In Vivo Bone Tissue Engineering Strategies: Advances and Prospects

Tsiklin, Ilya L.; Shabunin, Aleksey V.; Колсанов, А.В.; Волова, Л. Т.

doi:10.3390/polym14153222

Cited by 26 publications

(21 citation statements)

References 262 publications

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“…Beyond osteogenesis, angiogenesis is also crucial for the viability of bone scaffolds. 38 Blood vessels inside the bone play a crucial role in bone remodeling and regeneration via providing bone precursor cells. Compared to b-TCP scaffolds, SZP scaffolds were found to lead to promoted proliferation, migration and tube formation of HUVECs, as well as mRNA expression of angiogenic factors bFGF, eNOS and HIF-1a (Fig.…”

Section: Discussionmentioning

confidence: 99%

3D printed strontium–zinc-phosphate bioceramic scaffolds with multiple biological functions for bone tissue regeneration

et al. 2023

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Section: Discussionmentioning

confidence: 99%

3D printed strontium–zinc-phosphate bioceramic scaffolds with multiple biological functions for bone tissue regeneration

et al. 2023

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“…The composite membranes, in the present research, are loaded with silica nanoparticles to promote their integration with human tissues by inducing scaffold bioactivity and osteoconductivity [ 6 ] and by facilitating surface formation of calcium phosphate deposits [ 7 ]. Vascularization is a key event for bone remodeling and regeneration to occur, since the skeleton depends on the vascular system to maintain its metabolic balance [ 8 , 9 ]. It is widely accepted that vascular development always precedes osteogenesis [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

Doped Electrospinned Material-Guides High Efficiency Regional Bone Regeneration

et al. 2023

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The main target of bone tissue engineering is to design biomaterials that support bone regeneration and vascularization. Nanostructured membranes of (MMA)1-co-(HEMA)1/(MA)3-co-(HEA)2 loaded with 5% wt of SiO2-nanoparticles (Si-M) were doped with zinc (Zn-Si-M) or doxycycline (Dox-Si-M). Critical bone defects were effectuated on six New Zealand-bred rabbit skulls and then they were covered with the membranes. After six weeks, a histological analysis (toluidine blue technique) was employed to determine bone cell population as osteoblasts, osteoclasts, osteocytes, M1 and M2 macrophages and vasculature. Membranes covering the bone defect determined a higher count of bone cells and blood vessels than in the sham group at the top regions of the defect. Pro-inflammatory M1 appeared in a higher number in the top regions than in the bottom regions, when Si-M and Dox-Si-M were used. Samples treated with Dox-Si-M showed a higher amount of anti-inflammatory and pro-regenerative M2 macrophages. The M1/M2 ratio obtained its lowest value in the absence of membranes. On the top regions, osteoblasts were more abundant when using Si-M and Zn-Si-M. Osteoclasts were equally distributed at the central and lateral regions. The sham group and samples treated with Zn-Si-M attained a higher number of osteocytes at the top regions. A preferential osteoconductive, osteoinductive and angiogenic clinical environment was created in the vicinity of the membrane placed on critical bone defects.

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“…18 Surgical prefabrication that involves placing a fully functional vessel into a scaffold to vascularize it via overgrowing and sprouting seems to be one of the most promising methods for the stimulation of angiogenesis. [19][20][21][22][23][24][25][26][27] Another strategy involves the use of the proangiogenic properties of adipose-derived stem cells (ASCs), which have been proven to effectively stimulate angiogenesis. [28][29][30] The use of both methods at the same time exerts a synergistic effect, as demonstrated in our previous research, in which a poly-ε-caprolactone (PCL) scaffold was surgically prefabricated (vascular pedicle was inserted inside the scaffold) and seeded with ASCs.…”

Section: Introductionmentioning

confidence: 99%

Effect of adipose-derived stem cells seeding and surgical prefabrication on composite scaffold vascularization

Debski,

Siennicka,

Idaszek

et al. 2023

J Biomater Appl

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The study aimed to evaluate an angiogenic effect of adipose-derived stem cells (ASCs) seeding and surgical prefabrication (placing a vascular pedicle inside the scaffold) on developed composite scaffolds made of poly-ε-caprolactone (PCL), β-tricalcium phosphate (β-TCP), and poly (lactic-co-glycolic acid) (PLGA) (PCL+β-TCP+PLGA). Moreover, we aimed to compare our data with previously tested PCL scaffolds to assess whether the new material has better angiogenic properties. The study included 18 inbred male WAG rats. There were three scaffold groups (six animals each): with non-seeded PCL+β-TCP+PLGA scaffolds, with PCL+β-TCP+PLGA scaffolds seeded with ASCs and with PCL+β-TCP+PLGA scaffolds seeded with ASCs and osteogenic-induced. Each rat was implanted with two scaffolds in the inguinal region (one prefabricated and one non-prefabricated). After 2 months from implantation, the scaffolds were explanted, and vessel density was determined by histopathological examination. Prefabricated ASC-seeded PCL+β-TCP+PLGA scaffolds promoted greater vessel formation than non-seeded scaffolds (19.73 ± 5.46 vs 12.54 ± 0.81; p = .006) and those seeded with osteogenic-induced ASCs (19.73 ± 5.46 vs 11.87±2.21; p = .004). The developed composite scaffold promotes vessel formation more effectively than the previously described PCL scaffold.

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In Vivo Bone Tissue Engineering Strategies: Advances and Prospects

Cited by 26 publications

References 262 publications

3D printed strontium–zinc-phosphate bioceramic scaffolds with multiple biological functions for bone tissue regeneration

3D printed strontium–zinc-phosphate bioceramic scaffolds with multiple biological functions for bone tissue regeneration

Doped Electrospinned Material-Guides High Efficiency Regional Bone Regeneration

Effect of adipose-derived stem cells seeding and surgical prefabrication on composite scaffold vascularization

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