| Issue |
Section |
Title |
File |
| Vol 8, No 3 (2013) |
Articles |
Development of «activated» osteoplastic material containing plasmid DNA with vegf-a165 gene |
(Rus)
|
| Vol 9, No 4 (2014) |
Articles |
Features of multipotent mesenchymal stromal cells derived from various intraoral sources |
(Rus)
|
| Vol 8, No 3 (2013) |
Articles |
Efficiency of autofibroblasts in surgical treatment of parodontitis |
(Rus)
|
| Vol 11, No 4 (2016) |
Articles |
Biological activity comparative evaluation of the gene-activated bone substitutes made of octacalcium PHOSPHATE AND PLASMID DNA CARRYING VEGF AND SDF GENES: PART 1 - IN VITRO |
(Rus)
|
| Vol 11, No 1 (2016) |
Articles |
Histological features of the lipograft with platelet-rich plasma after subcutaneous transplantation in vivo |
(Rus)
|
| Vol 12, No 4 (2017) |
Articles |
Biological activity comparative evaluation of the gene-activated bone substitutes made of octacalcium phosphate and plasmid DNA carrying VEGF and SDF genes: part 2 - in vivo |
(Rus)
|
| Vol 12, No 2 (2017) |
Articles |
Effects of autologous gingiva-derived cells with myogenic potential on regeneration of skeletal muscle |
(Rus)
|
| Vol 13, No 4 (2018) |
Articles |
Evaluation of the effect of tissue-engineered constructs based on octacalcium phosphate and gingival stromal cells on dental implants osteointegration |
(Rus)
|
| Vol 13, No 1 (2018) |
Articles |
Combined use of plasmid drug pCMV-VEGFA and autodermoplasty for stimulation of skin defects healing in the experiment |
(Rus)
|
| Vol 16, No 2 (2021) |
Articles |
Chondrogenesis induced in vivo by gene-activated hydrogel based on hyaluronic acid and plasmid DNA encoding VEGF |
|
| Vol 16, No 3 (2021) |
Articles |
Non-viral gene transfer in hydrogel matrices with octacalcium phosphate microgranules in optimization of reparative osteogenesis |
|
| Vol 15, No 3 (2020) |
Articles |
Complex assessment of a plasmid DNA mechanism of action in development of gene-activated materials |
(Rus)
|
| Vol 15, No 2 (2020) |
Articles |
Regenerative histogenesis in a skeletal muscle defect with local implantation of gene-activated hydrogel based on hyaluronic acid in the experiment |
(Rus)
|
| Vol 15, No 1 (2020) |
Articles |
Bioresorption and biodegradation of the 3D-printed gene-activated bone substitutes based on octacalcium phosphate |
(Rus)
|
| Vol 14, No 1 (2019) |
Articles |
Gene-activated hydrogels in regenerative medicine |
(Rus)
|
| Vol 14, No 2 (2019) |
Articles |
EVALUATION OF BIOCOMPATIBILITY AND EFFICIENCY OF PLASMID DNA DELIVERY BY GENE- ACTIVATED HYDROGELS IN VITRO |
(Rus)
|
