AI Article Synopsis
- Endoscopic optical coherence tomography (OCT) probes can experience imaging issues due to light dispersion and polarization mismatches; a common path approach minimizes these issues.
- A new miniaturized common path fiber probe was created using an inline fiber mirror and tested on human coronary artery samples, achieving high-resolution images.
- The probe demonstrated a sensitivity of 104 dB and offers advantages for compact endoscopic applications, simplifying design while maintaining image quality comparable to traditional OCT systems.
Article Abstract
Background And Objectives: Endoscopic optical coherence tomography probes suffer from various artifacts due to dispersion imbalance and polarization mismatch between reference and sample arm light. Such artifacts can be minimized using a common path approach. In this work, we demonstrate a miniaturized common path probe for optical coherence tomography using an inline fiber mirror.
Materials And Methods: A common path optical fiber probe suitable for performing high-resolution endoscopic optical coherence tomography imaging was developed. To achieve common path functionality, an inline fiber mirror was fabricated using a thin gold layer. A commercially available swept source engine was used to test the designed probe in a cadaver human coronary artery ex vivo.
Results: We achieved a sensitivity of 104 dB for this probe using a swept source optical coherence tomography system. To test the probe, images of a cadaver human coronary artery were obtained, demonstrating the quality that is comparable to those obtained by OCT systems with separate reference arms. Additionally, we demonstrate recovery of ranging depth by use of a Michelson interferometer in the detection path.
Conclusion: We developed a miniaturized monolithic inline fiber mirror-based common path probe for optical coherence tomography. Owing to its simplicity, our design will be helpful in endoscopic applications that require high-resolution probes in a compact form factor while reducing system complexity. Lasers Surg. Med. 50:230-235, 2018. © 2017 Wiley Periodicals, Inc.
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