Zobrazeno 1 - 10
of 11
pro vyhledávání: '"A. Camila Uzcategui"'
Autor:
Yangyi Yu, Kristine M. Fischenich, Sarah A. Schoonraad, Shane Weatherford, Asais Camila Uzcategui, Kevin Eckstein, Archish Muralidharan, Victor Crespo-Cuevas, Francisco Rodriguez-Fontan, Jason P. Killgore, Guangheng Li, Robert R. McLeod, Nancy Hadley Miller, Virginia L. Ferguson, Stephanie J. Bryant, Karin A. Payne
Publikováno v:
npj Regenerative Medicine, Vol 7, Iss 1, Pp 1-14 (2022)
Abstract Growth plate injuries affecting the pediatric population may cause unwanted bony repair tissue that leads to abnormal bone elongation. Clinical treatment involves bony bar resection and implantation of an interpositional material, but succes
Externí odkaz:
https://doaj.org/article/cee248cd0eb9411787229f61ddd06710
Autor:
Asais Camila Uzcategui, Callie I. Higgins, John E. Hergert, Andrew E. Tomaschke, Victor Crespo-Cuevas, Virginia L. Ferguson, Stephanie J. Bryant, Robert R. McLeod, Jason P. Killgore
Publikováno v:
Small Science, Vol 1, Iss 3, Pp n/a-n/a (2021)
3D printing is transforming traditional processing methods for applications ranging from tissue engineering to optics. To fulfill its maximum potential, 3D printing requires a robust technique for producing structures with precise 3D (x, y, and z) co
Externí odkaz:
https://doaj.org/article/391f6f8208424f22af4007044219ccd6
Autor:
Yangyi Yu, Nancy H. Miller, Asais Camila Uzcategui, Stephanie J. Bryant, Shane A Weatherford, Archish Muralidharan, Christopher B. Erickson, Virginia L. Ferguson, Karin A. Payne, Francisco Rodriguez-Fontan, Guangheng Li, Kevin Eckstein, Joseph R Fuchs
Publikováno v:
Tissue Eng Part C Methods
Physeal injuries can lead to bony repair tissue formation, known as a bony bar. This can result in growth arrest or angular deformity, which is devastating for children who have not yet reached their full height. Current clinical treatment involves r
Autor:
Stephanie J. Bryant, Andrew E. Tomaschke, Asais Camila Uzcategui, Jason P. Killgore, Virginia L. Ferguson, Victor Crespo-Cuevas, Callie I. Higgins, John E. Hergert, Robert R. McLeod
Publikováno v:
Small Sci
Small Science, Vol 1, Iss 3, Pp n/a-n/a (2021)
Small Science, Vol 1, Iss 3, Pp n/a-n/a (2021)
3D printing is transforming traditional processing methods for applications ranging from tissue engineering to optics. To fulfill its maximum potential, 3D printing requires a robust technique for producing structures with precise three-dimensional (
Publikováno v:
Adv Mater Technol
This work introduces a rapid and facile approach to predictably control integration between two materials with divergent properties. Programmed integration between photopolymerizable soft and stiff hydrogels was investigated for their promise in appl
Autor:
John E. Hergert, A. Camila Uzcategui, Archish Muralidharan, Victor Crespo-Cuevas, Virginia L. Ferguson, Robert R. McLeod
Publikováno v:
Advanced Engineering Materials. 24:2101543
Autor:
Mark A. Randolph, Virginia L. Ferguson, Archish Muralidharan, Stephanie J. Bryant, Victor Crespo-Cuevas, Sarah A. Schoonraad, Kristine M. Fischenich, Robert R. McLeod, Kevin Eckstein, Asais Camila Uzcategui, Lea M Savard, Andrew A. Tomaschke
Publikováno v:
Biofabrication. 13:044106
Successful 3D scaffold designs for musculoskeletal tissue engineering necessitate full consideration of the form and function of the tissues of interest. When designing structures for engineering cartilage and osteochondral tissues, one must reconcil
Autor:
Archish Muralidharan, Stephanie J. Bryant, Robert R. McLeod, Karin Payne, Virginia L. Ferguson, Asais Camila Uzcategui, Yangyi Yu
Publikováno v:
Microfluidics, BioMEMS, and Medical Microsystems XVII.
A predominant challenge in tissue engineering is the need of a robust technique for producing structures with precise three-dimensional control of mechanical properties. In an effort to understand how to control the mechanical and chemical properties
Autor:
Virginia L. Ferguson, Stephanie J. Bryant, A. Camila Uzcategui, Robert R. McLeod, Archish Muralidharan
Publikováno v:
Microfluidics, BioMEMS, and Medical Microsystems XVI.
3D printing hydrogels via stereolithography is a promising system for the creation of regenerative medical implants. However, the mechanical and chemical properties of materials patterned using stereolithography-based printing techniques are largely
Autor:
Archish Muralidharan, Virginia L. Ferguson, Stephanie J. Bryant, Robert R. McLeod, Asais Camila Uzcategui
Publikováno v:
Advanced Engineering Materials. 20:1800876
Application of 3D printed structures via stereolithography (SLA) is limited by imprecise dimensional control and inferior mechanical properties. These challenges is attributed to poor understanding ofpolymerization behavior during the printing proces