Login

Luis Enrique García‐Rivera

ORCID: 0000-0003-2554-2386
Publications
Citations
Views
---
Saved
---
About
Contact & Profiles
A5010576473
Research Areas
  • 3D Printing in Biomedical Research
  • Wound Healing and Treatments
  • Electrospun Nanofibers in Biomedical Applications
  • Tissue Engineering and Regenerative Medicine
  • Neuroscience and Neural Engineering
  • Cellular Mechanics and Interactions
  • Additive Manufacturing and 3D Printing Technologies
  • Innovative Microfluidic and Catalytic Techniques Innovation

Brigham and Women's Hospital
 2021-2023

Harvard University
 2021-2023

Tecnológico de Monterrey
 2021-2022

 Light‐Controlled Growth Factors Release on Tetrapodal ZnO‐Incorporated 3D‐Printed Hydrogels for Developing Smart Wound Scaffold
OPENALEX - Publications 
Leonard Siebert Eder Luna‐Cerón Luis Enrique García‐Rivera Jun-Sung Oh Jun-Hwee Jang and 18 more Diego A. Rosas‐Gómez Mitzi D. Pérez‐Gómez Gregor Maschkowitz Helmut Fickenscher Daniela Oceguera‐Cuevas Carmen G. Holguín‐León Batzaya Byambaa Mohammad Asif Hussain Eduardo Enciso‐Martínez Minsung Cho Yuhan Lee Nebras Sobahi Anwarul Hasan Dennis P. Orgill Yogendra Kumar Mishra Rainer Adelung Eun‐Jung Lee Su Ryon Shin

Advanced wound scaffolds that integrate active substances to treat chronic wounds have gained significant recent attention. While and advanced functionalities previously been incorporated into one medical device, the wirelessly triggered release of has remained focus many research endeavors. To combine multiple functions including light-triggered activation, anti-septic, angiogenic, moisturizing properties, we developed a 3D printed hydrogel patch encapsulating vascular endothelial growth...

10.1002/adfm.202007555 article EN Advanced Functional Materials 2021-02-19
 Self-oxygenation of engineered living tissues orchestrates osteogenic commitment of mesenchymal stem cells
OPENALEX - Publications 
Shabir Hassan Ting Wang Kun Shi Yike Huang Maria Elizabeth Urbina Lopez and 19 more Kaifeng Gan Mo Chen Niels Willemen Haroon Kalam Eder Luna‐Cerón Berivan Çeçen Gihan Daw Elbait Jinghang Li Luis Enrique García‐Rivera Melvin Gurian Mudassir M. Banday Kisuk Yang Myung Chul Lee Weida Zhuang Castro Johnbosco Oju Jeon Eben Alsberg Jeroen Leijten Su Ryon Shin

10.1016/j.biomaterials.2023.122179 article EN publisher-specific-oa Biomaterials 2023-05-31
 Tunable and Compartmentalized Multimaterial Bioprinting for Complex Living Tissue Constructs
OPENALEX - Publications 
Shabir Hassan Eduardo Gomez-Reyes Eduardo Enciso‐Martínez Kun Shi Jorge Gonzalez Campos and 14 more Oscar Yael Perez Soria Eder Luna‐Cerón Myung Chul Lee Isaac E. García-Reyes Joshua Steakelum Haziq Jeelani Luis Enrique García‐Rivera Minsung Cho Stephanie Sanchez Cortes Tom Kamperman Haihang Wang Jeroen Leijten Lance Fiondella Su Ryon Shin

Recapitulating inherent heterogeneity and complex microarchitectures within confined print volumes for developing implantable constructs that could maintain their structure

10.1021/acsami.2c12585 article EN ACS Applied Materials & Interfaces 2022-11-08
 3D bioprinted human iPSC-derived somatosensory constructs with functional and highly purified sensory neuron networks
OPENALEX - Publications 
Minoru Hirano Yike Huang Daniel Vela Jarquin Rosakaren Ludivina De la Garza Hernández Yasamin A. Jodat and 3 more Eder Luna‐Cerón Luis Enrique García‐Rivera Su Ryon Shin

Engineering three-dimensional (3D) sensible tissue constructs, along with the complex microarchitecture wiring of sensory nervous system, has been an ongoing challenge in engineering field. By combining 3D bioprinting and human pluripotent stem cell (hPSC) technologies, constructs could be engineered a rapid, precise, controllable manner to replicate microarchitectures mechanosensory functionalities native (e.g. response external stimuli). Here, we introduce biofabrication approach create...

10.1088/1758-5090/abff11 article EN Biofabrication 2021-05-08
 Smart Wound Scaffolds: Light‐Controlled Growth Factors Release on Tetrapodal ZnO‐Incorporated 3D‐Printed Hydrogels for Developing Smart Wound Scaffold (Adv. Funct. Mater. 22/2021)
OPENALEX - Publications 
Leonard Siebert Eder Luna‐Cerón Luis Enrique García‐Rivera Jun-Sung Oh Jun-Hwee Jang and 18 more Diego A. Rosas‐Gómez Mitzi D. Pérez‐Gómez Gregor Maschkowitz Helmut Fickenscher Daniela Oceguera‐Cuevas Carmen G. Holguín‐León Batzaya Byambaa Mohammad Asif Hussain Eduardo Enciso‐Martínez Minsung Cho Yuhan Lee Nebras Sobahi Anwarul Hasan Dennis P. Orgill Yogendra Kumar Mishra Rainer Adelung Eun‐Jung Lee Su Ryon Shin

In article number 2007555, Leonard Siebert, Eunjung Lee, Su Ryon Shin, and co-workers develop a 3D printed smart wound scaffold encapsulating growth factors decorated with light-sensitive antibacterial tetrapodal zinc oxide (t-ZnO) microparticles for the treatment of chronic wounds. The multifunctional pro perties combined light-triggered angiogenic factor release, properties, tissue compatibility enable fast recovery.

10.1002/adfm.202170154 article EN Advanced Functional Materials 2021-05-01
Coming Soon ...