Biohemijska i hemijska karakterizacija ekstrakata bosiljka i uticaj farmaceutsko-tehnološke formulacije na glikemijski, lipidni i oksido-redukcioni status kod oglednih životinja / Biochemical and chemical characterization of basil extracts and influence of pharmaceutical technological formulations on the glycemic, lipid and oxidative status in experimental animals

Description

<p>Bosiljak (Ocimum basilicum L.) pripada familiji Lamiaceae i jedna je od najrasprostranjenijih i najče&scaron;će gajenih biljaka &scaron;irom sveta. Njegova upotreba je &scaron;iroko rasprostranjena zbog bogatog sadržaja i skladnog odnosa vitamina, minerala kao i različitih fenolnih jedinjenja kao glavnih nosilaca antioksidativne aktivnosti. Poslednjih godina velika pažnja je usmerena ka fenolnim fitokomponentama kao potencijalnim promoterima zdravlja. Ciljevi ovog rada bili su ispitivanje kvalitativnih i kvantitativnih karakteristika, kao i biohemijskih aktivnosti ekstrakata bosiljka dobijenih različitim rastvaračima, kao i ispitivanje uticaja farmaceutsko-tehnolo&scaron;ke formulacije u obliku mikrovezikula ekstrakta bosiljka na glikemijski, lipidni i oksido-redukcioni status kod oglednih životinja, u odnosu na vodeni ekstrakt. In vitro ispitivanja su uključivala analizu 100 ekstrakata dobijenih različitim rastvaračima i stepenom usitnjenosti. Ukupni fenolni i flavonoidni sadržaj, kao i antioksidativna aktivnost određena je spektrofotometrijskom metodom. Takođe, kvantifikovane i kvalifikovane su fenolne komponente (fenolne kiseline i flavonoidi) primenom visokoefikasne tečne hromatografije (HPLC). In vivo ispitivanje je rađeno na 84 albino laboratorijska pacova soja Wistar. Per os su primenjivani vodeni ekstrakt bosiljka, rastvor natrijumove soli monoketoholne kiseline, njihove kombinacije, kao i ekstrakt u obliku farmaceutsko-tehnolo&scaron;ke formulacije, mikrovezikula. Posle sedmodnevnog tretmana, merene su koncentracije glukoze u krvi, a nakon žrtvovanja, u serumu su određeni parametri lipidnog statusa i antioksidativnog stresa. Ex vivo analizama procenjivani su efekti ekstrakta bosiljka na enzimske i neenzimske parametre antioksidativnog odbrambenog sistema i oksidativne modifikacije lipida. Praćen je i uticaj tretmana na akutno o&scaron;tećenje jetre usled primene paracetamola. Svi analizirani ekstrakti bosiljka su pokazali prisustvo velikog broja fenolnih jedinjenja iz klase fenolnih kiselina i flavonoida. Detektovane i kvantifikovane aktivne komponente bile su fenolne kiseline: hlorogenska, p-hidroksibenzoeva, kafena, vanilinska, ferulna, rozmarinska i cimetna, kao i apigenin, kvercetin, naringenin i rutin kao predstavnici flavonoidnih jedinjenja. Primena ekstrakta bosiljka i natrijumove soli monoketoholne kiseline, same ili u kombinaciji, a takođe i u farmaceutsko-tehnolo&scaron;koj formulaciji, pokazale su smanjenja o&scaron;tećenja tokom oksidativnog stresa, značajno antidijabetesno delovanje, povoljan uticaj na lipidni status i protektivni efekat na funkcije jetre i bubrega. Na osnovu dobijenih rezultata može se zaključiti da ekstrakt bosiljka sadrži značajnu količinu fenolnih jedinjenja odgovornih za antioksidativnu aktivnost. Vodeni ekstrakt bosiljka, sam ili u kombinaciji sa monoketoholnom kiselinom, i u obliku farmaceutsko-tehnolo&scaron;ke formulacije snižava nivo glukoze u krvi, ubrzava obnovu &beta; ćelija, ima povoljan efekat na lipidni status i ne dovodi do toksičnih promena na jetri i bubrezima kod eksperimentalnih životinja.</p> / <p>Basil (Ocimum basilicum L.) belongs to the family Lamiaceae and represents one of the most widespread and most commonly cultivated plant worldwide. Its use is widespread due to its rich content and harmonious relationship of vitamins, minerals and various phenolic compounds which are responsible for the antioxidant activity. In recent years, great attention is directed to phenolic phytocomponents as potential promoters of health. The objectives of this study were to test the qualitative and quantitative characteristics, as well as the biochemical activity of basil extracts obtained by various solvents and investigate the impact of pharmaceutical technological formulation of basil extract on glycemic, lipid and oxidation-reduction status of the aqueous extract in the experimental animals. In vitro studies have included 100 extracts obtained by various solvents and degrees of fragmentation. Total phenolic and flavonoid content, as well as antioxidant activity was determined by spectrophotometric method. Also, phenolic compounds (phenolic acids and flavonoids) were qualified and quantified using high performance liquid chromatography (HPLC). In vivo testing was performed on 84 laboratory albino Wistar rats. The aqueous extract of basil, a solution of sodium salt of monoketocholic acid, their combinations, as well as an extract in the form of the pharmaceutical technological formulation were administered per os. After seven-day-treatment, the concentrations of glucose were measured in the blood and after sacrificing of animals, the lipid and antioxidative parameters were determined in serum. Ex vivo analysis assessed the effect of the extract of basil on the parameters of enzymatic and non-enzymatic antioxidant defense system and the oxidative modification of lipids. The effect of paracetamol on acute liver injury was also monitored. All analyzed basil extracts showed the presence of the large number of phenolic compounds from the class of phenolic acids and flavonoids. Chlorogenic, p-hydroxybenzoic, caffeic, vanillic, ferulic, rosmarinic, and cinnamic acid, as well as apigenin, quercetin, naringenin and rutin were detected and quantified. The application of basil extracts and the sodium salt of monoketocholic acid, either alone or in combination, and also in pharmaceutical technological formulation of microvesicles has shown a reduction in damage during oxidative stress, then a significant antidiabetic activity, favorable effect on the lipid profile and protective effect on the liver and kidney function. Based on these results it can be concluded that basil extract contains significant amounts of phenolic compounds responsible for antioxidant activity. The aqueous extract of basil, alone or in combination with monoketocholic acid, and in the form of the pharmaceutical technological formulations lowers glucose levels in the blood, accelerates the restoration of &beta; cells, has a favorable effect on the lipid status and does not lead to toxic changes in the liver and kidneys in experimental animals.</p>

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1. https://www.cris.uns.ac.rs/DownloadFileServlet/Disertacija148180213455513.pdf?controlNumber=(BISIS)103871&fileName=148180213455513.pdf&id=7103&source=NDLTD&language=en
2. https://www.cris.uns.ac.rs/record.jsf?recordId=103871&source=NDLTD&language=en

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Additional Fields

Identifer	oai:union.ndltd.org:uns.ac.rs/oai:CRISUNS:(BISIS)103871
Date	21 February 2017
Creators	Teofilović Branislava
Contributors	Grujić-Letić Nevena, Goločorbin-Kon Svetlana, Mikov Momir, Gadžurić Slobodan, Rašković Aleksandar
Publisher	Univerzitet u Novom Sadu, Medicinski fakultet u Novom Sadu, University of Novi Sad, Faculty of Medicine at Novi Sad
Source Sets	University of Novi Sad
Language	Serbian
Detected Language	Unknown
Type	PhD thesis