Carina S. Russell
University of Nebraska–Lincoln
5 Papers
Carina S. Russell is an academic researcher from University of Nebraska–Lincoln. The author has contributed to research in topics: Tissue engineering & Self-healing hydrogels. The author has an hindex of 5, co-authored 5 publications.
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Papers
Soft-Nanoparticle Functionalization of Natural Hydrogels for Tissue Engineering Applications.
Kamil Elkhoury,Carina S. Russell,Laura Sánchez-González,Azadeh Mostafavi,Tyrell J. Williams,Cyril J.F. Kahn,Nicholas A. Peppas,Elmira Arab-Tehrany,Ali Tamayol,Ali Tamayol +9 more
TL;DR: The properties and tissue engineering applications of widely used natural hydrogels are discussed and methods of modulation of their physicochemical and biological properties using soft nanoparticles as fillers or reinforcing agents are presented.
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In Situ Printing of Adhesive Hydrogel Scaffolds for the Treatment of Skeletal Muscle Injuries
Carina S. Russell,Azadeh Mostafavi,Jacob Quint,Adriana C. Panayi,Kodi Baldino,Tyrell J. Williams,Jocelyn G. Daubendiek,Victor Hugo Sánchez,Zack Bonick,Mairon Trujillo-Miranda,Su Ryon Shin,Olivier Pourquié,Sahar Salehi,Indranil Sinha,Ali Tamayol +14 more
- 31 Jan 2020
TL;DR: A paradigm is proposed in which gelatin-based hydrogels are printed directly into the defect area of mice with VML injury, exhibiting proper adhesion to the surrounding tissue and promoting remnant skeletal muscle hypertrophy.
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In Vivo Printing of Nanoenabled Scaffolds for the Treatment of Skeletal Muscle Injuries.
Jacob Quint,Jacob Quint,Azadeh Mostafavi,Yori Endo,Adriana C. Panayi,Carina S. Russell,Atousa Nourmahnad,Chris Wiseman,Laleh Abbasi,Mohamadmahdi Samandari,Amir Sheikhi,Kristo Nuutila,Indranil Sinha,Ali Tamayol,Ali Tamayol +14 more
TL;DR: In this article, a nanoengineered growth factor-eluting bioink that utilizes Laponite nanoclay for the controlled release of vascular endothelial growth factor (VEGF) and a GelMA hydrogel for a supportive and adhesive scaffold that can be crosslinked in vivo is presented.
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In situ printing of scaffolds for reconstruction of bone defects.
Azadeh Mostafavi,Tuerdimaimaiti Abudula,Carina S. Russell,Ebrahim Mostafavi,Tyrell J. Williams,Numan Salah,Ahmed Alshahrie,Seth Harris,Seyed Masoud Moosavi Basri,Yogendra Kumar Mishra,Thomas J. Webster,Adnan Memic,Ali Tamayol,Ali Tamayol +13 more
TL;DR: In this article, a handheld melt spun 3D printer was introduced that can deposit materials directly within the defect site to properly fill the cavity and form free-standing scaffolds, which can reconstruct the geometrical features of the defected tissue.
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Nanocomposite hydrogels for tissue engineering applications
Azadeh Mostafavi,Jacob Quint,Carina S. Russell,Ali Tamayol +3 more
- 01 Jan 2020
TL;DR: The challenges associated with various types of hydrogels are discussed and the benefits of nanocomposites made of various nanoparticles andhydrogels for tissue engineering applications are highlighted.
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