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Drvenica, Ivana

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  • Drvenica, Ivana (2)
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Maltose-mediated, long-term stabilization of freeze- and spray-dried forms of bovine and porcine hemoglobin

Drvenica, Ivana; Stančić, Ana; Kalušević, Ana; Marković, Smilja; Maksimović, Jelena Dragišić; Nedović, Viktor; Bugarski, Branko; Ilić, Vesna

(Belgrade : Serbian Chemical Society, 2019)

TY  - JOUR
AU  - Drvenica, Ivana
AU  - Stančić, Ana
AU  - Kalušević, Ana
AU  - Marković, Smilja
AU  - Maksimović, Jelena Dragišić
AU  - Nedović, Viktor
AU  - Bugarski, Branko
AU  - Ilić, Vesna
PY  - 2019
UR  - https://www.shd-pub.org.rs/index.php/JSCS/article/view/8197
UR  - http://dais.sanu.ac.rs/123456789/6908
AB  - Slaughterhouse blood represents a valuable source of hemoglobin, which can be used in the production of heme-iron based supplements for the prevention/treatment of iron-deficiency anemia. In order to obtain a stable solid-state formulation, the effect of maltose addition (30 %) on the stability and storage of bovine and porcine hemoglobin in powders obtained by spray- and freeze-drying (without maltose: Hb; with maltose: HbM) were inves­tigated. Differential scanning calorimetry of spray- and freeze-dried powders indicated satisfying quality of the formulation prepared with maltose on dissol­ving back into solution. After two-year storage at room temperature (20±5 °C) in solid forms, protected from moisture and light, rehydrated spray- and freeze-dried HbM were red, while Hb were brown. Dynamic light scattering showed the presence of native hemoglobin monomers in rehydrated spray- and freeze-dried HbM, but their agglomerates in Hb samples. UV–Vis spectrophotometry confirmed an absence of significant hemoglobin denaturation and methemoglobin formation in HbM freeze-dried powders. In spray-dried HbM, an inc­reased level of methemoglobin was detected. The results confirmed the stabil­izing effect of maltose, and suggested its use in the production of long-term stable solid-state formulations of hemoglobin, along with drying processes optimization.
PB  - Belgrade : Serbian Chemical Society
T2  - Journal of the Serbian Chemical Society
T1  - Maltose-mediated, long-term stabilization of freeze- and spray-dried forms of bovine and porcine hemoglobin
SP  - 1105
EP  - 1117
VL  - 84
IS  - 10
DO  - 10.2298/JSC190513067D
ER  - 
@article{
author = "Drvenica, Ivana and Stančić, Ana and Kalušević, Ana and Marković, Smilja and Maksimović, Jelena Dragišić and Nedović, Viktor and Bugarski, Branko and Ilić, Vesna",
year = "2019",
url = "https://www.shd-pub.org.rs/index.php/JSCS/article/view/8197, http://dais.sanu.ac.rs/123456789/6908",
abstract = "Slaughterhouse blood represents a valuable source of hemoglobin, which can be used in the production of heme-iron based supplements for the prevention/treatment of iron-deficiency anemia. In order to obtain a stable solid-state formulation, the effect of maltose addition (30 %) on the stability and storage of bovine and porcine hemoglobin in powders obtained by spray- and freeze-drying (without maltose: Hb; with maltose: HbM) were inves­tigated. Differential scanning calorimetry of spray- and freeze-dried powders indicated satisfying quality of the formulation prepared with maltose on dissol­ving back into solution. After two-year storage at room temperature (20±5 °C) in solid forms, protected from moisture and light, rehydrated spray- and freeze-dried HbM were red, while Hb were brown. Dynamic light scattering showed the presence of native hemoglobin monomers in rehydrated spray- and freeze-dried HbM, but their agglomerates in Hb samples. UV–Vis spectrophotometry confirmed an absence of significant hemoglobin denaturation and methemoglobin formation in HbM freeze-dried powders. In spray-dried HbM, an inc­reased level of methemoglobin was detected. The results confirmed the stabil­izing effect of maltose, and suggested its use in the production of long-term stable solid-state formulations of hemoglobin, along with drying processes optimization.",
publisher = "Belgrade : Serbian Chemical Society",
journal = "Journal of the Serbian Chemical Society",
title = "Maltose-mediated, long-term stabilization of freeze- and spray-dried forms of bovine and porcine hemoglobin",
pages = "1105-1117",
volume = "84",
number = "10",
doi = "10.2298/JSC190513067D"
}
Drvenica, I., Stančić, A., Kalušević, A., Marković, S., Maksimović, J. D., Nedović, V., Bugarski, B.,& Ilić, V. (2019). Maltose-mediated, long-term stabilization of freeze- and spray-dried forms of bovine and porcine hemoglobin.
Journal of the Serbian Chemical SocietyBelgrade : Serbian Chemical Society., 84(10), 1105-1117. 
https://doi.org/10.2298/JSC190513067D
Drvenica I, Stančić A, Kalušević A, Marković S, Maksimović JD, Nedović V, Bugarski B, Ilić V. Maltose-mediated, long-term stabilization of freeze- and spray-dried forms of bovine and porcine hemoglobin. Journal of the Serbian Chemical Society. 2019;84(10):1105-1117
3
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Surfactant-Assisted Microwave Processed ZnO Nanoparticles with Optimized Surface-to-Bulk Defect Ratio For Potential Biomedical Application

Stanković, Ana; Drvenica, Ivana; Đukić Vuković, Aleksandra; Marković, Smilja

(2019)

TY  - CONF
AU  - Stanković, Ana
AU  - Drvenica, Ivana
AU  - Đukić Vuković, Aleksandra
AU  - Marković, Smilja
PY  - 2019
UR  - http://dais.sanu.ac.rs/123456789/7009
AB  - Owing to a wide band gap energy (3.37 eV at RT) and a large exciton binding energy (60 meV), ZnO nanoparticles (ZnONP) have a diverse application, e.g. in electronics, optoelectronics, photocatalysis. Besides, ZnONP have a great potential in medicine for bioimaging, drug/gene delivery or as antimicrobial and anticancer agents. One of suggested governing mechanisms of the mentioned biological activities of ZnONP is based on formation of reactive oxygen species (ROS). When ZnONP absorb photon with energy equal or greater than its band gap, electrons are excited from the valence band (VB) to the conduction band (CB) leaving the holes in VB. Furthermore, the photogenerated holes (h+) and electrons (e-) migrate from bulk to surface. The photogenerated holes at the VB react with water molecules adsorbed at the particle surface to produce hydroxyl radical, while electrons in CB react with oxygen molecules generating anionic superoxide radical O2 -•. Superoxide radicals can be transformed in highly reactive OH• and so on [1]. Derivatives of this active oxygen can damage the bacterial/tumor cells [2]. However, in sufficiency ROS can damage normal cells as well. Thus, an understanding of ZnONP crystal structure-activity relationship and mechanism of ZnONP-related products formation and their consequent activity is crucial for the design of safe ZnONP based biomaterial for application in treating diseases like cancer. A series of ZnONP samples were synthesized by microwave processing of precipitate in the presence of a small amount (5 wt.%) of surfactants CTAB and citric acid. The particles crystallinity and purity were investigated by X-ray diffraction, Raman and ATR-FTIR spectroscopy. The particles morphology and texture properties were observed with field emission scanning electron microscopy (FE–SEM) and nitrogen adsorption–desorption isotherm, respectively. The optical properties were studied using UV–Vis diffuse reflectance and photoluminescence (PL) spectroscopy. ZnONP samples with different surface-to-bulk defect ratio were examined on ROS formation and antimicrobial activity. Future studies will be conducted with an aim to correlate surface-to-bulk defect ratio in ZnONP with mechanism of ROS formation and their cytotoxicity to normal and cancerous cells.
C3  - Book of Abstracts / First CA17140 COST Conference Cancer Nanomedicine – from the Bench to the Bedside, October 15-17, 2019, Bellevue Park Hotel, Riga, Latvia
T1  - Surfactant-Assisted Microwave Processed ZnO Nanoparticles with Optimized Surface-to-Bulk Defect Ratio For Potential Biomedical Application
SP  - 93
EP  - 93
ER  - 
@conference{
author = "Stanković, Ana and Drvenica, Ivana and Đukić Vuković, Aleksandra and Marković, Smilja",
year = "2019",
url = "http://dais.sanu.ac.rs/123456789/7009",
abstract = "Owing to a wide band gap energy (3.37 eV at RT) and a large exciton binding energy (60 meV), ZnO nanoparticles (ZnONP) have a diverse application, e.g. in electronics, optoelectronics, photocatalysis. Besides, ZnONP have a great potential in medicine for bioimaging, drug/gene delivery or as antimicrobial and anticancer agents. One of suggested governing mechanisms of the mentioned biological activities of ZnONP is based on formation of reactive oxygen species (ROS). When ZnONP absorb photon with energy equal or greater than its band gap, electrons are excited from the valence band (VB) to the conduction band (CB) leaving the holes in VB. Furthermore, the photogenerated holes (h+) and electrons (e-) migrate from bulk to surface. The photogenerated holes at the VB react with water molecules adsorbed at the particle surface to produce hydroxyl radical, while electrons in CB react with oxygen molecules generating anionic superoxide radical O2 -•. Superoxide radicals can be transformed in highly reactive OH• and so on [1]. Derivatives of this active oxygen can damage the bacterial/tumor cells [2]. However, in sufficiency ROS can damage normal cells as well. Thus, an understanding of ZnONP crystal structure-activity relationship and mechanism of ZnONP-related products formation and their consequent activity is crucial for the design of safe ZnONP based biomaterial for application in treating diseases like cancer. A series of ZnONP samples were synthesized by microwave processing of precipitate in the presence of a small amount (5 wt.%) of surfactants CTAB and citric acid. The particles crystallinity and purity were investigated by X-ray diffraction, Raman and ATR-FTIR spectroscopy. The particles morphology and texture properties were observed with field emission scanning electron microscopy (FE–SEM) and nitrogen adsorption–desorption isotherm, respectively. The optical properties were studied using UV–Vis diffuse reflectance and photoluminescence (PL) spectroscopy. ZnONP samples with different surface-to-bulk defect ratio were examined on ROS formation and antimicrobial activity. Future studies will be conducted with an aim to correlate surface-to-bulk defect ratio in ZnONP with mechanism of ROS formation and their cytotoxicity to normal and cancerous cells.",
journal = "Book of Abstracts / First CA17140 COST Conference Cancer Nanomedicine – from the Bench to the Bedside, October 15-17, 2019, Bellevue Park Hotel, Riga, Latvia",
title = "Surfactant-Assisted Microwave Processed ZnO Nanoparticles with Optimized Surface-to-Bulk Defect Ratio For Potential Biomedical Application",
pages = "93-93"
}
Stanković, A., Drvenica, I., Đukić Vuković, A.,& Marković, S. (2019). Surfactant-Assisted Microwave Processed ZnO Nanoparticles with Optimized Surface-to-Bulk Defect Ratio For Potential Biomedical Application.
Book of Abstracts / First CA17140 COST Conference Cancer Nanomedicine – from the Bench to the Bedside, October 15-17, 2019, Bellevue Park Hotel, Riga, Latvia, null, 93-93. 
Stanković A, Drvenica I, Đukić Vuković A, Marković S. Surfactant-Assisted Microwave Processed ZnO Nanoparticles with Optimized Surface-to-Bulk Defect Ratio For Potential Biomedical Application. Book of Abstracts / First CA17140 COST Conference Cancer Nanomedicine – from the Bench to the Bedside, October 15-17, 2019, Bellevue Park Hotel, Riga, Latvia. 2019;:93-93