Three-dimensional (3D) printing has become broadly available and can be utilized to customize clamping mechanisms in biomechanical experiments. This report will describe our experience using 3D printed clamps to mount soft tissues from different anatomical regions. The feasibility and potential limitations of the technology will be discussed. Tissues were sourced in a fresh condition, including human skin, ligaments and tendons. Standardized clamps and fixtures were 3D printed and used to mount specimens. In quasi-static tensile tests combined with digital image correlation and fatigue trials we characterized the applicability of the clamping technique. Scanning electron microscopy was utilized to evaluate the specimens to assess the integr...
Despite extensive use of polydimethylsiloxane (PDMS) in medical applications, such as lab-on-a-chip ...
Three-dimensional (3D) printing represents a key technology for rapid prototyping, allowing easy, ra...
The musculoskeletal system is essential for maintaining posture, protecting organs, facilitating loc...
Three-dimensional (3D) printing has become broadly available and can be utilized to customize clampi...
Biomechanical testing of soft tissues forms the backbone in the experimental validation of tissue en...
Characterizing the relationship between material structure and mechanical function is important in e...
Improved surgical procedures and implant developments for ligament or tendon repair require an in-de...
This study presents an anatomically customizable fixation technique for biomechanical spine experime...
3D printed clamps provide multiple advantages compared to potting for the fixation of spinal specime...
2018-01-19The following thesis outlines the results of a series of studies on the mechanical propert...
The failure behavior and mechanical properties of soft tissue can be characterized by conducting uni...
Mechanical loading is an important cue for directing stem cell fate and engineered tissue formation ...
Various clamp designs have been proposed over the years with different degrees of complexity and act...
The lack of standardization in tissue testing procedures results in a variety of custom-made devices...
Previously, we performed a study using a 3D-printer to test the effect of cancellous bone deteriorat...
Despite extensive use of polydimethylsiloxane (PDMS) in medical applications, such as lab-on-a-chip ...
Three-dimensional (3D) printing represents a key technology for rapid prototyping, allowing easy, ra...
The musculoskeletal system is essential for maintaining posture, protecting organs, facilitating loc...
Three-dimensional (3D) printing has become broadly available and can be utilized to customize clampi...
Biomechanical testing of soft tissues forms the backbone in the experimental validation of tissue en...
Characterizing the relationship between material structure and mechanical function is important in e...
Improved surgical procedures and implant developments for ligament or tendon repair require an in-de...
This study presents an anatomically customizable fixation technique for biomechanical spine experime...
3D printed clamps provide multiple advantages compared to potting for the fixation of spinal specime...
2018-01-19The following thesis outlines the results of a series of studies on the mechanical propert...
The failure behavior and mechanical properties of soft tissue can be characterized by conducting uni...
Mechanical loading is an important cue for directing stem cell fate and engineered tissue formation ...
Various clamp designs have been proposed over the years with different degrees of complexity and act...
The lack of standardization in tissue testing procedures results in a variety of custom-made devices...
Previously, we performed a study using a 3D-printer to test the effect of cancellous bone deteriorat...
Despite extensive use of polydimethylsiloxane (PDMS) in medical applications, such as lab-on-a-chip ...
Three-dimensional (3D) printing represents a key technology for rapid prototyping, allowing easy, ra...
The musculoskeletal system is essential for maintaining posture, protecting organs, facilitating loc...