Percorrer por autor "Akyuz, Lalehan"
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- Natural sporopollenin microcarriers: Morphological insights into their functional performance for drug encapsulation and releasePublication . Aylanc, Volkan; Peixoto, Andreia F.; Akyuz, Lalehan; Vale, Nuno; Freire, Cristina; Vilas-Boas, MiguelNatural sporopollenin microcapsules (SMCs) derived from pollen offer versatility and efficiency for different applications, from environmental remediation to food and therapeutics delivery. A critical gap remains in understanding the relationship between SMCs morphologies and their effectiveness in drug loading and delivery. Herein, we encapsulated 5-Fluorouracil (5-FU), a model anticancer drug, into SMCs derived from seven bee monofloral pollens, each exhibiting distinct morphological features, and examined how their loading and release performance correlated with their morphology. Microscopic and particle size analyses revealed that the chemically purified SMCs were hollow, with sizes ranging from 11.0 to 35.6 μm, without significant size changes after drug loading. Encapsulation efficiency achieved through vacuum-assisted loading (18–28 %) generally surpassed that of passive and compression loading techniques. Moreover, there was a trend of increasing encapsulation efficiency with larger SMC sizes, albeit with some exceptions. In a sequential release environment simulating the in vitro gastrointestinal tract and colonic fermentation, smaller SMCs exhibited a faster release profile, whereas larger ones demonstrated a slower sustained release. The quantity and shape of apertures on SMCs walls significantly impacted their drug-loading capacity and release characteristics. Additionally, natural SMCs remained structurally intact even in the presence of digestive enzymes, varying pH levels, and colonic bacteria, indicating minimal degradation under these conditions. Overall, the findings highlight the significant influence of SMCs morphologies on their functional performance and provide a list of SMCs-based microstructures to guide drug release applications.
- Natural β-chitin-protein complex film obtained from waste razor shells for transdermal capsaicin carrierPublication . Aylanc, Volkan; Ertosun, Seymanur; Akyuz, Lalehan; Koc Bilican, Behlul; Gokdag, Semih; Bilican, Ismail; Cakmak, Yavuz Selim; Yilmaz, Bahar Akyuz; Kaya, MuratIn the literature, the produced β-chitin samples are in powder or flake forms but there is no natural β-chitin based film. Also, the commercially available transdermal patches are produced from synthetic polymers. In this regard,we produced natural β-chitin-protein complex (CPC) film fromthewaste shells of Ensis spp. The obtained natural filmwas characterized by FTIR, TGA and SEM. Additionally, swelling, thickness, contact angle and antioxidant tests were done to learn more about the films. After production and characterization of the film, capsaicin, which is commonly used for pain reliefwas loaded into the film. The loading capacitywas recorded as 5.79%. The kineticmodelswere studied in three different pH, then the resultswere fittedwith Higuchimodelwith high correlation at pH 7.4. After considering all the obtained results, the capsaicin loaded CPC film may be an alternative candidate for transdermal patch instead of the synthetic ones.