TY  - JOUR
AU  - Osmokrović, Andrea
AU  - Jančić, Ivan
AU  - Janković-Častvan, Ivona
AU  - Petrović, Predrag
AU  - Milenković, Marina
AU  - Obradović, Bojana
PY  - 2019
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/4153
AB  - Composites based on Zn-alginate hydrogels in the form of beads were produced by extrusion of a suspension containing 0.5 % w/w of alginate and 20 % w/w of activated charcoal (AC) with the intent to simultaneously release two active agents, Zn2+ and AC particles, in a physiological-like environment. The obtained composite beads were analyzed by FE-SEM and characterized regarding textural parameters, as well as Zn2+ and AC release kinetics in the physiological saline solution. Zn(2+)ions were quickly released reaching the equilibrium concentration within the first hour in the contrary to the release of AC particles, which was described by internal diffusion with the apparent diffusion coefficient of approximately 10(-13) m(2) s(-1). Potential functionality of the obtained beads was evaluated regarding antibacterial activity in suspensions of the standard bacterial strain Escherichia coli 25922. The observed strong bactericidal effects were related to the quick release of Zn2+ that was not affected by AC. Thus, taking into account results of this study, as well as high sorption capacity of alginate hydrogel, efficiency of AC to adsorb malodor and tissue degradation products and positive effects of Zn2+ on wound healing, the obtained composites have shown promising potentials for applications as multifunctional wound dressings.
PB  - Savez hemijskih inženjera, Beograd
T2  - Hemijska industrija
T1  - Novel composite zinc-alginate hydrogels with activated charcoal aimed for potential applications in multifunctional primary wound dressings
EP  - 46
IS  - 1
SP  - 37
VL  - 73
DO  - 10.2298/HEMIND180629003O
ER  - 

@article{
author = "Osmokrović, Andrea and Jančić, Ivan and Janković-Častvan, Ivona and Petrović, Predrag and Milenković, Marina and Obradović, Bojana",
year = "2019",
abstract = "Composites based on Zn-alginate hydrogels in the form of beads were produced by extrusion of a suspension containing 0.5 % w/w of alginate and 20 % w/w of activated charcoal (AC) with the intent to simultaneously release two active agents, Zn2+ and AC particles, in a physiological-like environment. The obtained composite beads were analyzed by FE-SEM and characterized regarding textural parameters, as well as Zn2+ and AC release kinetics in the physiological saline solution. Zn(2+)ions were quickly released reaching the equilibrium concentration within the first hour in the contrary to the release of AC particles, which was described by internal diffusion with the apparent diffusion coefficient of approximately 10(-13) m(2) s(-1). Potential functionality of the obtained beads was evaluated regarding antibacterial activity in suspensions of the standard bacterial strain Escherichia coli 25922. The observed strong bactericidal effects were related to the quick release of Zn2+ that was not affected by AC. Thus, taking into account results of this study, as well as high sorption capacity of alginate hydrogel, efficiency of AC to adsorb malodor and tissue degradation products and positive effects of Zn2+ on wound healing, the obtained composites have shown promising potentials for applications as multifunctional wound dressings.",
publisher = "Savez hemijskih inženjera, Beograd",
journal = "Hemijska industrija",
title = "Novel composite zinc-alginate hydrogels with activated charcoal aimed for potential applications in multifunctional primary wound dressings",
pages = "46-37",
number = "1",
volume = "73",
doi = "10.2298/HEMIND180629003O"
}

Osmokrović, A., Jančić, I., Janković-Častvan, I., Petrović, P., Milenković, M.,& Obradović, B.. (2019). Novel composite zinc-alginate hydrogels with activated charcoal aimed for potential applications in multifunctional primary wound dressings. in Hemijska industrija
Savez hemijskih inženjera, Beograd., 73(1), 37-46.
https://doi.org/10.2298/HEMIND180629003O

Osmokrović A, Jančić I, Janković-Častvan I, Petrović P, Milenković M, Obradović B. Novel composite zinc-alginate hydrogels with activated charcoal aimed for potential applications in multifunctional primary wound dressings. in Hemijska industrija. 2019;73(1):37-46.
doi:10.2298/HEMIND180629003O .

Osmokrović, Andrea, Jančić, Ivan, Janković-Častvan, Ivona, Petrović, Predrag, Milenković, Marina, Obradović, Bojana, "Novel composite zinc-alginate hydrogels with activated charcoal aimed for potential applications in multifunctional primary wound dressings" in Hemijska industrija, 73, no. 1 (2019):37-46,
https://doi.org/10.2298/HEMIND180629003O . .

TY  - THES
AU  - Osmokrović, Andrea
PY  - 2018
UR  - http://eteze.bg.ac.rs/application/showtheses?thesesId=7115
UR  - https://fedorabg.bg.ac.rs/fedora/get/o:20772/bdef:Content/download
UR  - http://vbs.rs/scripts/cobiss?command=DISPLAY&base=70036&RID=51816207
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/4675
AB  - Today, the development of new composite biomaterials for wound treatment application is based on knowledge of different factors which affects the process of wound healing in order to identify solutions for specific problems related to chronic wounds. The aim of this thesis was to develop new composite hydrogels based on alginate and activated charcoal particles (AC) which would show beneficial effects in potential wound treatment application. Specifically, the aim was to develop composites which would during contact with biological fluids, release AC particles in a controlled and efficient manner during a prolonged period of time. Simultaneously, AC particles could be carriers of different active agents while alginate hydrogel would efficiently absorb the fluids. Povidone-iodine (PVP-I) and lignin model compounds (LMC) were chosen as model substances of active agents with antimicrobial activity. The results showed that the composite Ca-alginate beads (CaA/AC) were successfully obtained by extrusion method using mixtures of alginate in concentration range of 0.5-2 % w/w and AC in a concentration range of 1-20 % w/w. The diffusion model was successfully applied on the release kinetics experimental data of all groups of A/AC beads, except in the case of the beads obtained from the mixture with the optimal composition. In this case, the release of AC particles was a result of diffusion as well as erosion and the Korsmeyer-Peppas model was successfully applied. Zn0.5/H composite beads were successfully obtained by extrusion of optimal mixture in the gelling bath that contained Zn ions. The beads based on Ca- and Znalginate obtained from the optimal mixture (Ca- and Zn0.5/H beads) released around 50-60 % of iv the total AC content during a 5 day period, which is a period relevant for chronic wound treatment. These beads were successfully impregnated with the first model substance (PVP-I). The desorption studies established that PVP-I was firmly adsorbed onto AC particles and that the level of desorption into alginate matrix as well as saline solution was below the detection level. The second model substance (LMC) was successfully absorbed and the level of desorption in saline solution was below the detection level as well. Both composite Ca- and Zn-alginate beads impregnated with PVP-I showed high antimicrobial activity in the suspensions of all examined ATCC and clinical strains as well. The antimicrobial effect of adsorbed iodine can be explained by direct contact with the cell membrane of microorganisms which was enough to establish bactericidal effect in case of Gram positive and Gram negative bacteria while the yeast Candida albicans was the most resistant. On the contrary, AC particles with adsorbed LMC did not exhibit antimicrobial effect in any of the examined suspensions which demands a further investigation of adsorption mechanism and antimicrobial activity of LMC as well. Composite Ca- and Zn-alginate hydrogels with incorporated AC particles with adsorbed PVP-I showed potential for wound dressing application because of its high efficiency, availability and broth antimicrobial spectrum of iodine as well as its potential synergistic effect with released cations that exhibit wound healing effect.
AB  - Danas, razvoj novih kompozitnih biomaterijala za medicinsku primenu u terapiji rana bazira se na poznavanju različitih faktora povezanih sa procesom zarastanja i podrazumeva rešavanje specifičnih problema koji prate hronične rane. Cilj ove doktorske disertacije bio je razvoj novih kompozitnih hidrogelova na bazi alginata i čestica aktivnog uglja (AU) koji će u potencijalnoj primeni u tretmanu rana ispoljiti više povoljnih efekata. Naime, cilj je bio razvoj kompozita iz koga se, u dodiru sa biološkim fluidima, čestice AU kontrolisano i efikasno otpuštaju tokom dužeg perioda. Pri tome, čestice AU mogu biti nosači različitih aktivnih agenasa, dok bi alginatni hidrogel efikasno upijao vlagu. Kao model aktivne supstance izabrani su povidon-jod (PVP-I) i lignin model jedinjenja (LMJ) kao agensi koji ispoljavaju antimikrobno dejstvo. Rezultati istraživanje su pokazali da su metodom ekstruzije uspešno dobijene kompozitne Ca-alginatne čestice (CaA/AU) i to iz smeša alginata koncentracija u opsegu od 0,5 - 2 mas. % i AU u opsegu od 1-20 mas. %. Ispitivanjem kinetike otpuštanja AU iz suvih CaA/AU čestica u fiziološkom rastvoru utvrđeno je da je sastav optimalne smeše 0,5 mas. % alginata i 20 mas. % AU. Kinetika otpuštanja AU je uspešno opisana modelom unutrašnje difuzije osim u slučaju čestica dobijenih iz smeše optimalnog sastava gde je otpuštanje uzrokovano i erozijom čestica što je opisano Korsmejer-Pepasovim modelom Ekstruzijom smeše optimalnog sastava u rastvor za geliranje koji je sadržao jone cinka uspešno su dobjene i Zn0,5/V kompozitne čestice. Čestice na bazi Ca- i Zn-alginata dobijene iz smeše optimalnog sastava (Ca- i Zn0,5/V čestice) su u ii fiziološkom rastvoru otpustile oko 50 - 60 % ukupnog sadržaja AU tokom perioda od 5 dana koji je relevantan za tretman hroničnih rana. Ove čestice su zatim uspešno impregnirane prvom model supstancom (PVP-I), a u ispitivanjima desorpcije utvrđeno je da je PVP-I čvrsto vezan za čestice AU i da je stepen desorpcije u okolni alginatni matriks, kao i u fiziološki rastvor zanemarljiv. Na čestice AU je takođe uspešno adsorbovana i druga model supstanca (LMJ) i pokazano je da ne dolazi ni u ovom slučaju ne dolazi do desorpcije u fiziološkom rastvoru. Kompozitne Ca- i Zn-alginatne čestice impregnirane sa PVP-I su pokazale izrazitu antimikrobnu aktivnost u suspenzijama svih ispitivanih, standardnih i kliničkih sojeva mikroorganizama. Antimikrobni efekat adsorbovanog joda se može pripisati direktnom kontaktu sa ćelijskom membranom mikroorganizama što je u slučaju ispitivanih Gram pozitivnih i Gram negativnih bakterija bilo dovoljno za baktericidni efekat, za razliku od gljivice C. albicans koja se pokazala najotpornijom. Sa druge strane čestice AU sa adsorbovanim LMJ nisu pokazale antimikrobne efekte u ispitivanim suspenzijama što zahteva dalja istraživanja mehanizma adsorpcije ovih jedinjenja, kao i mehanizma njihovog antimikrobnog dejstva. Kompozitni Ca- i Zn-alginatni hidrogelovi sa sadržanim česticama AU na kojima je adsorbovan PVP-I su pokazali potencijal za primenu u oblogama za rane zbog efikasnosti, dostupnosti i širokog spektra dejstva joda, kao i potencijalnog sinergističkog dejstva sa otpuštenim katjonima koji imaju pozitivan efekat na zarastanje oštećenog tkiva.
PB  - Univerzitet u Beogradu, Studije pri univerzitetu
T1  - Development of new antimicrobial bioactive composites for medical application in wound treatment
T1  - Razvoj novih antimkrobnih kompozita za medicinsku pripremu u terapiji rana
UR  - https://hdl.handle.net/21.15107/rcub_technorep_4675
ER  - 

@phdthesis{
author = "Osmokrović, Andrea",
year = "2018",
abstract = "Today, the development of new composite biomaterials for wound treatment application is based on knowledge of different factors which affects the process of wound healing in order to identify solutions for specific problems related to chronic wounds. The aim of this thesis was to develop new composite hydrogels based on alginate and activated charcoal particles (AC) which would show beneficial effects in potential wound treatment application. Specifically, the aim was to develop composites which would during contact with biological fluids, release AC particles in a controlled and efficient manner during a prolonged period of time. Simultaneously, AC particles could be carriers of different active agents while alginate hydrogel would efficiently absorb the fluids. Povidone-iodine (PVP-I) and lignin model compounds (LMC) were chosen as model substances of active agents with antimicrobial activity. The results showed that the composite Ca-alginate beads (CaA/AC) were successfully obtained by extrusion method using mixtures of alginate in concentration range of 0.5-2 % w/w and AC in a concentration range of 1-20 % w/w. The diffusion model was successfully applied on the release kinetics experimental data of all groups of A/AC beads, except in the case of the beads obtained from the mixture with the optimal composition. In this case, the release of AC particles was a result of diffusion as well as erosion and the Korsmeyer-Peppas model was successfully applied. Zn0.5/H composite beads were successfully obtained by extrusion of optimal mixture in the gelling bath that contained Zn ions. The beads based on Ca- and Znalginate obtained from the optimal mixture (Ca- and Zn0.5/H beads) released around 50-60 % of iv the total AC content during a 5 day period, which is a period relevant for chronic wound treatment. These beads were successfully impregnated with the first model substance (PVP-I). The desorption studies established that PVP-I was firmly adsorbed onto AC particles and that the level of desorption into alginate matrix as well as saline solution was below the detection level. The second model substance (LMC) was successfully absorbed and the level of desorption in saline solution was below the detection level as well. Both composite Ca- and Zn-alginate beads impregnated with PVP-I showed high antimicrobial activity in the suspensions of all examined ATCC and clinical strains as well. The antimicrobial effect of adsorbed iodine can be explained by direct contact with the cell membrane of microorganisms which was enough to establish bactericidal effect in case of Gram positive and Gram negative bacteria while the yeast Candida albicans was the most resistant. On the contrary, AC particles with adsorbed LMC did not exhibit antimicrobial effect in any of the examined suspensions which demands a further investigation of adsorption mechanism and antimicrobial activity of LMC as well. Composite Ca- and Zn-alginate hydrogels with incorporated AC particles with adsorbed PVP-I showed potential for wound dressing application because of its high efficiency, availability and broth antimicrobial spectrum of iodine as well as its potential synergistic effect with released cations that exhibit wound healing effect., Danas, razvoj novih kompozitnih biomaterijala za medicinsku primenu u terapiji rana bazira se na poznavanju različitih faktora povezanih sa procesom zarastanja i podrazumeva rešavanje specifičnih problema koji prate hronične rane. Cilj ove doktorske disertacije bio je razvoj novih kompozitnih hidrogelova na bazi alginata i čestica aktivnog uglja (AU) koji će u potencijalnoj primeni u tretmanu rana ispoljiti više povoljnih efekata. Naime, cilj je bio razvoj kompozita iz koga se, u dodiru sa biološkim fluidima, čestice AU kontrolisano i efikasno otpuštaju tokom dužeg perioda. Pri tome, čestice AU mogu biti nosači različitih aktivnih agenasa, dok bi alginatni hidrogel efikasno upijao vlagu. Kao model aktivne supstance izabrani su povidon-jod (PVP-I) i lignin model jedinjenja (LMJ) kao agensi koji ispoljavaju antimikrobno dejstvo. Rezultati istraživanje su pokazali da su metodom ekstruzije uspešno dobijene kompozitne Ca-alginatne čestice (CaA/AU) i to iz smeša alginata koncentracija u opsegu od 0,5 - 2 mas. % i AU u opsegu od 1-20 mas. %. Ispitivanjem kinetike otpuštanja AU iz suvih CaA/AU čestica u fiziološkom rastvoru utvrđeno je da je sastav optimalne smeše 0,5 mas. % alginata i 20 mas. % AU. Kinetika otpuštanja AU je uspešno opisana modelom unutrašnje difuzije osim u slučaju čestica dobijenih iz smeše optimalnog sastava gde je otpuštanje uzrokovano i erozijom čestica što je opisano Korsmejer-Pepasovim modelom Ekstruzijom smeše optimalnog sastava u rastvor za geliranje koji je sadržao jone cinka uspešno su dobjene i Zn0,5/V kompozitne čestice. Čestice na bazi Ca- i Zn-alginata dobijene iz smeše optimalnog sastava (Ca- i Zn0,5/V čestice) su u ii fiziološkom rastvoru otpustile oko 50 - 60 % ukupnog sadržaja AU tokom perioda od 5 dana koji je relevantan za tretman hroničnih rana. Ove čestice su zatim uspešno impregnirane prvom model supstancom (PVP-I), a u ispitivanjima desorpcije utvrđeno je da je PVP-I čvrsto vezan za čestice AU i da je stepen desorpcije u okolni alginatni matriks, kao i u fiziološki rastvor zanemarljiv. Na čestice AU je takođe uspešno adsorbovana i druga model supstanca (LMJ) i pokazano je da ne dolazi ni u ovom slučaju ne dolazi do desorpcije u fiziološkom rastvoru. Kompozitne Ca- i Zn-alginatne čestice impregnirane sa PVP-I su pokazale izrazitu antimikrobnu aktivnost u suspenzijama svih ispitivanih, standardnih i kliničkih sojeva mikroorganizama. Antimikrobni efekat adsorbovanog joda se može pripisati direktnom kontaktu sa ćelijskom membranom mikroorganizama što je u slučaju ispitivanih Gram pozitivnih i Gram negativnih bakterija bilo dovoljno za baktericidni efekat, za razliku od gljivice C. albicans koja se pokazala najotpornijom. Sa druge strane čestice AU sa adsorbovanim LMJ nisu pokazale antimikrobne efekte u ispitivanim suspenzijama što zahteva dalja istraživanja mehanizma adsorpcije ovih jedinjenja, kao i mehanizma njihovog antimikrobnog dejstva. Kompozitni Ca- i Zn-alginatni hidrogelovi sa sadržanim česticama AU na kojima je adsorbovan PVP-I su pokazali potencijal za primenu u oblogama za rane zbog efikasnosti, dostupnosti i širokog spektra dejstva joda, kao i potencijalnog sinergističkog dejstva sa otpuštenim katjonima koji imaju pozitivan efekat na zarastanje oštećenog tkiva.",
publisher = "Univerzitet u Beogradu, Studije pri univerzitetu",
title = "Development of new antimicrobial bioactive composites for medical application in wound treatment, Razvoj novih antimkrobnih kompozita za medicinsku pripremu u terapiji rana",
url = "https://hdl.handle.net/21.15107/rcub_technorep_4675"
}

Osmokrović, A.. (2018). Development of new antimicrobial bioactive composites for medical application in wound treatment. 
Univerzitet u Beogradu, Studije pri univerzitetu..
https://hdl.handle.net/21.15107/rcub_technorep_4675

Osmokrović A. Development of new antimicrobial bioactive composites for medical application in wound treatment. 2018;.
https://hdl.handle.net/21.15107/rcub_technorep_4675 .

Osmokrović, Andrea, "Development of new antimicrobial bioactive composites for medical application in wound treatment" (2018),
https://hdl.handle.net/21.15107/rcub_technorep_4675 .

TY  - JOUR
AU  - Osmokrović, Andrea
AU  - Jančić, Ivan
AU  - Vunduk, Jovana
AU  - Petrović, Predrag
AU  - Milenković, Marina
AU  - Obradović, Bojana
PY  - 2018
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/3859
AB  - New composites based on Ca-alginate hydrogels were produced that release activated charcoal (AC) particles with adsorbed povidone iodine (PVP-I) as a model antimicrobial substance in a physiological-like environment. Composite beads with different alginate (0.5-1.5% w/w) and AC (1-20% w/w) concentrations were analyzed by FE-SEM and characterized regarding textural parameters, swelling, and AC release kinetics. PVP-I was easily adsorbed onto AC particles within the optimized beads (0.5% w/w alginate, 20% w/w AC) as indicated by UV-vis spectroscopy, EDX and FT-IR analyses. The obtained beads have shown strong bactericidal effects against two standard bacterial strains (Staphylococcus aureus and Pseudomonas aeruginosa) and clinical multi-resistant wound isolates (MRSA, Escherichia coli, Pseudomonas aeruginosa, Enterococcus faecalis and Proteus mirabilis) and, at the same time, exhibited negligible PVP-I desorption in physiological saline solution. Thus, the obtained composites could provide utilization of potent antiseptics such as iodine, in wound dressings, without the concern of systemic absorption.
PB  - Elsevier Sci Ltd, Oxford
T2  - Carbohydrate Polymers
T1  - Achieving high antimicrobial activity: Composite alginate hydrogel beads releasing activated charcoal with an immobilized active agent
EP  - 288
SP  - 279
VL  - 196
DO  - 10.1016/j.carbpol.2018.05.045
ER  - 

@article{
author = "Osmokrović, Andrea and Jančić, Ivan and Vunduk, Jovana and Petrović, Predrag and Milenković, Marina and Obradović, Bojana",
year = "2018",
abstract = "New composites based on Ca-alginate hydrogels were produced that release activated charcoal (AC) particles with adsorbed povidone iodine (PVP-I) as a model antimicrobial substance in a physiological-like environment. Composite beads with different alginate (0.5-1.5% w/w) and AC (1-20% w/w) concentrations were analyzed by FE-SEM and characterized regarding textural parameters, swelling, and AC release kinetics. PVP-I was easily adsorbed onto AC particles within the optimized beads (0.5% w/w alginate, 20% w/w AC) as indicated by UV-vis spectroscopy, EDX and FT-IR analyses. The obtained beads have shown strong bactericidal effects against two standard bacterial strains (Staphylococcus aureus and Pseudomonas aeruginosa) and clinical multi-resistant wound isolates (MRSA, Escherichia coli, Pseudomonas aeruginosa, Enterococcus faecalis and Proteus mirabilis) and, at the same time, exhibited negligible PVP-I desorption in physiological saline solution. Thus, the obtained composites could provide utilization of potent antiseptics such as iodine, in wound dressings, without the concern of systemic absorption.",
publisher = "Elsevier Sci Ltd, Oxford",
journal = "Carbohydrate Polymers",
title = "Achieving high antimicrobial activity: Composite alginate hydrogel beads releasing activated charcoal with an immobilized active agent",
pages = "288-279",
volume = "196",
doi = "10.1016/j.carbpol.2018.05.045"
}

Osmokrović, A., Jančić, I., Vunduk, J., Petrović, P., Milenković, M.,& Obradović, B.. (2018). Achieving high antimicrobial activity: Composite alginate hydrogel beads releasing activated charcoal with an immobilized active agent. in Carbohydrate Polymers
Elsevier Sci Ltd, Oxford., 196, 279-288.
https://doi.org/10.1016/j.carbpol.2018.05.045

Osmokrović A, Jančić I, Vunduk J, Petrović P, Milenković M, Obradović B. Achieving high antimicrobial activity: Composite alginate hydrogel beads releasing activated charcoal with an immobilized active agent. in Carbohydrate Polymers. 2018;196:279-288.
doi:10.1016/j.carbpol.2018.05.045 .

Osmokrović, Andrea, Jančić, Ivan, Vunduk, Jovana, Petrović, Predrag, Milenković, Marina, Obradović, Bojana, "Achieving high antimicrobial activity: Composite alginate hydrogel beads releasing activated charcoal with an immobilized active agent" in Carbohydrate Polymers, 196 (2018):279-288,
https://doi.org/10.1016/j.carbpol.2018.05.045 . .

TY  - JOUR
AU  - Obradović, Bojana
AU  - Osmokrović, Andrea
AU  - Bugarski, Branko
AU  - Bugarski, Diana
AU  - Vunjak-Novaković, Gordana
PY  - 2007
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/1018
AB  - Alginate was shown to be a suitable support for entrapment and cultivation of chondrocytes and bone marrow stromal cells, which under appropriate in vitro conditions synthesized cartilaginous components. The main limitation in these cultures may be low rates of mass transport through the alginate matrix governed by diffusion. In this study, we have designed and utilized a bioreactor system based on a packed bed of alginate beads with immobilized chondrogenic cells. Continuous medium perfusion provided convective mass transport through the packed bed, while small diameters of beads (2.5 mm and down to 500 mu m) ensured short diffusion distances to the immobilized cells. During up to 5 weeks of cultivation, the cells synthesized extracellular matrix components merging beads together and indicating potentials of this system for precise regulation of the cellular microenvironment in cartilage tissue engineering.
PB  - 8th Conference of the Yugoslav Materials Research Society
T2  - Materials Science Forum
T1  - Alginate microbeads as a cell support for cartilage tissue engineering: Bioreactor studies
EP  - 422
SP  - 417
VL  - 555
DO  - 10.4028/0-87849-441-3.417
ER  - 

@article{
author = "Obradović, Bojana and Osmokrović, Andrea and Bugarski, Branko and Bugarski, Diana and Vunjak-Novaković, Gordana",
year = "2007",
abstract = "Alginate was shown to be a suitable support for entrapment and cultivation of chondrocytes and bone marrow stromal cells, which under appropriate in vitro conditions synthesized cartilaginous components. The main limitation in these cultures may be low rates of mass transport through the alginate matrix governed by diffusion. In this study, we have designed and utilized a bioreactor system based on a packed bed of alginate beads with immobilized chondrogenic cells. Continuous medium perfusion provided convective mass transport through the packed bed, while small diameters of beads (2.5 mm and down to 500 mu m) ensured short diffusion distances to the immobilized cells. During up to 5 weeks of cultivation, the cells synthesized extracellular matrix components merging beads together and indicating potentials of this system for precise regulation of the cellular microenvironment in cartilage tissue engineering.",
publisher = "8th Conference of the Yugoslav Materials Research Society",
journal = "Materials Science Forum",
title = "Alginate microbeads as a cell support for cartilage tissue engineering: Bioreactor studies",
pages = "422-417",
volume = "555",
doi = "10.4028/0-87849-441-3.417"
}

Obradović, B., Osmokrović, A., Bugarski, B., Bugarski, D.,& Vunjak-Novaković, G.. (2007). Alginate microbeads as a cell support for cartilage tissue engineering: Bioreactor studies. in Materials Science Forum
8th Conference of the Yugoslav Materials Research Society., 555, 417-422.
https://doi.org/10.4028/0-87849-441-3.417

Obradović B, Osmokrović A, Bugarski B, Bugarski D, Vunjak-Novaković G. Alginate microbeads as a cell support for cartilage tissue engineering: Bioreactor studies. in Materials Science Forum. 2007;555:417-422.
doi:10.4028/0-87849-441-3.417 .

Obradović, Bojana, Osmokrović, Andrea, Bugarski, Branko, Bugarski, Diana, Vunjak-Novaković, Gordana, "Alginate microbeads as a cell support for cartilage tissue engineering: Bioreactor studies" in Materials Science Forum, 555 (2007):417-422,
https://doi.org/10.4028/0-87849-441-3.417 . .

TY  - JOUR
AU  - Osmokrović, Andrea
AU  - Obradović, Bojana
AU  - Bugarski, Diana
AU  - Bugarski, Branko
AU  - Vunjak-Novaković, Gordana
PY  - 2006
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/897
AB  - Efficient transport of regulatory molecules is one of the main requirements for directing the growth and differentiation of bone marrow stromal cells (BMSC). We have designed and utilized a packed bed bioreactor system for cultivation of murine BMSC immobilized in alginate micro beads produced by electrostatic droplet generation. Continuous medium perfusion at velocities that are physiological for cartilage and bone (~ 100 m/s) provided convective mass transport through the packed bed while the small bead diameter (~ 500µm) ensured short diffusion distances to the immobilized cells. Over 5 weeks of cultivation, the cells remained viable at a constant density whereas the alginate micro beads retained size and spherical shape. Cell density used in this study ( 5 x 106 cells/ml) was found to be too low to result in cartilage tissue formation. However, in several cases, loosely bonded groups of beads and merged beads without visible boundaries were observed, implying that higher cell densities may lead to development of a continuous extra cellular matrix. This study indicates the potentials of the packed bed bioreactor system in conjunction with alginate micro beads as cell carriers, for precise regulation of the cellular microenvironment in cartilage tissue engineering.
AB  - Efikasan prenos regulatornih molekula je jedan od osnovnih zahteva u kulturama ćelija kostne srži radi podsticaja ćelija na diferencijaciju u željenom pravcu. U ovom radu je razvijen i primenjen bioreaktorski sistem sa pakovanim slojem za kultivaciju ćelija kostne srži miša imobilisanih u alginatne mikročestice proizvedene tehnikom elektrostatičke ekstruzije. Kontinualnim protokom medijuma pri fiziološkim brzinama strujanja (~ 100 µm/s) obezbeđen je konvektivni prenos mase u pakovanom sloju dok su malim prečnikom čestica (~ 500µm) ostvarena mala rastojanja za difuzioni prenos mase do imobilisanih ćelija. U toku 5 nedelja kultivacije, ćelije su ostale vijabilne pri konstantnoj ćelijskoj gustini dok su alginatne mikročestice zadržale veličinu i sferičan oblik. Pokazalo se da je koncentracija ćelija korišćena u ovom radu (5 x 106 cells/ml) suviše niska za formiranje tkiva hrskavice. Međutim, u nekoliko slučajeva nađene su slabo vezane grupe mikročestica, a ponegde i potpuno stopljene mikročestica bez primetnih granica što navodi na pretpostavku da bi pri višim koncentracijama ćelija bio moguć razvoj kontinualnog ekstracelularnog matriksa. Rezultati dobijeni u ovom radu ukazuju na mogućnost primene bioreaktorskog sistema sa pakovanim slojem alginatnih mikročestica, nosača ćelija, za preciznu regulaciju mikro-okoline ćelija u inženjerstvu tkiva hrskavice.
PB  - University of Belgrade - Faculty of Mechanical Engineering, Belgrade
T2  - FME Transactions
T1  - Development of a packed bed bioreactor for cartilage tissue engineering
T1  - Razvoj bioreaktorskog sistema sa pakovanim slojem za primenu u inženjerstvu tkiva hrskavice
EP  - 70
IS  - 2
SP  - 65
VL  - 34
UR  - https://hdl.handle.net/21.15107/rcub_technorep_897
ER  - 

@article{
author = "Osmokrović, Andrea and Obradović, Bojana and Bugarski, Diana and Bugarski, Branko and Vunjak-Novaković, Gordana",
year = "2006",
abstract = "Efficient transport of regulatory molecules is one of the main requirements for directing the growth and differentiation of bone marrow stromal cells (BMSC). We have designed and utilized a packed bed bioreactor system for cultivation of murine BMSC immobilized in alginate micro beads produced by electrostatic droplet generation. Continuous medium perfusion at velocities that are physiological for cartilage and bone (~ 100 m/s) provided convective mass transport through the packed bed while the small bead diameter (~ 500µm) ensured short diffusion distances to the immobilized cells. Over 5 weeks of cultivation, the cells remained viable at a constant density whereas the alginate micro beads retained size and spherical shape. Cell density used in this study ( 5 x 106 cells/ml) was found to be too low to result in cartilage tissue formation. However, in several cases, loosely bonded groups of beads and merged beads without visible boundaries were observed, implying that higher cell densities may lead to development of a continuous extra cellular matrix. This study indicates the potentials of the packed bed bioreactor system in conjunction with alginate micro beads as cell carriers, for precise regulation of the cellular microenvironment in cartilage tissue engineering., Efikasan prenos regulatornih molekula je jedan od osnovnih zahteva u kulturama ćelija kostne srži radi podsticaja ćelija na diferencijaciju u željenom pravcu. U ovom radu je razvijen i primenjen bioreaktorski sistem sa pakovanim slojem za kultivaciju ćelija kostne srži miša imobilisanih u alginatne mikročestice proizvedene tehnikom elektrostatičke ekstruzije. Kontinualnim protokom medijuma pri fiziološkim brzinama strujanja (~ 100 µm/s) obezbeđen je konvektivni prenos mase u pakovanom sloju dok su malim prečnikom čestica (~ 500µm) ostvarena mala rastojanja za difuzioni prenos mase do imobilisanih ćelija. U toku 5 nedelja kultivacije, ćelije su ostale vijabilne pri konstantnoj ćelijskoj gustini dok su alginatne mikročestice zadržale veličinu i sferičan oblik. Pokazalo se da je koncentracija ćelija korišćena u ovom radu (5 x 106 cells/ml) suviše niska za formiranje tkiva hrskavice. Međutim, u nekoliko slučajeva nađene su slabo vezane grupe mikročestica, a ponegde i potpuno stopljene mikročestica bez primetnih granica što navodi na pretpostavku da bi pri višim koncentracijama ćelija bio moguć razvoj kontinualnog ekstracelularnog matriksa. Rezultati dobijeni u ovom radu ukazuju na mogućnost primene bioreaktorskog sistema sa pakovanim slojem alginatnih mikročestica, nosača ćelija, za preciznu regulaciju mikro-okoline ćelija u inženjerstvu tkiva hrskavice.",
publisher = "University of Belgrade - Faculty of Mechanical Engineering, Belgrade",
journal = "FME Transactions",
title = "Development of a packed bed bioreactor for cartilage tissue engineering, Razvoj bioreaktorskog sistema sa pakovanim slojem za primenu u inženjerstvu tkiva hrskavice",
pages = "70-65",
number = "2",
volume = "34",
url = "https://hdl.handle.net/21.15107/rcub_technorep_897"
}

Osmokrović, A., Obradović, B., Bugarski, D., Bugarski, B.,& Vunjak-Novaković, G.. (2006). Development of a packed bed bioreactor for cartilage tissue engineering. in FME Transactions
University of Belgrade - Faculty of Mechanical Engineering, Belgrade., 34(2), 65-70.
https://hdl.handle.net/21.15107/rcub_technorep_897

Osmokrović A, Obradović B, Bugarski D, Bugarski B, Vunjak-Novaković G. Development of a packed bed bioreactor for cartilage tissue engineering. in FME Transactions. 2006;34(2):65-70.
https://hdl.handle.net/21.15107/rcub_technorep_897 .

Osmokrović, Andrea, Obradović, Bojana, Bugarski, Diana, Bugarski, Branko, Vunjak-Novaković, Gordana, "Development of a packed bed bioreactor for cartilage tissue engineering" in FME Transactions, 34, no. 2 (2006):65-70,
https://hdl.handle.net/21.15107/rcub_technorep_897 .