Optical transillumination tomography for imaging of tissue-engineered blood vessels

Recent progress in tissue engineering led to the development of completely biological human vessels grown from the patient's own cells. Those tissue-engineered blood vessels (TEBV) are grown on an individual basis at high costs per item, and therefore require close growth monitoring and quality control. We designed and tested an optical transillumination tomography system using red laser light to image weakly scattering specimens, such as TEBV. Fixated TEBV were imaged and the results compared to optical coherence tomography. This preliminary scanner prototype had an in-plane resolution of 50 mu m and allowed to see small inhomogeneities and defects in the samples. Tissue attenuation was found to be 70 cm(-1). Main advantages of the transillumination tomography scanner over optical coherence tomography were the inexpensive instrumentation and the potential to rapidly acquire complete 3D sections with a CCD camera. The prototype presented in this study provides a basis to further improve image quality and acquisition speed.