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    Determination of Neopterin as a Prognostic Indicator Using Neopterin-Imprinted Cryogel Membranes
    (Humana Press Inc., 2021) Zenger, Okan; Eren, Burcu; Arısoy, Pırıl; Özdaş, Sibel; Baydemir Peşint, Gözde
    Neopterin (Neo) is thought of as a key biomarker for the diagnosis and prognosis of a wide variety of diseases associated with cellular immune response. Therefore, it has become a vital need to be able to specifically determine the Neo concentration in human serum. Molecularly imprinted cryogels have come into prominence among other affinity systems by combining advantages of Molecular Imprinting Technology (MIT) and cryogels. In this chapter, synthesis of novel Neopterin-imprinted cryogel membranes (Neo-mip), characterization studies of synthesized materials, and their use in the determination of Neo in human serum is described in detail. In addition, the evaluation of selective Neo adsorption properties of Neo-mip against competitors (Pterin and Glucose) is discussed. Neo-mip will come into prominence as important affinity materials for the selective Neo recognition in body fluids, prior to use in the health sector. © 2021, The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.
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    Neopterin-Imprinted Columns for Selective Neopterin Recognition from Serum and Urine Samples
    (Elsevier Ltd, 2021) Özdaş, Sibel; Baydemir Peşint, Gözde; Arısoy, Pırıl; Zenger, Okan; Eren, Burcu
    Neopterin (Np), a catabolic product of guanosine triphosphate (GTP), is synthesized by human macrophages and is an important indicator of cellular immune system activation. Np is associated with the activated cellular immune response and therefore this molecule is a potential biomarker for the diagnosis and follow-up of a wide variety of physiological conditions including cardiovascular and neurodegenerative diseases, autoimmune disorders and viral infections. Within the scope of this study, it was aimed to synthesize neopterin-imprinted cryogel columns (Np-MIPs), which can selectively recognize Np in human body fluids. Np-MIPs were synthesized via the cryo-polymerization in presence of Np as the template molecule and characterized by swelling test, polymerization yield calculations, Brunauer-Emmett-Teller (BET) measurements and Scanning Electron Microscopy (SEM). The surface area was measured as 22 m2/g. Adsorption and desorption of Np from aqueous solutions were investigated, and selectivity studies were performed against pterine and glucose molecules. Maximum Np adsorption on Np-MIP was found to be 249.2 ?g/g and Np-MIPs can adsorb Np 1.09 and 3.84 times selective than glucose and pterin, respectively. It was demonstrated that Np-MIP columns can selectively adsorb Np from serum and urine, with the adsorption capacities of 36 ?g/g and 38.2 ?g/g Np-MIP, respectively. © 2021
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    Phyllanthus emblica-Loaded Cryogels for Improved Wound Care: Characterization and In Vitro Studies
    (John Wiley and Sons Inc, 2024) Canatar, İpek; Özdaş, Sibel; Baydemir Peşint, Gözde
    Wound dressings developed by combining plant extracts with polymers have made a great progress in wound care treatment. One plant with remarkable healing properties is Phyllanthus emblica Linn (P. emblica), which is described as having potent antioxidant, antimicrobial and anti-inflammatory properties. The aim of this study is to evaluate the biocompatibility of P. emblica-loaded polyvinyl alcohol/gelatin-based cryogels (PVA/Gel/P.emblica) through cytotoxicity and proliferation tests in HaCaT cells and examine their potential in wound dressing applications. Accordingly, PVA/Gel/P.emblica cryogels are successfully synthesized and characterization studies and in vitro cell culture studies are performed. The swelling tests and Brunauer–Emmett–Teller analysis results show that swelling and surface area properties of cryogels increase with increasing P. emblica amounts. Morphological results display that the cryogels have a dense, interconnected pore morphology and a macroporous structure. 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, trypan blue exclusion, and live–dead assay results reveal that P. emblica enhances cell proliferation, increases cell number, and improves cell viability. Based on the scanning electron microscope, immunofluorescence, and Giemsa staining images, it is observed that P. emblica promotes cell attachment, proliferation, and penetration. These findings confirm that PVA/Gel/P.emblica cryogels are suitable for use as wound dressing materials and can be developed with further studies. © 2024 The Authors. Macromolecular Materials and Engineering published by Wiley-VCH GmbH.
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    Pterostilbene loaded poly(vinyl alcohol)-gelatin cryogels as potential bioactive wound dressing material
    (John Wiley and Sons Inc, 2023) Canatar, İpek; Zenger, Okan; Özdaş, Sibel; Baydemir Peşint, Gözde
    Cryogels are support materials which are good at mimicking extracellular matrix due to their excellent hydrophilicity, biocompatibility, and macroporous structure, thus they are useful in facilitating cell activities during healing process. In this study, polyvinyl alcohol-gelatin (PVA-Gel) based cryogel membranes loaded with pterostilbene (trans-3,5-dimethoxy-4-hydroxystilbene; PTS) (PVA-Gel/PTS) was synthesized as wound dressing materials. PVA-Gel and PVA-Gel/PTS were synthesized with the polymerization yields of 96% ± 0.23% and 98% ± 0.18%, respectively, and characterized by swelling tests, Brunauer–Emmett–Teller (BET) and scanning electron microscopy (SEM) analysis. The swelling ratios were calculated as 98.6% ± 4.93% and 102% ± 5.1%, macroporosities were determined as 85% ± 2.13% and 88% ± 2.2%, for PVA-Gel and PVA-Gel/PTS, respectively. It was determined that PVA-Gel and PVA-Gel/PTS have 17 m2/g ± 0.76 m2/g and 20 m2/g ± 0.92 m2/g surface areas, respectively. SEM studies were demonstrated that they have ~100 ?m pore sizes. According to 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT), trypan blue exclusion and live-dead assay results, it was observed that cell proliferation, cell number and cell viability were higher in PVA-Gel/PTS cryogel at 24, 48, and 72 h compared to PVA-Gel. A strong and transparent fluorescent light intensity was observed indicating higher cell population in PVA-Gel/PTS in comparison with PVA-Gel, according to 4?,6-diamidino-2-phenylindole (DAPI) staining. SEM, F-Actin, Giemsa staining and inverted-phase microscope image of fibroblasts in PVA-Gel/PTS cryogels revealed that dense fibroblast proliferation and spindle-shaped morphology of cells were preserved. Moreover, DNA agarose gel data demonstrated that PVA-Gel/PTS cryogels had no effect on DNA integrity. Consequently, produced PVA-Gel/PTS cryogel can be used as wound dressing material to promote wound therapies, inducing cell viability and proliferation. © 2023 Wiley Periodicals LLC.
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    Synthesis of Double-Layer Imprinted Polymers: BSA Depletion
    (Humana Press Inc., 2021) Zenger, Okan; Baydemir Peşint, Gözde
    A sensitive, rapid, and cost-effective method for quantitative analysis of proteins (e.g., detection, purification, depletion) for a wide variety of purposes is required in a number of areas, such as immunodiagnostics and biotechnology. Double-layer imprinting technique, which is carried out via polymerization of polymer solution with higher monomer concentration, covering and filling the supermacroporous structure of a pre-synthesized cryogel column with a lower monomer concentration, thus improving the surface area and adsorption capacity of final product, is a brand new approach for the application of cryogels in molecular imprinting technology. Within the scope of this chapter, BSA is selected as a model protein for the application of double-layer imprinting protocol. In this chapter, synthesis of double-layer BSA-imprinted and non-imprinted cryogel columns (BSA-DLIP and DLNIP, respectively) are described. In addition, characterization of synthesized columns and BSA depletion studies from aqueous solutions are described in detail, as well as selectivity of BSA-DLIPs for BSA, against competitors. © 2021, The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.