Title :
Robust High-Resolution Fine OCT Needle for Side-Viewing Interstitial Tissue Imaging
Author :
Wu, Yicong ; Xi, Jiefeng ; Huo, Li ; Padvorac, Jason ; Shin, Eun Ji ; Giday, Samuel A. ; Lennon, Anne Marie ; Canto, Marcia Irene F ; Hwang, Joo Ha ; Li, Xingde
Author_Institution :
Dept. of Biomed. Eng., Johns Hopkins Univ., Baltimore, MD, USA
Abstract :
Fine optical coherence tomography (OCT) imaging needles that can be integrated with a standard biopsy needle have been developed with a new optics design to improve the optical quality and mechanical robustness, where a fiber-optic lens (that is spliced to a single-mode fiber) and a microreflector are encased within a microglass tube. The design also minimizes the cylindrical lens effect induced by the glass tube and eases the needle assembly process. Real-time cross-sectional OCT imaging of various tissue samples were performed ex vivo using the miniature-imaging needle along with a 1300-nm swept-source OCT system. The preliminary results demonstrate the improved mechanical and optical performance and suggest the potential of the fine OCT needle for minimally invasive interstitial imaging and image-guided biopsy.
Keywords :
biological tissues; biomedical equipment; computerised tomography; cylindrical lens effect; glass tube; image-guided biopsy; miniature-imaging needle; needle assembly process; real-time cross-sectional OCT imaging; robust high-resolution fine OCT needle; side-viewing interstitial tissue imaging; swept-source OCT system; tissue sample; Astigmatism; OCT needle; biopsy needle; interstitial imaging; optical coherence tomography (OCT);
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2009.2035362
