TY  - JOUR
AU  - Jokanović, Vukoman
AU  - Čolović, Božana
AU  - Marković, Dejan
AU  - Petrović, Milan
AU  - Soldatović, Ivan
AU  - Antonijević, Đorđe
AU  - Milosavljević, Petar
AU  - Sjerobabin, Nikola
AU  - Sopta, Jelena
PY  - 2017
UR  - https://smile.stomf.bg.ac.rs/handle/123456789/2187
AB  - This study examined the potential of a new porous calcium hydroxyapatite scaffold covered with poly (lactide-co-glycolide) (PLGA) as a bone substitute, identifying its advantages over Geistlich Bio-Oss (R), considered the gold standard, in in vivo biofunctionality investigations. Structural and morphological properties of the new scaffold were analyzed by scanning electron and atomic force microscopy. The biofunctionality assays were performed on New Zealand white rabbits using new scaffold for filling full-thickness defects of critical size. The evaluated parameters were: the presence of macrophages, giant cells, monoocytes, plasma cells, granulocytes, neo-angiogenesis, fibroplasia, and the percentage of mineralization. Parallel biofunctionality assays were performed using Geistlich Bio-Oss (R). The appearance of bone defects 12 weeks after the new scaffold implantation showed the presence of a small number of typical immune response cells. Furthermore, significantly reduced number of capillary buds, low intensity of fibroplasia and high degree of mineralization in a lamellar pattern indicated that the inflammation process has been almost completely overcome and that the new bone formed was in the final phase of remodeling. All biofunctionality assays proved the new scaffold's suitability as a bone substitute for applications in maxillofacial surgery. It showed numerous biological advantages over Geistlich Bio-Oss (R) which was reflected mainly as a lower number of giant cells surrounding implanted material and higher degree of mineralization in new formed bone.
PB  - Walter De Gruyter Gmbh, Berlin
T2  - Biomedical Engineering - Biomedizinische Technik
T1  - Extraordinary biological properties of a new calcium hydroxyapatite/poly(lactide-co-glycolide)-based scaffold confirmed by in vivo investigation
VL  - 62
IS  - 3
SP  - 295
EP  - 306
DO  - 10.1515/bmt-2015-0164
ER  - 

@article{
author = "Jokanović, Vukoman and Čolović, Božana and Marković, Dejan and Petrović, Milan and Soldatović, Ivan and Antonijević, Đorđe and Milosavljević, Petar and Sjerobabin, Nikola and Sopta, Jelena",
year = "2017",
abstract = "This study examined the potential of a new porous calcium hydroxyapatite scaffold covered with poly (lactide-co-glycolide) (PLGA) as a bone substitute, identifying its advantages over Geistlich Bio-Oss (R), considered the gold standard, in in vivo biofunctionality investigations. Structural and morphological properties of the new scaffold were analyzed by scanning electron and atomic force microscopy. The biofunctionality assays were performed on New Zealand white rabbits using new scaffold for filling full-thickness defects of critical size. The evaluated parameters were: the presence of macrophages, giant cells, monoocytes, plasma cells, granulocytes, neo-angiogenesis, fibroplasia, and the percentage of mineralization. Parallel biofunctionality assays were performed using Geistlich Bio-Oss (R). The appearance of bone defects 12 weeks after the new scaffold implantation showed the presence of a small number of typical immune response cells. Furthermore, significantly reduced number of capillary buds, low intensity of fibroplasia and high degree of mineralization in a lamellar pattern indicated that the inflammation process has been almost completely overcome and that the new bone formed was in the final phase of remodeling. All biofunctionality assays proved the new scaffold's suitability as a bone substitute for applications in maxillofacial surgery. It showed numerous biological advantages over Geistlich Bio-Oss (R) which was reflected mainly as a lower number of giant cells surrounding implanted material and higher degree of mineralization in new formed bone.",
publisher = "Walter De Gruyter Gmbh, Berlin",
journal = "Biomedical Engineering - Biomedizinische Technik",
title = "Extraordinary biological properties of a new calcium hydroxyapatite/poly(lactide-co-glycolide)-based scaffold confirmed by in vivo investigation",
volume = "62",
number = "3",
pages = "295-306",
doi = "10.1515/bmt-2015-0164"
}

Jokanović, V., Čolović, B., Marković, D., Petrović, M., Soldatović, I., Antonijević, Đ., Milosavljević, P., Sjerobabin, N.,& Sopta, J.. (2017). Extraordinary biological properties of a new calcium hydroxyapatite/poly(lactide-co-glycolide)-based scaffold confirmed by in vivo investigation. in Biomedical Engineering - Biomedizinische Technik
Walter De Gruyter Gmbh, Berlin., 62(3), 295-306.
https://doi.org/10.1515/bmt-2015-0164

Jokanović V, Čolović B, Marković D, Petrović M, Soldatović I, Antonijević Đ, Milosavljević P, Sjerobabin N, Sopta J. Extraordinary biological properties of a new calcium hydroxyapatite/poly(lactide-co-glycolide)-based scaffold confirmed by in vivo investigation. in Biomedical Engineering - Biomedizinische Technik. 2017;62(3):295-306.
doi:10.1515/bmt-2015-0164 .

Jokanović, Vukoman, Čolović, Božana, Marković, Dejan, Petrović, Milan, Soldatović, Ivan, Antonijević, Đorđe, Milosavljević, Petar, Sjerobabin, Nikola, Sopta, Jelena, "Extraordinary biological properties of a new calcium hydroxyapatite/poly(lactide-co-glycolide)-based scaffold confirmed by in vivo investigation" in Biomedical Engineering - Biomedizinische Technik, 62, no. 3 (2017):295-306,
https://doi.org/10.1515/bmt-2015-0164 . .

TY  - JOUR
AU  - Jokanović, Vukoman
AU  - Čolović, Božana
AU  - Marković, Dejan
AU  - Petrović, Milan
AU  - Jokanović, Milan
AU  - Milosavljević, Petar
AU  - Sopta, Jelena
PY  - 2016
UR  - https://smile.stomf.bg.ac.rs/handle/123456789/2168
AB  - A synthetic bone substitute based on calcium hydroxyapatite (CHA) and poly(lactic-co-glycolic) acid (PLGA), described in this paper, was synthesized to fulfill specific requirements like biodegradability, satisfying mechanical properties, optimal porosity and nanotopology, osteoinductive and osteoconductive properties, and so forth. Structural and morphological properties of the new scaffold were analyzed by micro computed tomography and scanning electron microscopy, while its physicochemical properties were investigated by X-ray diffraction and infrared spectroscopy. In vivo biological investigations of the synthesized scaffold were conducted over the cutaneous irritation and biofunctionality assays on rabbits and the test of acute systemic toxicity on mice. The results showed that the scaffold is not irritant and that it does not exhibit any symptoms of acute toxicity. Biofunctionality assays which include evaluation of the presence of various cells of immune response, the presence of neoangiogenesis, percentage of mineralization of newly formed bone, and fibroplasia in the tissue indicated that the new scaffold is suitable for the application in maxillofacial and dental surgery as a bone substitute. Also, it showed significant advantages over commercial product Geistlich Bio-Oss(R) from the aspect of some parameters of immunological response.
PB  - Hindawi Ltd, London
T2  - Journal of Nanomaterials
T1  - In Vivo Investigation of ALBO-OS Scaffold Based on Hydroxyapatite and PLGA
VL  - 2016
DO  - 10.1155/2016/3948768
ER  - 

@article{
author = "Jokanović, Vukoman and Čolović, Božana and Marković, Dejan and Petrović, Milan and Jokanović, Milan and Milosavljević, Petar and Sopta, Jelena",
year = "2016",
abstract = "A synthetic bone substitute based on calcium hydroxyapatite (CHA) and poly(lactic-co-glycolic) acid (PLGA), described in this paper, was synthesized to fulfill specific requirements like biodegradability, satisfying mechanical properties, optimal porosity and nanotopology, osteoinductive and osteoconductive properties, and so forth. Structural and morphological properties of the new scaffold were analyzed by micro computed tomography and scanning electron microscopy, while its physicochemical properties were investigated by X-ray diffraction and infrared spectroscopy. In vivo biological investigations of the synthesized scaffold were conducted over the cutaneous irritation and biofunctionality assays on rabbits and the test of acute systemic toxicity on mice. The results showed that the scaffold is not irritant and that it does not exhibit any symptoms of acute toxicity. Biofunctionality assays which include evaluation of the presence of various cells of immune response, the presence of neoangiogenesis, percentage of mineralization of newly formed bone, and fibroplasia in the tissue indicated that the new scaffold is suitable for the application in maxillofacial and dental surgery as a bone substitute. Also, it showed significant advantages over commercial product Geistlich Bio-Oss(R) from the aspect of some parameters of immunological response.",
publisher = "Hindawi Ltd, London",
journal = "Journal of Nanomaterials",
title = "In Vivo Investigation of ALBO-OS Scaffold Based on Hydroxyapatite and PLGA",
volume = "2016",
doi = "10.1155/2016/3948768"
}

Jokanović, V., Čolović, B., Marković, D., Petrović, M., Jokanović, M., Milosavljević, P.,& Sopta, J.. (2016). In Vivo Investigation of ALBO-OS Scaffold Based on Hydroxyapatite and PLGA. in Journal of Nanomaterials
Hindawi Ltd, London., 2016.
https://doi.org/10.1155/2016/3948768

Jokanović V, Čolović B, Marković D, Petrović M, Jokanović M, Milosavljević P, Sopta J. In Vivo Investigation of ALBO-OS Scaffold Based on Hydroxyapatite and PLGA. in Journal of Nanomaterials. 2016;2016.
doi:10.1155/2016/3948768 .

Jokanović, Vukoman, Čolović, Božana, Marković, Dejan, Petrović, Milan, Jokanović, Milan, Milosavljević, Petar, Sopta, Jelena, "In Vivo Investigation of ALBO-OS Scaffold Based on Hydroxyapatite and PLGA" in Journal of Nanomaterials, 2016 (2016),
https://doi.org/10.1155/2016/3948768 . .