Browsing by Author "Ceter, Talip"

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A new pollen-derived microcarrier for pantoprazole delivery.
(2017-02-01T00:00:00Z) Akyuz, Lalehan; Sargin, Idris; Kaya, Murat; Ceter, Talip; Akata, Ilgaz
Plant-derived carriers have emerged as promising materials for drug encapsulation. Especially, sporopollenin microcapsules extracted from diverse pollen species have been proved to be effective drug carriers due to their biocompatibility, homogeneity in size, resistance to harsh chemical conditions and high thermal stability. Here in this study, sporopollenin microcapsules were isolated successfully from the pollens of a common tree (Corylus avellana, the European hazelnut) and used as a carrier for pantoprazole (PaNa) (a proton pump inhibitor). The drug entrapment efficiency was recorded as 29.81%. SEM micrographs clearly showed the drug was loaded into the microcapsules through the apertures of microcapsule and also some drugs were adsorbed on the surface of microcapsules. FT-IR spectra analysis confirmed the drug loading. Thermogravimetric analysis revealed that thermal stability of PaNa was enhanced by encapsulation. In vitro release studies showed that PaNa-loaded sporopollenin microcapsules exhibited better release performance than the control. C. avellana sporopollenin microcapsules can make an efficient carrier for delivery of PaNa.
[Atmospheric concentration of fungus spores in Ankara and the effect of meteorological factors in 2003 period].
(2009-10-01T00:00:00Z) Ceter, Talip; Pinar, Nur Münevver
The atmospheric concentrations of airborne fungus spores change continuously according to the meteorological factors, and their intensity have important allergic effects on atopic subjects and opportunistic pathogenic effects on immunocompromised patients. The aim of this study was to identify the fungal spores found in Ankara atmosphere during 2003 period and to investigate the changes in spore concentrations in relation to meteorological factors. Fungal spores were sampled by using 7-day Burkard volumetric trap between January to December 2003, and probable identification was performed microscopically based on their morphological structures. A total of 433.079 spores/m3 belonging to 35 taxa were observed during the study. The rates of these taxa were as follows; 75.5% Cladosporium, 6.1% Alternaria, 2.2% Leptosphaeria, 2.2% Ustilago, 2.1% 1-septate ascospores, 2% Exosporium, 1.6% Pleospora, and 1.3% Drechslera. The other taxa with concentrations < 1% have consisted a total of 7.1% of all atmospheric spores (Puccinia, Curvularia, Coprinus, Nigrospora, Periconia, Melanomma, Torula, Ascobolus, Agrocybe, Pithomyces, Stemphyllium, Ganoderma, Boletus, Peronospora, Venturia, Paraphaeosphaeria, Epicoccum, Didymella, Chaetomium and Fusarium rates between 0.7-0.1%; Oidium, Xylaria, Botrytis, Melanospora, Dictyosporium, Sporormiella and Tetracoccosporium rates between 0.09-0.01%). Although fungal spores were detected in all months in Ankara atmosphere, the evaluation of the seasonal distribution of spore concentrations revealed that the highest value was detected in July (100.697 spores/m3), while the lowest value was in January (4268 spores/m3). When the effects of meteorological factors on spore concentrations were investigated, it was found that, monthly mean temperature (> 20 degrees C) has a strong positive correlation (p < 0.01), and monthly mean relative humidity (< %50) and precipitation (0-20 mm) have strong negative correlations (p < 0.01) on the spore concentrations, while wind velocity (3 m/s) has a slightly positive effect. An annual spore calendar which indicated weekly concentrations and allergenicity levels of those identified fungal spores, was also prepared in this study. In conclusion, it is expected that these data would be helpful for the researchers in the area of aeropalinology and for the clinicians to evaluate allergic diseases.
Controlled release and anti-proliferative effect of imatinib mesylate loaded sporopollenin microcapsules extracted from pollens of Betula pendula.
(2017-12-01T00:00:00Z) Sargin, Idris; Akyuz, Lalehan; Kaya, Murat; Tan, Gamze; Ceter, Talip; Yildirim, Kevser; Ertosun, Seymanur; Aydin, Gozde Hatun; Topal, Muge
Sporopollenin is a promising material for drug encapsulation due to its excellent properties; uniformity in size, non-toxicity, chemically and thermally resilient nature. Herein, morphologically intact sporopollenin microcapsules were extracted from Betula pendula pollens. Cancer therapeutic agent (imatinib mesylate) was loaded into the microcapsules. The encapsulation efficiency by passive loading technique was found to be 21.46%. Release behaviour of the drug from microcapsules was found to be biphasic, with an initial fast release followed by a slower rate of release. Imatinib mesylate release from the drug itself (control) was faster than from imatinib mesylate-loaded sporopollenin microcapsules. The release profiles for both free and entrapped drug samples were significantly slower and more controlled in PBS buffer (pH 7.4) than in HCl (pH 1.2) buffer. Cumulative drug release from IM-MES-loaded sporopollenin microcapsules was found to be 65% within 24h for PBS, whereas release from the control was completed within 1h. Also, a complete dissolution of control in HCl buffer was observed within first 30min. MTT assay revealed that drug-loaded microcapsules were effective on WiDr human colon carcinoma cell line. B. pendula sporopollenin can be suggested as an effective carrier for oral delivery of imatinib mesylate.
Design and application of sporopollenin microcapsule supported palladium catalyst: Remarkably high turnover frequency and reusability in catalysis of biaryls.
(2017-01-15T00:00:00Z) Baran, Talat; Sargin, Idris; Kaya, Murat; Menteş, Ayfer; Ceter, Talip
Bio-based catalyst support materials with high thermal and structural stability are desired for catalysts systems requiring harsh conditions. In this study, a thermally stable palladium catalyst (up to 440°C) was designed from sporopollenin, which occurs naturally in the outer exine layer of pollens and is widely acknowledged as chemically very stable and inert biological material. Catalyst design procedure included (1) extraction of sporopollenin microcapsules from Betula pendula pollens (∼25μm), (2) amino-functionalisation of the microcapsules, (3) Schiff base modification and (4) preparation of Pd(II) catalyst. The catalytic activity of the sporopollenin microcapsule supported palladium catalyst was tested in catalysis of biaryls by following a fast, simple and green microwave-assisted method. We recorded outstanding turnover number (TON: 40,000) and frequency (TOF: 400,000) for the catalyst in Suzuki coupling reactions. The catalyst proved to be reusable at least in eight cycles. The catalyst can be suggested for different catalyst systems due to its thermal and structural durability, reusability, inertness to air and its eco-friendly nature.
[Investigation of antifungal activity of Ononis spinosa L. ash used for the therapy of skin infections as folk remedies].
(2010-10-01T00:00:00Z) Altuner, Ergin Murat; Ceter, Talip; Işlek, Cemil
Traditional folk remedies used for centuries come up focus of interest in recent years, due to the trend of use of herb-derived natural products. In addition, increasing morbidity and mortality rates of opportunistic fungal infections and accelerating antifungal resistance rates of fungi lead to the use of alternative therapies with herb-derived preparations as novel antifungals. Ononis spinosa L. (spiny restharrow), which is classified in Leguminosae family, is one of the plants used in herbal medicine as folk remedies for the treatment of skin lesions and/or infections as well as many other disorders. Antibacterial, antifungal, anti-inflammatory and analgesic effects of Ononis spinosa (OS) have already been supported by different studies. The roots and aerial sections of OS are the mainly employed parts for application, however local communities inhabiting at southeastern parts of Anatolia, Turkey, employ the ashes of OS widely to heal the skin infections. There have been no reports about the antifungal activity of OS ashes as far as the current literature is concerned. The aim of this study was to investigate the antifungal activity of ashes of OS, collected from a rural area located at Southeast Anatolia. Ashes of OS have been obtained by burning the plant samples at 400°C, and extracted in sterile distilled water and ethanol. The efficacy of aqueous and ethanol extracts of OS ashes were tested against 10 fungi, of which one was a Candida albicans standard strain (ATCC 95071) and the others were clinical isolates (C.albicans, Candida glabrata, Candida tropicalis, Candida krusei, Candida guilliermondii, Candida parapsilosis, Candida pelliculosa, Trichosporon asahii, Trichophyton rubrum). Antifungal susceptibility test was performed by disc diffusion (DD) method and the results were confirmed with minimum inhibitory concentration (MIC) and minimal fungicidal concentration (MFC) values determined by microdilution method. The results indicated that both aqueous and ethanol extracts of OS ash showed antifungal activity against C. Albicans ATCC 95071 (DD inhibition zones were 16 and 15 mm, respectively; MIC = 1.25 µg/ml, MFC = 1.25 µg/ml), whereas against C.glabrata clinical isolate only ethanol extract exhibited antifungal activity (DD inhibition zone = 10 mm, MIC = 5.00 µg/ml, MFC = 40.00 µg/ml). No antifungal effect was detected against the other clinical Candida spp, T.asahii and T.rubrum isolates. In conclusion, since our results emphasize that extracts of OS ash that traditionally used for skin disorders, showed promising degrees of antifungal activity against some of Candida strains, these preliminary data should be supported by further large-scale studies.
Newly isolated sporopollenin microcages from Platanus orientalis pollens as a vehicle for controlled drug delivery.
(2017-08-01T00:00:00Z) Mujtaba, Muhammad; Sargin, Idris; Akyuz, Lalehan; Ceter, Talip; Kaya, Murat
Sporopollenin microcages were produced from the pollens of Platanus orientalis. Paracetamol was loaded into the microcages. Pollen, sporopollenin, paracetamol and paracetamol-loaded sporopollenin microcages were characterized with FT-IR, TGA and SEM. The analytical analyses demonstrated that sporopollenin microcages were structurally intact, highly reticulated and thermally stable. The loading efficiency of the sporopollenin microcages was found to be 8.2% using the passive loading technique and 23.7% via evaporating loading technique. In vitro release and kinetics studies were performed to test the suitability of sporopollenin microcages for loading. These studies revealed that sporopollenin from P. orientalis can be suggested as a suitable carrier for drug loading and controlled release studies.
Preparation and characterisation of biodegradable pollen-chitosan microcapsules and its application in heavy metal removal.
(2015-02-01T00:00:00Z) Sargın, İdris; Kaya, Murat; Arslan, Gulsin; Baran, Talat; Ceter, Talip
Biosorbents have been widely used in heavy metal removal. New resources should be exploited to develop more efficient biosorbents. This study reports the preparation of three novel chitosan microcapsules from pollens of three common, wind-pollinated plants (Acer negundo, Cupressus sempervirens and Populus nigra). The microcapsules were characterized (Fourier transform infrared spectroscopy, thermogravimetric analysis, scanning electron microscopy and elemental analysis) and used in removal of heavy metal ions: Cd(II), Cr(III), Cu(II), Ni(II) and Zn(II). Their sorption capacities were compared to those of cross-linked chitosan beads without pollen grains. C. sempervirens-chitosan microcapsules exhibited better performance (Cd(II): 65.98; Cu(II): 67.10 and Zn(II): 49.55 mg g(-1)) than the other microcapsules and the cross-linked beads. A. negundo-chitosan microcapsules were more efficient in Cr(III) (70.40 mg g(-1)) removal. P. nigra-chitosan microcapsules were found to be less efficient. Chitosan-pollen microcapsules (except P. nigra-chitosan microcapsules) can be used in heavy metal removal.