Subcutaneous nanotherapy repurposes the immunosuppressive mechanism of rapamycin to enhance allogeneic islet graft viability
Burke, Jacqueline A., Zhang, Xiaomin, Bobbala, Sharan, Frey, Molly A., Bohorquez Fuentes, Carolina, Freire Haddad, Helena, Allen, Sean D., Richardson, Reese A. K., Ameer, Guillermo A., Scott, Evan A.
Published in Nature nanotechnology (01.03.2022)
Published in Nature nanotechnology (01.03.2022)
Get full text
Journal Article
209.8: Subcutaneous Nanotherapy Repurposes the Immunosuppressive Mechanism of Rapamycin to Enhance Allogeneic Islet Graft Viability
Burke, Jacqueline, Zhang, Xiaoming, Frey, Molly A, Reddy Bobbala, Sharan Kumar, Richardson, Reese Ak, Allen, Sean D, Liu, Yu-Gang, Bohorquez Fuentes, Carolina, Haddad, Helena Freire, Ameer, Guillermo A, Scott, Evan A
Published in Transplantation (01.12.2021)
Published in Transplantation (01.12.2021)
Get more information
Journal Article
Engaging natural antibody responses for the treatment of inflammatory bowel disease via phosphorylcholine-presenting nanofibres
Curvino, Elizabeth J, Roe, Emily F, Freire Haddad, Helena, Anderson, Alexa R, Woodruff, Mia E, Votaw, Nicole L, Segura, Tatiana, Hale, Laura P, Collier, Joel H
Published in Nature biomedical engineering (01.05.2024)
Published in Nature biomedical engineering (01.05.2024)
Get more information
Journal Article
Subcutaneous nanotherapy repurposes the immunosuppressive mechanism of rapamycin to enhance allogeneic islet graft viability
Burke, Jacqueline A, Zhang, Xiaomin, Sharan Kumar Reddy Bobbala, Frey, Molly A, Carolina Bohorquez Fuentes, Helena Freire Haddad, Allen, Sean D, Reese Ak Richardson, Ameer, Guillermo A, Scott, Evan A
Published in bioRxiv (06.10.2020)
Published in bioRxiv (06.10.2020)
Get full text
Paper