvrđivanje: boje, izgleda, pH, specifične težine, proteina i sedimenta urina. Analize urina ponavljane su na svakih 7 dana u toku 7 nedelja istraživanja. Na kraju eksperimenta urađena je analiza biohemijskih parametara (glukoza, urea, kreatinin, mokraćna kiselina, ukupni bilirubin, direktni bilirubin, ukupni tj. totalni proteini, natrijum i kalijum) i analiza kompletne krvne slike. Utvrđeno je da je Aristolochia clematitis izrazito nefrotoksična biljka. Utvrđene su patohistološke promene tubula i intersitcijuma NMRI miša, koje su bile najveće u ispitnoj grupi koja je primala najaču dozu. Ustanovljene patohistološke promene su slične opisanim patohistološkim promenama tubulointersticijuma bolesnika obolelih od Balkanske endemske nefropatije. Nije ustanovljeno postojanja karcinoma gornjeg urotrakta. Makroskopskim pregledom prilikom obdukcije eksperimentalnih životinja nisu ustanovljene značajnije promene bubrega. Došlo je prvo do izrazitog porasta diureze u prvoj, odnosno drugoj nedelji praćenja, kod druge i treće eksperimentalne grupe, da bi nakon 7 nedelja istaživanja diureza u svim ispitnim grupama bila manja od kontrolne grupe. Postoji porast ureje na kraju istraživanja, koji je dvostruko veći u trećoj eksperimentalnoj grupi u odnosu na kontrolnu. Postoji izrazit pad mokraćne kiseline na kraju istraživanja kod eksperimentalne grupe 3. Postoji izrazit pad granulocita u leukocitarnoj formuli u svim ispitnim grupama, a najveći je u trećoj ispitnoj grupi. Kako je došlo do pada relativnih vrednosti granulocita, tako je došlo do porasta relativnih vrednosti limfocita u prvoj i drugoj ispitnoj grupi. U trećoj ispitnoj grupi je pad granulocita praćen izrazito velikim povećanjem relativnog broja bazofilnih granulocita. Postoji značajan pad specifične težine urina na kraju istraživanja u drugoj i trećoj eksperimentalnoj grupi. Proteinurija je bila čest nalaz svim eksperimentalnim grupama, dok je bila odsutna ili samo u tragu u kontrolnoj grupi. Na kraju eksperimenta je utvrđen znatni porast broja kristala fosfata u eksperimentalnim grupama. Cilindri su se pojavljivali samo u nalazu urina u trećoj ispitnoj grupi. Najveći broj promena urina je utvrđen u trećoj eksperimentlanoj grupi.</p> / <p>In the experimental procedure of dissertation, NMRI strain mice were treated with infusion of plants Aristolochia clematitis. Dried leaves, branches and fruit plants are submerged in boiling water and left to stand for 3-5 hours, and then filtered through filter paper. It was made a solution of the plant / water of 10g / 1000ml (1%), 20g / 1000ml (2%) and 40g / 1000ml (4%). Different concentrations of infusions were given to mice to drink an unlimited amount for a period of 7 weeks. So we formed the three test groups, the first who received 1% infusion, the second received 2% infusion and third received 4% infusion and a control group that received only water to drink. In each group there were 20 animals. Thus, developed an animal model of chronic toxicity. At the end of the experiment was performed histopathological analysis of kidneys, macroscopic examination of organs and measuring urine output during the experiment. We performed a complete analysis of urine, which is the determination of: color, appearance, pH, specific gravity, protein and urine sediment. Urinalysis were repeated every 7 days during the 7 weeks of the study. At the end of the experiment were analyzed for biochemical parameters (glucose, urea, creatinine, uric acid, total bilirubin, direct bilirubin, total proteins, sodium and potassium) and analysis of the complete blood count. It has been found that Aristolochia clematitis is extremely nephrotoxic plant. Identified histopathological changes of tubules and interstitium of NMRI mouse, which were the biggest in the test group receiving biggest dose. Established histopathological changes are similar to those described by pathological changes of tubulointerstitial injury of patients with Balkan endemic nephropathy. Not established the existence of cancer of the upper urinary tract. Macroscopic examination at autopsy of experimental animals, did not determine significant changes in the kidneys. There is first an enormous increase in diuresis in the first and second week of follow-up, in the second and third experimental groups retrospectively, that after 7 weeks of research, diuresis in all test groups was lower than the control group. There is an increase of urea at the end of the research, which is twice higher in the third experimental group compared to the control. There is a marked decrease in uric acid at the end of the research in the experimental group 3. There is a marked decrease in granulocytes in the leukocyte formula in all test groups, and the highest in the third test group. As the decline in the relative values of granulocytes, so there has been a rise in the relative values of lymphocite in the first and second test group. In the third test group, granulocyte drop was accompanied by a extremely large increase in the relative number of basophils. There is a significant drop in specific gravity of urine at the end of the research in the second and third experimental group. Proteinuria is a common finding to all experimental groups, while it was absent or only in traces in the control group. At the end of the experiment was determined to increase significantly the number of phosphate crystals in the experimental groups. The cylinders have appeared only in the urine in the third test group. The greatest number of changes in the urine is determined in the third experimental group.</p>
|
| 6 |
Efekat akutnog izlaganja peroralno unetog akrilamida na histološke strukture želuca pacova soja Wistar / The effect of acute exposure to orally ingested acrylamide on histological structure of stomach in Wistar ratsIlić Sabo Jelena 04 July 2016 (has links)
<p>Akrilamid je toksična hemijska supstanca koja ima vrlo široku primenu u hemijskoj industriji, a 2002. godine otkriveno je njegovo prisustvo u namirnicima bogatim skrobom koje se pripremaju na visokim temperaturama. U poslednjh desetak godina primećen je veliki porast gastrointestinalnih tegoba u ljudskoj populaciji. Cilj istraživanja bio je ispitati patohistološke promene u tkivu želuca pacova soja Wistar izazvanih peroralnim aplikovanjem akrilamida i na taj način povući paralelu sa mogućim gastrointestinalnim tegobama nastalim kao posledica konzumiranja hrane bogate akrilamidom. U istraživanju je ispitivano 6 grupa od po 5 eksperimentalnih životinja (pacovi soja Wistar). Dve kontrolne grupe kojima je peroralno aplikovana destilovana voda i koje su žrtvovane posle 24h i 72h; dve eksperimentalne kojima je peroralno aplikovan akrilamid u dnevnoj dozi od 25 mg/kg i koje su žrtvovane posle 24h i 72h; dve eksperimentalne grupe kojima je peroralno aplikovan akrilamid u dnevnoj dozi od 50 mg/kg i koje su žrtvovane posle 24h i 72h. Na histološkom materijalu tkiva želuca primenjena je kvalitativna histološka analiza pod svetlosnim mikroskopom, semikvantitativna procena tipa mucina u epitelnim ćelijama sluznice želuca, prisustvo limfocita i granulocita u sluznici želuca, stereološka merenja pojedinih kompartmana zida želuca, linearna merenja broja i veličine ganglijskih ćelija u Maissner-ovom i Auerbach-ovom nervnom pleksusu, kao i broj mastocita u lamini propriji sluznice i podsluznici želuca. Dobijene vrednosti merenih parametara su potom statistički obrađene. Nastale promene na tkivu želuca pacova soja Wistar se ogledaju u vidu blagog direktnog oštećenja površnog epitela sa propratnom blagom inflamatornom reakcijom i blagom degranulacijom mastocita. U Maissner-ovom i Auerbach-ovom nervnom pleksusu su smanjene volumenske gustine nervnih vlakana i ganglijskih ćelija, kao i broj i veličina ganglijskih ćelija. Direktno toksično delovanje na epitel dovodi do posledične obnove epitela, te je potvrđeno prisustvo nezrelijih oblika mukoproduktivnih ćelija koje sadrže kisele, AB pozitivne mucine. Ispitani inflamatorni i degenerativni parametri pokazuju pozitivnu korelaciju u odnosu na dozu i/ili dužinu ekspozicije akrilamidu. Primena akrilamida peroralno pokazala je da postoje patohistološke promene na tkivu želuca u vidu direktnog toksičnog oštećenja epitela, inflamatorne reakcije i oštećenja nervnih pleksusa. Poznavanjem mehanizma delovanja ove toksične materije moguće je primeniti adekvatnu prevenciju u ishrani i izvršiti odgovarajući izbor terapijskih metoda.</p> / <p>Acrylamide is a toxic chemical substance with wide implementation in chemical industry. In 2002 it was discovered the presence of acrylamide in foods rich in starch which are prepared at high temperatures. In the last ten years there is a large increase in gastrointestinal illnesses in human population. The aim of this study was to investigate the histopathological changes in the gastric tissue in Wistar rats induced with injection of oral acrylamide and thus draw a parallel with possible gastrointestinal problems arising as a result of the consumption of foods rich in acrylamide. The research was carried out 6 groups of 5 experimental animals (Wistar rats). Two control groups that are orally concomitant application of distilled water and which were sacrificed after 24h and 72h; two experimental groups which are orally administrated acrylamide in a daily dose of 25 mg / kg and that were sacrificed after 24h and 72h; two experimental groups which were orally administrated acrylamide in a daily dose of 50 mg / kg and that were sacrificed after 24h and 72h. On histological gastric tissue material is applied qualitative histological analysis by light microscopy, semi-quantitative assessment of the type of mucin in epithelial cells of the stomach lining, the presence of lymphocytes and granulocytes in gastric mucosa, stereological measurements of individual compartments of the stomach wall, linear measuring the number and size of ganglion cells in the Maissner and Auerbach's nerve plexus, and the number of mast cells in the lamina propria of the mucosa and in the submucosis of the stomach. Obtained values of measured parameters were statistically processed. Histological changes in the stomach tissue of Wistar rats are seen as a direct slight damage of the surface epithelium, with accompanynig mild inflammatory reaction and the degranulation of mast cells. The Meissner's and Auerbach's nerve plexus decreased volume density of nerve fibers and ganglion cells, as well as the number and size of the ganglion cells. Directly toxic effect on epithelium leads to the result of the reconstruction of the epithelium, which is confirmed by the presence of immature form of mucoproductive cells which contain acid, AB positive mucins. Examined inflammatory and degenerative parameters show a positive correlation with respect to dose and / or a time of exposition to acrylamide. Acrylamide oral application revealed that there are histologic changes in the stomach tissue in the form of a direct toxic damage to the epithelium, inflammatory reaction and damage to the nerve plexus. Knowing the mechanism of action of these toxic substances allows to apply adequate prevention in nutrition and make an appropriate choice of therapeutic methods.</p>
|
| 7 |
Fotolitička i fotokatalitička razgradnja odabranih psihoaktivnih komponenata lekova u vodenoj sredini / Photolytic and photocatalytic degradation of selected psychoactive drugs in aquatic environmentFinčur Nina 06 July 2018 (has links)
<p>Ispitana je direktna i indirektna fotoliza alprazolama (ALP) i amitriptilina (AMI)<br />primenom UV, vidljivog i simuliranog sunčevog zračenja (SSZ). Takođe, praćena je stabilnost vodenih rastvora ALP i AMI u mraku. U okviru ispitivanja fotokatalitičke razgradnje ALP,ispitana je efikasnost ZnO i TiO<sub>2 </sub>Degussa P25 primenom UV i SSZ. Takođe, proučavan je utica jmasene koncentracije fotokatalizatora, pH, kao i<br />uticaj hvatača radikala/šupljina i elektron-akceptora. Praćen je stepen mineralizacije<br />merenjem ukupnog organskog ugljenika i primenom jonske hromatografije. Takođe,<br />detaljno su ispitani reakcioni intermedijeri. Dalje,ispitano je ponovno korišćenje ZnO u tri uzastopna procesa razgradnje ALP. U cilju praćenja citotoksičnosti ALP, ispitan je in vitro rast dve ćelijske linije: Neuro-2a i MRC-5. Zatim,proučavana je efikasnost sintetisanih ZnO (ZnO modifikovani mlevenjem i kalcinacijom, ZnO dopirani jonima Mg(II), ternarni i mešani cink-kalaj-oksidi) i TiO<sub>2</sub> (anatas TiO<sub>2</sub> nedopirani i dopirani La(III)-jonima, brukitni TiO2) nanoprahova u razgradnji ALP primenom UV i SSZ. U okviru fotokatalitičke razgradnje AMI, ispitana je efikasnost razgradnje pri različitim eksperimentalnim uslovima (uticaj vrste fotokatalizatora i zračenja, masene koncentracije fotokatalizatora, početne koncentracije supstrata, uticaj prisustva kako hvatača radikala i šupljina, tako i elektron-akceptora). Praćen je stepen mineralizacije merenjem ukupnog organskog ugljenika i primenom jonske hromatografije. U cilju praćenja citotoksičnosti AMI, ispitan je in vitro rast četiri ćelijske linije: Neuro-2a, MRC-5, H-4-II-E i HT-29. Zatim, proučavana je efikasnost sintetisanih TiO<sub>2</sub>/polianilin nanokompozitnih prahova, kao i prevlaka čistog TiO<sub>2 </sub>i WO<sub>3</sub>/TiO<sub>2</sub> u razgradnji AMI primenom UV i SSZ. Takođe, ispitan je uticaj strukture supstrata na efikasnost fotokatalitičke razgradnje kroz ispitivanje efikasnosti sintetisanih TiO<sub>2</sub> nanoprahova dopiranih jonima W(VI), zatim mešanih cink-kalaj-oksid nanoprahova, kao i indijum-cink-oksid nanoprahova primenom UV i SSZ.</p> / <p>Direct and indirect photolysis of alprazolam (ALP) and amitriptyline (AMI) were studied using UV, visible, and simulated solar irradiation (SSI). Also, the stability of the ALP and AMI aqueous solutions in the dark were monitored. Photocatalytic degradation of ALP was studied in the presence of ZnO and TiO<sub>2</sub> Degussa P25 using UV and SSI. Also, the influence of the photocatalyst loading, pH, as well as the influence of the radical and holes scavengers and electron acceptors were studied. The degree of mineralization was monitored by measuring of total organic carbon and using ion chromatography. Also, reaction intermediates were examined in detail. Further, reusabillity of ZnO was investigated in three consecutive degradation processes of ALP. In order to get insight into the cytotoxicity of the ALP and intermediates formed during photocatalytic degradation, their influence on the growth of two cell lines: Neuro-2a and MRC-5 were investigated. Then, the efficacy of synthesized ZnO (ZnO modified with milling and calcination, ZnO doped with Mg(II) ions, ternary and coupled binary tin-zinc-oxide) and TiO<sub>2</sub> (anatase TiO<sub>2</sub> undoped and doped with La(III) ions and brookite TiO<sub>2</sub>) nanopowders in ALPdegradation using UV and SSI were investigated. Within the photocatalytic degradation of AMI, the degradation efficiency under different experimental conditions was studies (influence of the photocatalyst and irradiation type, photocatalyst loading, initial substrate concentration, the effect of the presence of radical and holes scavengers, and electron acceptors). The degree of mineralization was monitored by measuring of total organiccarbon and using ion chromatography. In order to study the cytotoxicity of AMI and degradation intermediates, their influence on the growth of four cell lines: Neuro-2a, MRC-5, H-4-II-E, and HT-29 were investigated. Then, the efficacy of synthesized TiO2/polyaniline nanocomposite powders, as well as photocatalysts of pure TiO<sub>2</sub> and WO<sub>3</sub>/TiO<sub>2</sub> in the form of films in AMI degradation using UV and SSI were studied. In addition, the effect of the substrate structure on the efficiency of photocatalytic degradation was studied by testing the activity of synthesized TiO<sub>2 </sub> nanopowders doped with W(VI) ions, then coupled binary tin-zinc- oxide nanopowders, as well as coupled binary indium-zinc- oxide nanopowders using UV and SSI.</p>
|
| 8 |
Fotokatalitička stabilnost odabranih aktivnih komponenata kardiovaskularnih lekova: kinetika, mehanizam i toksičnost intermedijera / Photocatalytic stability of selected active components of cardiovascular drugs: kinetics, mechanism and toxicity of the intermediatesArmaković Sanja 01 July 2016 (has links)
<p>Ispitana je direktna i indirektna razgradnja odabranih β-blokatora (metoprolol- tartarata, MET i propranolol-hidrohlorida, PRO) kao i diuretika (hidrohlortiazida, HCTZ) i njegovog stabilnog intermedijera hidrolize 4-amino-6-hlor-1,3-benzendisulfonamida (ABSA). Praćena je i kinetika razgradnje direktnom i indirektnom fotolizom uz primenu UVA, UVC, sunčevog i simuliranog sunčevog zračenja (SSZ). Najpre je ispitana stabilnost MET pod dejstvom SSZ, UVA, UVC, UVA/H<sub>2</sub>O<sub>2 ,</sub> i UVA/ BrO<sub>3</sub><sup>-</sup>. Dalje je ispitana efikasnost razgradnje MET pod dejstvom O<sub>3</sub>i UVC/O<sub>3.</sub> Identifikovano je deset intermedijera tokom UVC, O<sub>3 </sub>i UVC/O<sub>3</sub> razgradnje, pri čemu samo jedan ima značajno višu toksičnost prema algama i bakterijama u odnosu na ostale. Efikasnost fotokatalitičke razgradnje MET je ispitana u TiO<sub>2</sub> suspenzijama sa komercijalnim katalizatorima (Wackherr i Degussa P25). Mehanizam fotokatalitičke razgradnje je detaljno ispitan, pri čemu je identifikovano četrnaest intermedijera. EC<sub>50</sub> vrednost MET i njegovih smeša nastalih pri fotokatalitičkoj razgradnji su određene na tri ćelijske linije sisara (H-4-II-E, HT-29 i MRC-5). Kako bi se povećala efikasnost rocesa fotokatalitičke razgradnje primenom komercijalnih katalizatora, ispitan je uticaj prisustva elektron-akceptora u suspenziji, pri čemu je upoređen uticaj O<sub>2</sub>/H<sub>2</sub>O<sub>2</sub>, i O<sub>2</sub>/ BrO<sub>3</sub><sup>-</sup> na mehanizam razgradnje. Na osnovu teorije funkcionala gustine stekao se uvid u promene unutar molekula MET u prisustvu reaktivnih radikala. Takođe, ispitana je efikasnost nedopiranih TiO<sub>2</sub> , kao i dopiranih La(III) nanoprahova sintetisanih sol−gel postupkom, u razgradnji MET. Uticaj temperature kalcinacije na fotokatalitičku efikasnost TiO 2 nanoprahova dopiranih pomoću La(III) ispitana je na supstratima MET i PRO, pri čemu je analiziran i uticaj strukture polaznog jedinjenja na informacija efikasnost fotokatalitičke razgradnje. Rezultati su upoređeni sa nedopiranim TiO<sub>2 </sub>nanoprahom i TiO<sub>2 </sub>Degussa P25 (pri pH-vrednosti 9). Pored toga, ispitana je kinetika i toksičnost PRO i njegovih intermedijera nastalih tokom razgradnje sa TiO<sub>2 </sub>Degussa P25. Ispitan je i uticaj strukture polaznog jedinjenja (MET, HCTZ i ABSA) na fotorazgradnju pod dejstvom UVA, sunčevog i simuliranog sunčevog zračenja, u odsustvu/prisustvu TiO<sub>2</sub> Degussa P25. Takođe, ispitan je i sinergistički efekat MET i ABSA na proces hidrolize, direktne fotolize i fotokatalize sa SSZ/TiO<sub>2 </sub>Degussa P25. Kako bi se stekao uvid u toksičnost proučavanih sistema, ispitan je njihov uticaj na rast odabranih ćelijskih linija sisara.</p> / <p>Direct and indirect degradation of selected β-blockers (metoprolol tartrate, MET and propranolol hydrochloride, PRO) and also diuretic (hydrochlorothiazide, HCTZ) in addition to its stable hydrolysis intermediate 4-amino-6-chloro- 1,3-benzenedisulfonamide (ABSA) were investigated. The kinetics of their degradation obtained by direct and indirect photolysis under UVA, UVC, sunlight and simulated sunlight irradiation (SSI) have been followed. Firstly, the stability of MET under influence of SSI, UVA, UVC, UVA/H<sub>2</sub>O<sub>2</sub> , and UVA/ BrO<sub>3</sub><sup>-</sup> has been investigated. Further, the efficiency of MET degradation under influence of O<sub>3</sub>, and UVC/O<sub>3</sub> has been explored. Ten intermediates have been identified during the UVC, O<sub>3</sub>, and UVC/O<sub>3</sub> treatments, while only one intermediate had significantly higher toxicity towards the algae and bacteria in respect to the others. Efficiency of photocatalytic degradation of MET was investigated in TiO<sub>2</sub> suspensions with commercial catalysts (Wackherr and Degussa P25). Mechanism of photocatalytic degradation was investigated in detail according to which fourteen intermediates were identified. EC 50 value of MET and its mixtures formed during the photocatalytic degradation has been determined at three mammalian cell lines (H-4-II-E, HT-29, and MRC-5). In order to improve the efficiency of photocatalytic degradation process applying commercial catalysts, the influence of presence of electron acceptors in suspension has been investigated and the influence of O<sub>2</sub>/H<sub>2</sub>O<sub>2 </sub>and O<sub>2</sub>/BrO<sub>3</sub><sup>-</sup> to the mechanism of degradation has been compared. Based on the density functional theory an insight to the changes within MET molecule in the presence of reactive radicals has been made. Also, the efficiency of bare TiO<sub>2</sub>, as well as doped La(III) nanopowders synthesized by sol-gel procedure, in the degradation of MET has been investigated. The influence of calcination temperature on hotocatalytic efficiency of TiO<sub>2 </sub>nanopowders doped with La(III) has been studied on the MET and PRO substrates, and the influence of structure of the starting compound on the efficiency of photocatalytic degradation had been analyzed. Results have been compared with bare TiO<sub>2 </sub>nanopowder and TiO<sub>2</sub> Degussa P25 (at pH value of 9). Besides, kinetics and toxicity of PRO and its intermediates formed during the degradation with TiO<sub>2</sub> Degussa P25 have been investigated. The influences of starting compound’s structure (MET, HCTZ, and ABSA) to photodegradation under UVA, sunlight and SSI, in the absence/presence of TiO<sub>2</sub> Degussa P25, have been investigated. Also, the synergistic effects of MET and ABSA to the process of hydrolysis, direct photolysis, and photocatalysis with SSI/TiO<sub>2</sub> Degussa P25 have been investigated. In order to get an insight into the toxicity of the studied systems, their influence on the growth of selected mammalian cell lines has been investigated as well.</p>
|
| 9 |
Fotolitička i fotokatalitička razgradnja odabranih herbicida u vodenoj sredini / Photolytic and photocatalytic degradation of selected herbicides in aqueous mediaDespotović Vesna 10 July 2014 (has links)
<p>Ispitana je kinetika i mehanizam fotokatalitičke razgradnje herbicida kvinmeraka i klomazona u prisustvu UV/TiO<sub>2</sub> Degussa P25, odnosno piklorama i klopiralida <br />primenom UV/TiO<sub>2</sub> Wackherr pri različitim eksperimentalnim uslovima. Praćena je i kinetika razgradnje odabranih herbicida direktnom fotolizom uz primenu sunčevog, UV i vidljivog zračenja, kao i u odsustvu svetlosti. Pored toga, upoređena je efikasnost <br />UV/TiO<sub>2</sub> Degussa P25, odnosno UV/TiO<sub>2</sub> Wackherr sa vidljivim zračenjem, kao i direktnom fotolizom u prisustvu pomenutih izvora svetlosti. U cilju procene <br />citotoksičnosti klomazona i klopiralida, kao i smeše klomazona i klopiralida i njihovih intermedijera nastalih tokom fotokatalitičke razgradnje ispitan je in vitro rast <br />ćelijskih linija MRC-5 i H-4-II-E. Nakon ispitivanja fotokatalitičke razgradnje odabranih herbicida u dvaput destilovanoj vodi, praćena je njihova razgradnja i u prirodnim vodama. Takođe, ispitan je uticaj dodatka hidrogenkarbonata i huminske kiseline na efikasnost razgradnje odabranih herbicida. Fotokatalitička razgradnja klomazona, piklorama i mekopropa je ispitivana i u prisustvu UV/TiO<sub>2</sub> nanocevi. Aktivnost katalizatora TiO<sub>2 </sub>Wackherr i TiO<sub>2</sub> nanocevi je upoređena sa TiO<sub>2</sub> Degussa P25.</p> / <p>The kinetics and mechanism of photocatalytic degradation of the herbicides quinmerac and clomazone in the presence of UV/TiO<sub>2</sub> Degussa P25, and of picloram and clopyralid using UV/TiO<sub>2</sub> Wackherr under different experimental conditions were studied. The kinetics of degradation of selected herbicides by direct photolysis using sunlight, UV and visible radiation, and in the absence of light were followed. In addition, the efficiencies of UV/TiO<sub>2</sub> Degussa P25 and UV/TiO<sub>2 </sub>Wackherr were compared with visible radiation and direct photolysis in the presence of the above mentioned light sources. In order to evaluate the cytotoxicity of clomazone <br />and clopyralid alone and in their mixture with intermediates formed during the photocatalytic degradation, in vitro growth of cell lines, MRC-5 and H-4-II-E was followed. After examining the photocatalytic degradation of selected herbicides in double distilled water, their decomposition in natural waters was also followed. Also, the influence of hydrogencarbonate and humic acid addition on the efficiency of degradation of selected herbicides was studied. Photocatalytic degradations of clomazone, picloram and mecoprop were investigated in the presence of UV/TiO<sub>2 </sub>nanotubes. Activities of the catalysts TiO<sub>2</sub> Wackherr and TiO<sub>2 </sub>nanotubes were compared to TiO<sub>2</sub> Degussa P25.</p>
|
Page generated in 0.0603 seconds