Accedi

Research Institute at Nationwide Children's Hospital

4 ARTICLES PUBLISHED IN JoVE

Medicine

Implantation of Inferior Vena Cava Interposition Graft in Mouse Model

Yong-Ung Lee¹, Tai Yi¹, Shuhei Tara¹, Avione Y. Lee¹, Narutoshi Hibino¹, Toshiharu Shinoka², Christopher K. Breuer^1,3

¹Tissue Engineering Program and Surgical Research, Nationwide Children's Hospital, ²Department of Cardiothoracic Surgery, Nationwide Children's Hospital, ³Pediatric Surgery, Nationwide Children's Hospital

To improve our knowledge of cellular and molecular neotissue formation, a murine model of the TEVG was recently developed. The grafts were implanted as infrarenal vena cava interposition grafts in C57BL/6 mice. This model achieves similar results to those achieved in our clinical investigation, but over a far shortened time-course.

Medicine

Transplantation of Pulmonary Valve Using a Mouse Model of Heterotopic Heart Transplantation

Yong-Ung Lee¹, Tai Yi¹, Iyore James¹, Shuhei Tara¹, Alexander J. Stuber¹, Kejal V. Shah¹, Avione Y. Lee¹, Tadahisa Sugiura¹, Narutoshi Hibino², Toshiharu Shinoka¹, Christopher K. Breuer^1,3

¹Tissue Engineering Program and Surgical Research, Nationwide Children's Hospital, ²Cardiothoracic Surgery, Nationwide Children's Hospital, ³Pediatric Surgery, Nationwide Children's Hospital

In order to understand the cellular and molecular mechanisms underlying neotissue formation and stenosis development in tissue engineered heart valves, a murine model of heterotopic heart valve transplantation was developed. A pulmonary heart valve was transplanted to recipient using the heterotopic heart transplantation technique.

Bioengineering

Seeding and Implantation of a Biosynthetic Tissue-engineered Tracheal Graft in a Mouse Model

Matthew G. Wiet^*1,2, Sayali Dharmadhikari^*1,3, Audrey White^1,2, Susan D. Reynolds⁴, Jed Johnson⁵, Christopher K. Breuer^3,6, Tendy Chiang^1,3

¹Department of Otolaryngology Head & Neck Surgery, Nationwide Children's Hospital, ²The Ohio State University College of Medicine, ³Center for Regenerative Medicine, Research Institute at Nationwide Children's Hospital, ⁴Center for Perinatal Research, Nationwide Children's Hospital, ⁵Nanofiber Solutions, Inc., ⁶Department of Pediatric Surgery, Nationwide Children's Hospital

Graft stenosis poses a critical obstacle in tissue engineered airway replacement. To investigate cellular mechanisms underlying stenosis, we utilize a murine model of tissue engineered tracheal replacement with seeded bone marrow mononuclear cells (BM-MNC). Here, we detail our protocol, including scaffold manufacturing, BM-MNC isolation, graft seeding, and implantation.

Engineering

Surgery and Sample Processing for Correlative Imaging of the Murine Pulmonary Valve

Yifei Liu¹, Yong-Ung Lee², Tai Yi², Ken Wu³, Cedric Bouchet-Marquis³, Han Chan³, Christopher K. Breuer², David W. McComb¹

¹Center for Electron Microscopy and Analysis, The Department of Materials Science and Engineering, Ohio State University, ²Center for Regenerative Medicine, Nationwide Children’s Hospital, ³Thermo Fisher Scientific

Here, we describe a correlative workflow for the excision, pressurization, fixation, and imaging of the murine pulmonary valve to determine the gross conformation and local extracellular matrix structures.