Avascular necrosis of femoral head (ANFH) is a disease that is characterized by structural changes and collapse of the femoral head. The exact causes of ANFH are not yet clear, but small advances in etiopathogenesis, diagnosis and treatment are achieved. In this study, ß-tricalcium phosphate/poly lactic-co-glycolic acid composite scaffolds incorporated with bisperoxovanadium [bpV (pic)] (bPTCP) was fabricated through cryogenic 3D printing and were utilized to treat rat models with early ANFH, which were constructed by alcohol gavage for 6 months. The physical properties of bPTCP scaffolds and in vitro bpV (pic) release from the scaffolds were assessed. It was found that the sustained release of bpV (pic) promoted osteogenic differentiation and inhibited adipose differentiation of bone marrow-derived mesenchymal stem cells. Micro-computed tomography scanning and histological analysis confirmed that the progression of ANFH in rats was notably alleviated in bPTCP scaffolds. Moreover, it was noted that the bPTCP scaffolds inhibited phosphatase and tensin homolog and activated the mechanistic target of rapamycin signaling. The autophagy induced by bPTCP scaffolds could partially prevent apoptosis, promote osteogenesis and angiogenesis, and hence eventually prevent the progression of ANFH, suggesting that the bPTCP scaffold are promising candidate to treat ANFH.
Soft
hydrogel materials have attracted increasing attention from
scientists due to the programmability of nucleic acids. DNA hydrogels
are increasingly used in biomedicine due to their natural biocompatibility
and degradation properties. Moreover, the addition of various molecules
to these hydrogels can enhance the superiority and utility of DNA
hydrogels. Therefore, the present study aimed to provide a timely
overview of historical perspectives and recent research advances in
DNA hydrogels and their applications in bioengineering and stimulus-responsive
systems. The state-of-the-art problems and future prospects of DNA
hydrogels were also discussed.
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