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In vivo study of 2D PHA matrices of different chemical compositions: tissue reactions and biodegradations [Text] / T. G. Volova [et al.] // Mater. Sci. Technol. - 2014. - Vol. 30, Is. 5. - P549-557, DOI 10.1179/1743284713Y.0000000470. - Cited References: 31. - The study was supported by the project initiated by the Government of the Russian Federation (decree no. 220 of 09.04.2010) for governmental support of scientific research conducted under the guidance of leading scientists at Russian institutions of higher learning (agreement no. 11.G34.31.0013) and the Program of Integrated Research of the Presidium of SB RAS (project no. 96). . - ISSN 0267-0836. - ISSN 1743-2847

РУБ Materials Science, Multidisciplinary + Metallurgy & Metallurgical Engineering
Рубрики:
BIOMEDICAL INVESTIGATIONS
   POLYHYDROXYALKANOATES
   VITRO
   BIOCOMPATIBILITY
   DEGRADATION
   SCAFFOLDS
   CONDUITS
   POLYMERS
Кл.слова (ненормированные):
PHA -- Polyhydroxyalkanoates -- Biocompatibility -- Implantation -- Tissue response -- Biodegradation
Аннотация: Matrices based on resorbable polyhydroxyalkanoates (PHAs) of five types {a homopolymer of 3-hydroxybutyric acid, copolymers of 3-hydroxybutyric and 4-hydroxybutyric acids [P(3HB/4HB)], 3-hydroxybutyric and 3-hydroxyvaleric acids [P(3HB/3HV)], 3-hydroxybutyric and 3-hydroxyhexanoic acids [P(3HB/3HHx)]} have been constructed and characterised. No significant differences have been found in tissue response to implantation of these PHAs. Non-coarse fibrous capsules that formed around PHA matrices reached their maximum thickness (60-90 mm) 90 days after implantation; by day 180, the average thickness of the capsules had decreased by 1.5- 2.3 times. The number of foreign body giant cells, resorbing PHAs, remained high. In vivo biodegradation behaviour of polymer matrices is related to the chemical composition of the PHA. Matrices prepared from copolymers P(3HB/4HB) and P(3HB/3HHx) exhibited the fastest degradation rates. P3HB/3HV matrices were degraded more slowly, and P3HB matrices were the most durable. In the PHA matrices that were degraded more slowly, giant cell reaction developed later.

WOS
Держатели документа:
[Volova, T. G.
Shishatskaya, E. I.
Nikolaeva, E. D.] Inst Biophys SB RAS, Krasnoyarsk 660036, Russia
[Volova, T. G.
Shishatskaya, E. I.
Nikolaeva, E. D.] Siberian Fed Univ, Inst Modern Biol & Biotechnol, Krasnoyarsk 660041, Russia
[Sinskey, A. J.] MIT, Dept Biol, Cambridge, MA 02139 USA
[Sinskey, A. J.] MIT, Engn Syst Div, Cambridge, MA 02139 USA
[Sinskey, A. J.] MIT, Hlth Sci Technol Div, Cambridge, MA 02139 USA
ИБФ СО РАН : 660036, Красноярск, Академгородок, д. 50, стр. 50

Доп.точки доступа:
Volova, T.G.; Shishatskaya, E.I.; Nikolaeva, E.D.; Sinskey, A.J.; Government of the Russian Federation

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Production of Porous Films Based on Biodegradable Polyesters by the Casting Solution Technique Using a Co-Soluble Porogen (Camphor) / A. N. Boyandin, L. M. Dvoinina, A. G. Sukovatyi, A. A. Sukhanova // Polymers. - 2020. - Vol. 12, Is. 9. - Ст. 1950, DOI 10.3390/polym12091950. - Cited References:42. - This work was carried out by the team of the scientific laboratory "Smart Materials and Structures" within the state assignment of the Ministry of Science and Higher Education of the Russian Federation for the implementation of the project "Development of multifunctional smart materials and structures based on modified polymer composite materials capable to function in extreme conditions" (Project No. FEFE-2020-0015). . - ISSN 2073-4360

РУБ Polymer Science
Рубрики:
TISSUE ENGINEERING APPLICATIONS
   SCAFFOLDS
   FABRICATION
   POLYMERS
Кл.слова (ненормированные):
polyhydroxybutyrate -- polycaprolactone -- biopolymers -- polyesters -- porosity -- co-soluble porogen -- camphor
Аннотация: Porous films have been prepared from degradable polymers-poly-3-hydroxybutyrate (PHB), poly-epsilon-caprolactone (PCL) and a blend of these polymers (1:3)-by adding porogen (camphor) to the polymer solution at 10%, 30% or 50% of the total mass of the polymer and porogen, and leaching it out afterwards. After the rinse, camphor content in films decreased to about 0.025%. The structure, physical/mechanical and biological properties of the films were investigated as dependent on their composition and porosity, which varied depending on the amount of camphor added. The surface of PHB films was porous, the PCL films were relatively smooth, and the PHB/PCL films had an intermediate structure. The addition of camphor increased the thickness (from 35 to 45 mu m, from 40 to 80 mu m and from 20 to 65 mu m for PHB, PCL and PHB/PCL, respectively) and porosity (from 4.2(+/- 3.6)% to 50.0(+/- 12.8)%, from 6.4(+/- 5.5)% to 54.5(+/- 6.0)% and from 4.9(+/- 4.8)% to 51.5(+/- 5.8)%, respectively) of the films. The introduction (and removal) of 10% camphor into the PHB and PHB/PCL films led to an approximately twofold increase in the polar component of the free surface energy (from 5.4 +/- 0.38 to 11.8 +/- 1.33 and from 2.7 +/- 0.13 to 5.2 +/- 0.09 mN/m, respectively) but in other cases, on the contrary, a decrease in this indicator was registered. The increase of camphor addition from 0% to 50% gradually impaired mechanical properties of the films: so, Young's modulus decreased from 3.6 to 1.8 GPa, from 0.30 to 0.12 GPa and from 0.50 to 0.20 GPa for PHB, PCL and PHB/PCL, respectively. At the same time, the water vapor transmission rate considerably increased from 197.37 +/- 23.62 to 934.03 +/- 114.34 g/m(2)/d for PHB films; from 1027.99 +/- 154.10 to 7014.62 +/- 280.81 g/m(2)/d for PCL films; and from 715.47 +/- 50.08 to 4239.09 +/- 275.54 g/m(2)/d for PHB/PCL films. Results of biocompatibility testing in the culture of NIH 3T3 mouse fibroblast cells showed that for the most of experimental samples cell adhesion and proliferation were comparable or superior to the corresponding parameters on the initial nonporous films. The best results were obtained for PHB films where at Day 3 of the experiment the registered cell density for experimental samples arrived at 2.66(+/- 0.26) x 10(5) cells/cm(2) versus 1.29(+/- 0.33) x 10(5) cells/cm(2) in the control. So, the proposed method can be used to construct highly porous cell scaffolds for cellular engineering.

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Держатели документа:
Reshetnev Siberian State Univ Sci & Technol, 31 Krasnoyarsky Rabochy Av, Krasnoyarsk 660037, Russia.
Russian Acad Sci, Fed Res Ctr, Inst Biophys, Siberian Branch,Krasnoyarsk Sci Ctr SB RAS, 50-50 Akademgorodok, Krasnoyarsk 660036, Russia.
Siberian Fed Univ, 79 Svobodnyi Av, Krasnoyarsk 660041, Russia.

Доп.точки доступа:
Boyandin, Anatoly Nikolayevich; Dvoinina, Ljublyana Mikhailovna; Sukovatyi, Aleksey Grigorievich; Sukhanova, Anna Alekseevna; A., Aleksey; Boyandin, Anatoly; Ministry of Science and Higher Education of the Russian Federation [FEFE-2020-0015]

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