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From Bench to the Clinic: The Path to Translation of Nanotechnology-Enabled mRNA SARS-CoV-2 Vaccines 被引量:4
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作者 Diana O.Lopez‑Cantu xichi wang +4 位作者 Hector Carrasco‑Magallanes Samson Afewerki Xingcai Zhang Joseph V.Bonventre Guillermo U.Ruiz‑Esparza 《Nano-Micro Letters》 SCIE EI CAS CSCD 2022年第3期1-31,共31页
During the last decades,the use of nanotechnology in med icine has effectively been translated to the design of drug delivery systems,nanostructured tissues,diagnostic platforms,and novel nanomaterials against several... During the last decades,the use of nanotechnology in med icine has effectively been translated to the design of drug delivery systems,nanostructured tissues,diagnostic platforms,and novel nanomaterials against several human diseases and infectious pathogens.Nanotechnology-enabled vaccines have been positioned as solutions to mitigate the pandemic outbreak caused by the novel pathogen severe acute respiratory syndrome coronavirus 2.To fast-track the development of vaccines,unprecedented industrial and academic collaborations emerged around the world,resulting in the clinical translation of effective vaccines in less than one year.In this article,we provide an overview of the path to translation from the bench to the clinic of nanotechnology-enabled messenger ribonucleic acid vaccines and examine in detail the types of delivery systems used,their mechanisms of action,obtained results during each phase of their clinical development and their regulatory approval process.We also analyze how nanotechnology is impacting global health and economy during the COVID-19 pandemic and beyond. 展开更多
关键词 Nanovaccines MRNA CORONAVIRUS SARS-CoV-2 COVID-19
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Nanoengineered Shear-Thinning Hydrogel Barrier for Preventing Postoperative Abdominal Adhesions 被引量:3
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作者 Guillermo U.Ruiz-Esparza xichi wang +15 位作者 Xingcai Zhang Sofia Jimenez-Vazquez Liliana Diaz-Gomez Anne-Marie Lavoie Samson Afewerki Andres AFuentes-Baldemar Roberto Parra-Saldivar Nan Jiang Nasim Annabi Bahram Saleh Ali K.Yetisen Amir Sheikhi Thomas H.Jozefiak Su Ryon Shin Nianguo Dong Ali Khademhosseini 《Nano-Micro Letters》 SCIE EI CAS CSCD 2021年第12期452-467,共16页
More than 90%of surgical patients develop postoper-ative adhesions,and the incidence of hospital re-admissions can be as high as 20%.Current adhesion barriers present limited efficacy due to difficulties in applicatio... More than 90%of surgical patients develop postoper-ative adhesions,and the incidence of hospital re-admissions can be as high as 20%.Current adhesion barriers present limited efficacy due to difficulties in application and incompatibility with minimally invasive interventions.To solve thisclinical limitation,we developed an injectable and sprayable shear-thinning hydrogel barrier(STHB)composed of silicate nanoplatelets and poly(ethylene oxide).We optimized this technology to recover mechanical integrity after stress,enabling its delivery though inject-able and sprayable methods.We also demonstrated limited cell adhesion and cytotoxicity to STHB compositions in vitro.The STHB was then tested in a rodent model of peritoneal injury to determine its e cacy preventing the formation of postoperative adhesions.After two weeks,the peritoneal adhesion index was used as a scoring method to determine the formation of postoperative adhesions,and STHB formulations presented superior e cacy compared to a commercially available adhesion barrier.Histological and immunohistochemical examination showed reduced adhesion formation and minimal immune infiltration in STHB formulations.Our technology demonstrated increased e cacy,ease of use in complex anatomies,and compatibility with di erent delivery methods,providing a robust universal platform to prevent postoperative adhesions in a wide range of surgical interventions. 展开更多
关键词 Postoperative adhesions Shear-thinning hydrogel Silicate nanoplatelets Nanotechnology NANOMEDICINE
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