Biomimetic mineralization of platelet lysate/oxidized dextran cryogel as a macroporous 3D composite scaffold for bone repair

Şeker, Şükran; Aral, Dilara; Elçin, Ayşe Eser; Yaşar Murat, Elçin

doi:10.1088/1748-605x/ad1c9a

Biomed. Mater.

2024

DOI: 10.1088/1748-605x/ad1c9a

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Biomimetic mineralization of platelet lysate/oxidized dextran cryogel as a macroporous 3D composite scaffold for bone repair

Şükran Şeker,

Dilara Aral,

Ayşe Eser Elçin

et al.

Abstract: Scaffold development approaches using autologous sources for tissue repair are of great importance in obtaining bio-active/-compatible constructs. Platelet-rich plasma (PRP) containing various growth factors and platelet lysate (PL) derived from PRP are autologous products that have the potential to accelerate the tissue repair response by inducing a transient inflammatory event. Considering the regenerative capacity of PRP and PL, PRP/PL-based scaffolds are thought to hold great promise in tissue engineering … Show more

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Cryogels Composites: Recent Improvement in Bone Tissue Engineering

Castanheira,

Rodrigues,

Mano

2024

Nano Lett.

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Autogenous bone grafts have long been considered the optimal choice for bone reconstruction due to their excellent biocompatibility and osteogenic properties. However, their limited availability and associated donor site morbidity have led to exploration of alternative bone substitutes. Cryogels, with their interconnected porosity, shape recovery, and enhanced mass transport capabilities, have emerged as a promising polymer-based solution. By incorporating bioactive glasses and nanofillers, cryogel composites offer bioactivity, costefficiency, and easy cell integration. This approach not only enhances bone regeneration but also underscores the broader role of nanotechnology in regenerative medicine. This minireview discusses the advancement of organic−inorganic composites, focusing on biopolymeric cryogels and inorganic elements for reinforcement. We highlight how cryogels can be integrated into minimally invasive procedures, reducing patient distress and complications, and advanced 3D-printing techniques that enable further customization of these materials to mimic bone tissue architecture, offering potential for patient-specific treatments.

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Cryogels Composites: Recent Improvement in Bone Tissue Engineering

Castanheira,

Rodrigues,

Mano

2024

Nano Lett.

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show abstract

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Biomimetic mineralization of platelet lysate/oxidized dextran cryogel as a macroporous 3D composite scaffold for bone repair

Cited by 1 publication

References 55 publications

Cryogels Composites: Recent Improvement in Bone Tissue Engineering

Cryogels Composites: Recent Improvement in Bone Tissue Engineering

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