Publications by authors named "Daniella Goder Orbach"
Tissue regeneration relies on the mechanical properties of the surrounding environment, and it has already been shown that mechanostimulation is highly dependent on the stiffness of the native biological tissue. The main advantage of injectable hydrogels in medical applications is their ability to be delivered through minimally invasive techniques. Natural polymer-based hydrogels have been widely used in biomedical applications, due to their high biocompatibility, low immunogenicity, and similarity to soft tissues.
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- Injectable hydrogels have gained popularity for soft tissue regeneration due to their ability to adapt to irregular tissue shapes and provide minimally invasive treatment.
- This study introduces a new injectable porous scaffold made from natural polymers that can be customized in terms of stiffness and other properties, allowing it to mimic native tissue characteristics closely.
- Results showed that by varying concentrations of components, the scaffold can achieve a compression modulus suitable for all soft tissues and has high biocompatibility, making it a promising option for effective tissue repair and regeneration.
The need for a long-term solution for filling the defects created during partial mastectomies due to breast cancer diagnosis has not been met to date. All available defect-filling methods are non-permanent and necessitate repeat procedures. Here, we report on novel injectable porous hydrogel structures based on the natural polymers gelatin and alginate, which are designed to serve for breast reconstruction and regeneration following partial mastectomy.
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