Editorial: Manufacturing living organs using tissue engineering strategy

For studying microcirculation of intact tissues or organs, a new noninvasive, heattransient method using laser photoexcitation is described. As a heating source an argon ion laser or R6G dye laser was used via a quartz fiber optic guide. Infrared radiation from heated tissue was detected by a thermo

## Abstract Over the past 8 years, our group has been continuously improving tendon repair using a __functional tissue engineering (FTE) paradigm__. This paradigm was motivated by inconsistent clinical results after tendon repair and reconstruction, and the modest biomechanical improvements we obse

## Abstract In this research, injection molding was combined with a novel material combination, supercritical fluid processing, and particulate leaching techniques to produce highly porous and interconnected structures that have the potential to act as scaffolds for tissue engineering applications.

## Abstract Over the last decade, bone engineered tissues have been developed as alternatives to autografts and allografts to repair and reconstruct bone defects. This article provides a review of the current technologies in bone tissue engineering. Factors used for fabrication of three‐dimensional