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Karakterizacija različnih sevov vaginalnih laktobacilov in njihovo vključevanje v nanovlakna
ID Cvetanoska, Maja (Author), ID Berlec, Aleš (Mentor) More about this mentor... This link opens in a new window, ID Stojanov, Spase (Comentor)

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Abstract
Vaginalno mikrobioto sestavlja veliko različnih mikroorganizmov, med katerimi prevladujejo laktobacili iz vrst Lactobacillus crispatus, Lactobacillus jensenii, Lactobacillus gasseri in Lactobacillus iners. Vaginalni laktobacili imajo ključno vlogo pri zaščiti vaginalne sluznice, saj preprečujejo razvoj bakterijskih in glivičnih okužb. To dosežejo tako, da proizvajajo mlečno kislino, ki ustvarja kislo okolje in zavira rast patogenih mikroorganizmov. Poleg tega izločajo različne protimikrobne snovi, kot so vodikov peroksid in bakteriocini, ki uničujejo patogene mikroorganizme, kot so Gardnerella vaginalis, Candida albicans in Trichomonas vaginalis. Če se zaradi različnih razlogov zmanjša število laktobacilov, pride do porušitve raznotežja med normalno vaginalno mikrobioto in oportunističnimi patogenimi mikroorganizmi, kar vodi v razvoj vaginalnih okužb. Uporaba laktobacilov kot probiotikov lahko omogoči obnovo normalne vaginalne mikrobiote in posledično tudi zdravljenje okužb, vendar pomanjkanje ustreznega dostavnega sistema ovira njihovo širšo uporabo. V okviru magistrske naloge smo ovrednotili 77 sevov vaginalnih laktobacilov iz vrst L. crispatus, L. jesenii in L. gasseri. Pri vrednotenju smo spremljali rast bakterij, preživetje bakterij v fosfatnem pufru, spremembo pH v gojišču, agregacijo in površinsko hidrofobnost. Od 77 analiziranih sevov je 24 ur po inokulaciji v tekočem gojišču pri 37 °C zraslo le 48 sevov (20 sevov L. crispatus, 20 sevov L. jensenii in 8 sevov L. gasseri), ki smo jih podrobneje ovrednotili. Viabilnost bakterijskih sevov smo določali z metodo kapljanja (ang. drop plate). Spremembe pH v gojišču smo določili s pomočjo pH metra. Spremembe agregacije v odvisnosti od časa smo določili z merjenjem optične gostote (OD) spektrofotometrično pri 600 nm. Površinsko hidrofobnost smo ovrednotili z merjenjem OD spektrofotometrično pri 560 nm v vodni fazi po ekstrakciji s heksadekanom. Za pridobivanje informacij o bakterijski rasti in pripravi rastne krivulje smo seve gojili v mikrotitrskih ploščah in spremljali rast s pomočjo merjenja absorbance. Glede na posamezne lastnosti smo analizirane seve razdelili v skupine. Naš cilj je bil vključitev sevov z najboljšimi lastnostmi (dobra rast, visoko preživetje, nizek pH, visoka agregacija in visoka hidrofobnost) v nanovlakna z metodo elektrostatskega sukanja in ovrednotenje njihovega preživetja. Izmed 48 analiziranih sevov smo identificirali 3 seve (L. crispatus 6, L. jensenii 6 in L. gasseri 35) z najboljšimi lastnostmi. S pomočjo metode elektrostatskega sukanja smo jih uspešno vgradili v nanovlakna in nato ovrednotili njihovo viabilnost. Najmanjša razlika v viabilnosti pred in po vgradnji v nanovlakna je bila 0,1 log CFU/g (L. gasseri 35). Razlika pri preostalih dveh sevih (L. crispatus 6 in L. jensenii 6) je znašala 1,8 in 2,2 log CFU/g. S tem smo pokazali, da so izbrani sevi primerni za vgradnjo v nanovlakna.

Language:Slovenian
Keywords:Vaginalna mikrobiota, laktobacili, probiotiki, nanovlakna, viabilnost, elektrostatsko sukanje
Work type:Master's thesis/paper
Organization:FFA - Faculty of Pharmacy
Year:2024
PID:20.500.12556/RUL-161936 This link opens in a new window
Publication date in RUL:17.09.2024
Views:154
Downloads:71
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Secondary language

Language:English
Title:Characterization of different strains of vaginal lactobacilli and their incorporation into nanofibers
Abstract:
The vaginal microbiota comprises a variety of microorganisms, predominantly vaginal lactobacilli, such as: Lactobacillus jensenii, Lactobacillus crispatus, Lactobacillus gasseri and Lactobacillus iners. Vaginal lactobacilli play a crucial role in maintaining a healthy vaginal environment by protecting it from bacterial and fungal infections. They accomplish this by secreting various antimicrobial substances, with lactic acid being the most important, and by competing with pathogens for adherence to the vaginal mucosa. In addition, they secrete various antimicrobial substances, such as hydrogen peroxide and bacteriocins, which destroy pathogenic microorganisms such as Gardnerella vaginalis, Candida albicans, and Trichomonas vaginalis. A decrease in the number of lactobacilli, for various reasons, disrupts the balance between normal vaginal flora and pathogenic microorganisms, leading to the development of vaginal infections. The use of lactobacilli as probiotics can facilitate the restoration of normal vaginal microbiota and consequently the treatment of infections; however, the lack of an appropriate delivery system is the main reason for their limited use. In the context of the master's thesis, we evaluated 77 strains of vaginal lactobacilli from the species L. gasseri, L. jensenii, and L. crispatus. During the evaluation, we monitored bacterial growth, bacterial survival in a phosphate buffer, change of pH of the medium, aggregation, and surface hydrophobicity. Out of 77 analyzed strains, only 48 strains (20 strains of L. crispatus, 20 strains of L. jensenii, and 8 strains of L. gasseri) have grown 24 hours after inoculation in liquid culture at 37°C. We evaluated these strains in more detail. We determined the viability of bacterial strains using the drop plate method. pH changes in the medium were determined using a pH meter. Changes in aggregation over time were determined by measuring optical density spectrophotometrically at 600 nm. Surface hydrophobicity was evaluated by measuring optical density spectrophotometrically at 560 nm in the aqueous phase after extraction with hexadecane. To obtain information about bacterial growth and to prepare a growth curve, we cultured the strains in microtiter plates and monitored growth using an absorbance reader. Based on their properties, we categorized the analyzed strains into groups. Our goal was to incorporate strains with the best characteristics (good growth, high survival, low pH, high aggregation, and high hydrophobicity) into nanofibers using the electrospinning method and to evaluate their survival. From the 48 analyzed strains, we identified 3 strains (L. crispatus 6, L. jensenii 6 in L. gasseri 35) with the best properties for incorporation into nanofibers. Using the electrospinning method, we successfully incorporated bacteria into nanofibers and then evaluated their survival. The smallest difference in viability before and after incorporation into nanofibers was 0.1 log CFU/g (L. gasseri 35). The difference for the other two strains (L. crispatus 6 and L. jensenii 6) was 1.8 and 2.2 log CFU/g, respectively.

Keywords:Vaginal microbiota, lactobacilli, probiotics, nanofibers, viability, electrospinning method

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