Vpliv sestavin simulirane pljučne tekočine pri in vitro testih topnosti delcev stekla

Trivunčević, Daša

Vpliv sestavin simulirane pljučne tekočine pri in vitro testih topnosti delcev stekla
ID Trivunčević, Daša (Avtor), ID Strlič, Matija (Mentor) Več o mentorju... Povezava se odpre v novem oknu

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Izvleček

Varnost mineralnih voln, ki se uporabljajo za toplotno in akustično izolacijo, se pred vstopom na trg, zaradi možnosti vdihavanja vlaken, dokazuje z in vivo testi. Zaradi želje in zaveze EU po zmanjševanju testov na živalih, se raziskave usmerjajo na in vitro metode, ki posnemajo biološko okolje. Metode za in vitro določevanje topnosti in obstojnosti vlaken niso standardizirane, zato rezultati med posameznimi raziskovalnimi okolji in laboratoriji med seboj niso primerljivi. V diplomskem delu sem določila vpliv posameznih komponent v simulirani pljučni tekočini na topnost stekla. Test sem izvedla na steklenih ploščicah, ki so nadomestile običajni vlaknasti vzorec. S tem je bilo omogočeno bolj kontrolirano sledenje raztapljanja predhodno izbrane komponente simulirane pljučne tekočine. Koncentracijo izluženih ionov sem določila z induktivno sklopljeno plazmo (ICP-MS). Največjo topnost glede na gravimetrično določeno izgubo mase so imeli vzorci izpostavljeni raztopinam, ki so vsebovale kalijev hidrogen ftalat, natrijev citrat in natrijev tartrat, pri čemer je bil opazen vpliv koncentracije citrata in tartrata. Večja sprememba pH vrednosti je bila opazna pri raztopinah z višjo koncentracijo natrijevega citrata in tartrata, ki sta povzročila povečano raztapljanje namočenega vzorca. V raztopinah soli in raztopini z dodatkom aminokisline glicina so bili vzorci slabo topni, kar pomeni, da sta pomembni komponenti za raztapljanje v simulirani pljučni tekočini organski fazi natrijev citrat in natrijev tartrat. Gravimetrično določena topnost je bila podobna topnosti določeni z merjenjem koncentracije raztopljenih ionov z ICP-MS metodo. Pri primerjavi organskih pufrov KHP in MES, je imel KHP na raztapljanje znaten vpliv, medtem, ko pufer MES na raztapljanje vzorca ni imel vpliva. Pri raztapljanju kalija v raztopini z ultra prečiščeno vodo in kalijevim hidrogen ftalatom je bilo tudi vizualno opaziti obarjanje, saj je na vzorcu nastala plast bakrene barve. V tej tekočini, se je raztopila tudi največja količina vzorca.

Jezik:	Slovenski jezik
Ključne besede:	bio-topnost, mineralna volna, simulirana pljučna tekočina
Vrsta gradiva:	Diplomsko delo/naloga
Tipologija:	2.11 - Diplomsko delo
Organizacija:	FKKT - Fakulteta za kemijo in kemijsko tehnologijo
Leto izida:	2023
PID:	20.500.12556/RUL-147561
COBISS.SI-ID:	160297219
Datum objave v RUL:	07.07.2023
Število ogledov:	711
Število prenosov:	53
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Sekundarni jezik

Izvleček:
Jezik:	Angleški jezik
Naslov:	The influence of specific components in simulated lung fluid used for in vitro glass dissolution tests
The safety of mineral wool used for thermal and acoustic insulation must be tested in vivo in case of inhalation before entering the market. Due to the EU's desire and commitment to reduce animal testing, research is focused on in vitro methods that mimic the biological environment. Methods for in vitro determination of solubility and durability of fibres are not standardized, consequently the results between individual research environments and laboratories are not comparable. In this research I determined the influence of individual components in the simulated lung fluid on the solubility of glass. The test was performed on glass chips that replaced the usual wool fibres, which enabled more controlled dissolution of the components in the simulated lung fluid. I determined the concentration of leached ions by using inductively coupled plasma mass spectrometry (ICP-MS). Samples exposed to solutions containing potassium hydrogen phthalate, sodium citrate and sodium tartrate had the highest solubility in terms of gravimetrically determined mass loss. The concentration of sodium citrate and tartrate that is used in test has fundamental role on the solubility of the fibres. In the salt solutions and the solution with the addition of the amino acid glycine, the samples were poorly soluble, which means that the important components for dissolution in the simulated lung fluid are the organic phase sodium citrate and tartrate. The gravimetrically determined solubility was similar to the solubility determined by measuring the concentration of dissolved ions using the ICP-MS method. A greater change in pH value was observed in solutions with a higher concentration of sodium citrate and tartrate, which caused increased dissolution of the soaked sample. It follows that the choice of buffer is also important when performing the test, since the buffer itself can have a strong influence on dissolution. I compared the organic buffers KHP and MES, whereby the buffer MES had no effect on the dissolution of the sample, while KHP had a significant effect on the dissolution. The phenomenon of supersaturation was observed when dissolving potassium in a solution with ultra purified water and potassium hydrogen phthalate. Precipitation was also observed visually, as a layer of copper color formed on the sample. In this liquid, the largest amount of the sample was dissolved.
Ključne besede:	bio solubility, mineral wool, simulated lung fluid

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